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RAJASTHAN STATE MINES & MINERALS LTD.

ENVIRONMENTAL IMPACT ASSESSMENT STUDY FOR JAKHARDA GYPSUM MINE,

BARMER, RAJASTHAN (Lease Area: 336.18 ha, Production Capacity:4.26 lac TPA)

WAPCOS LIMITED

(A Government of India Undertaking)

76 C, Sector 18, Gurgaon - 122015, Haryana, INDIA

Tel. +91-124-2397396,

Fax. +91-124-2397392

Email: [email protected]

(A Government of Rajasthan Enterprise)

February 2015

CONTENTS

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CONTENTS

CHAPTER-1 INTRODUCTION 1.1 General 1-1 1.2 Rajasthan State Mines & Minerals Limited 1-1 1.3 Objectives of the EIA Study 1-5 1.4 Stages in an EIA Study 1-5 1.5 Methodology for the Study 1-7 1.6 Outline of the Report 1-12

CHAPTER-2 PROJECT DETAILS 2.1 General 2-1 2.2 Mining Methodology 2-1 2.3 Gypsum reserve and Mine life 2-3 2.4 Production Details 2-4 2.5 Land Requirement 2-6 2.6 Site Services 2-6 2.7 Employment Potential 2-6 2.8 Mineral Beneficiation 2-6

CHAPTER-3 ENVIRONMENTAL BASELINE STATUS 3.1 Scope of the Chapter 3-1 3.2 General information 3-2 3.3 Climate 3-2 3.4 Topography 3-7 3.5 Geology 3-7 3.6 Seismicity 3-8 3.7 Soils 3-8 3.8 Water Environment 3-10 3.9 Air Environment 3-12 3.10 Noise Environment 3-17 3.11 Landuse 3-18 3.12 Flora 3-19 3.13 Fauna 3-22 3.14 Socio-Economics 3-23

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CHAPTER-4 ADDITIONAL STUDIES FOR BASELINE

4.1 Background 4-1 4.2 Micro-Meteorology 4-1 4.3 Ambient Air Quality 4-5 4.4 Soils 4-9 4.5 Water Environment 4-10 4.6 Noise Environment 4-11

CHAPTER-5 PREDICTION OF IMPACTS 5.1 General 5-1 5.2 Impacts on Air Environment 5-1 5.3 Impacts on Noise Environment 5-6 5.4 Impacts on Water Environment 5-9 5.5 Impacts on Land Environment 5-11 5.6 Impacts on Ecology 5-12 5.7 Impacts on Socio-Economic Environment 5-13

CHAPTER-6 ENVIRONMENTAL MANAGEMENT PLAN 6.1 General 6-1 6.2 Air Environment 6-1 6.3 Noise Control Measures 6-3 6.4 Water Environment 6-3 6.5 Land Environment 6-5 6.6 Greenbelt Development 6-5 6.7 Area Development Activities 6-7

CHAPTER-7 ENVIRONMENTAL MONITORING PROGRAMME 7.1 Objectives 7-1 7.2 Areas of concern 7-1 7.3 Water 7-2 7.4 Air 7-2 7.5 Noise 7-2 7.6 Mine Reclamation and Greenbelt Development 7-3 7.7 Environmental Management Cell 7-3 7.8 Summary of Environmental Monitoring Programme 7-3

CHAPTER-8 PROJECT BENEFITS

8.1 Introduction 8-1 8.2 Improvement in Physical -Social Infrastructure 8-1 8.3 Employment Potential 8-2 8.4 Distribution of Royalty 8-2

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8.5 Improvement in Quality of Land 8-2

CHAPTER-9 FINDINGS OF PUBLIC HEARING 9.1 Introduction 9-1 9.2 Key issues Raised 9-1

CHAPTER-10 COST ESTIMATES

10.1 Environmental Management Plan 10-1 10.2 Environmental Monitoring Programme 10-1

CHAPTER-11 SUMMARY AND CONCLUSIONS 11.1 Summary 11-1 11.2 Conclusions 11-4

CHAPTER-12 DISCLOSURE OF CONSULTANTS INVOLVED IN THE EIA STUDY

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LIST OF TABLES TABLE-11 Production of Gypsum at Jakharda Mine TABLE-1.2 Scoping matrix adopted for the study TABLE-1.3 List of Soil quality parameters analysed as a

part of field studies TABLE-1.4 List of water quality parameters analysed as a

part of the field studies TABLE-2.1 Details of year-wise gypsum production TABLE-2.2 Land ownership details of area to be acquired TABLE-3.1 Average meteorological conditions in the project area district TABLE-3.2 Special weather phenomena in the project area district TABLE-3.3 Stratigraphic Summary of Rock in Barmer District TABLE-3.4 Geological sequence of the project area TABLE-3.5 Soil quality in the study area TABLE-3.6 Water Quality in the Study Area (Buffer zone) TABLE-3.7 Ambient air quality monitoring stations in the study area

(buffer zone) TABLE-3.8 Ambient Air Quality Status- SPM TABLE-3.9 Ambient Air Quality Station – RPM TABLE-3.10 Ambient Air Quality Status SO2 level TABLE-3.11 Ambient Air Quality Status NOx levels TABLE-3.12 Equivalent noise standards in the study area TABLE-3.13 Landuse pattern of the study area (Buffer zone) TABLE-3.14 Common floral species found in the Buffer Zone (study area) TABLE-3.15 Common floral species found in the mine lease area (core zone) TABLE-3.16 Common faunal species found in the Buffer Zone (Study Area) TABLE-3.17 Major faunal species found in the mine lease area (Core Zone) TABLE-3.18 Demographic Profile in the Study Area TABLE-3.19 Caste Profile in the Study Area TABLE-3.20 Literacy Levels in the Study Area TABLE-3.21 Occupational Profile in the Study Area TABLE-4.1 Summary of the micro-meteorological data observed TABLE-4.2 Ambient air quality monitoring stations in the study area

(buffer zone) TABLE-4.3 Ambient Air Quality Status- PM10 TABLE-4.4 Ambient Air Quality Station – PM2.5 TABLE-4.5 Ambient Air Quality Status -SO2 level TABLE-4.6 Ambient Air Quality Status -NO2 levels TABLE-4.7 Soil quality in the study area TABLE-4.8 Water Quality in the Study Area TABLE-4.9 Equivalent noise standards in the study area TABLE-5.1 Sources of pollutants TABLE-5.2 Fugitive emissions from various sources in the proposed

Jakharda gypsum mine TABLE-5.3 Fuel consumption in various mining equipment

v

TABLE-5.4 Emission rates for various pollutants due to fuel combustion TABLE-5.5 Short-term increase in Ground Level Concentration TABLE-5.6 Predicted noise levels due to the proposed Jakharda

gypsum mine TABLE-5.7 Transmission loss values for common construction material TABLE-5.8 Water requirement and Sewage generation at Jakharda gypsum mine TABLE-5.9 Typical composition of untreated domestic waste water TABLE-6.1 Cost required for control of water pollution TABLE-6.2 Species recommended for Greenbelt Development TABLE-6.3 Yearwise plantation programme TABLE-7.1 Summary of Environmental Monitoring Programme TABLE-8.1 Details of yearwise gypsum production TABLE-9.1 Key issues raised during public hearing held at Village Halibav TABLE-9.2 Key issues raised during public hearing held at Village Ramki KI Gol TABLE-10.1 Cost of Implementing Environmental Management Plan TABLE-10.2 Cost required for implementation of Environmental Monitoring Programme TABLE-11.1 Details of yearwise gypsum production TABLE-12.1 List of Experts involved in the EIA study

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LIST OF FIGURES Figure – 1.1 Location Plan

Figure – 2.1 Conceptual Plan

Figure – 3.1 Study Area

Figure – 3.2 Monthwise Rainfall Received in Project Area

Figure – 3.3 Monthwise Temperature Variation in Project Area

Figure – 3.4 Monthwise Humidity Variations in Project Area

Figure – 3.5 Sampling Locations

Figure – 3.6 Land use Pattern

Figure – 4.1 Wind rose diagram for the study period

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LIST OF ANNEXURES

Annexure-I Drinking water quality standards

Annexure-II National Ambient Air Quality Standards

Annexure-III Ambient noise standards

Annexure-IV Results of Micro-Meteorological Monitoring

Annexure-V TOR Compliances

Annexure-VI Mining Lease sanction order and related document in support

of validity of Mining Lease

CHAPTER-1

INTRODUCTION

RSMML EIA study for Jakharda gypsum Mine, Barmer

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CHAPTER–1

INTRODUCTION

1.1 GENERAL

The State of Rajasthan has rich mineral resources of non-ferrous metals such as

copper, lead , zinc, mica and industrial minerals such as rock phosphate, limestone,

gypsum, fluorospar, bentonite, graphite, siliceous earth, granite, etc. The state also

has significant lignite resources as well.

The mining activities could lead to significant environmental problems if its

operations are not properly planned. There could be problems of air pollution during

excavation or dumping of overburden, increased noise levels, and vibrations, loss of

valuable top soil, topographical changes, increase in traffic, adverse impact on

ecology, etc. The severity and extent of these problems can be ascertained through

an Environmental Impact Assessment Study.

1.2 RAJASTHAN STATE MINES & MINERALS LIMITED (RSMML) Rajasthan State Mines & Mineral Limited (RSMML), a Government of Rajasthan

Enterprise, is the major mining organization in the state of Rajasthan involved in

mining of various minerals including rock phosphate, steel grade limestone, gypsum,

fluorospar and lignite.

Gypsum mining in the arid regions of Rajasthan is continuing since long back with

minimal impacts on the environment. On the other hand gypsum mining has resulted

in positive impacts as a source of income and employment in a remote inaccessible

area.

RSMML, the leading producer of gypsum in the country, proposes expansion of the

production capacity of Jakharda gypsum mine from 1.00 lac tone per annum to 4.265


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lac tone per annum. Jakharda Gypsum mine is located near village Jakharda, tehsil

Gudamalani, District Barmer.

The mine lease falls under Tehsil Gudamalani of district Barmer and Tehsil

Sanchore of district Jalore. The mine is approachable by diversion on NH 15 near

village Gandhav and also from Ramji ka Gole located on NH 15. The nearest rail

head is at Barmer. The mine is located at a distance of about 45 km from Sanchore

which is the tehsil headquarter. The mine location map is enclosed as Figure-1.1.

Figure-1.1:Mine location map

The Mining Plan of Jakharda Gypsum Mine was approved by Indian Bureau of Mines

(IBM), Ajmer vide order no. 326/164/ZN-29/AJM/91-MCCM (N) dated 13.06.1991.

Mining started at Jakharda mine in the year 1986 as state government granted

working permission. The Environmental Clearance was accorded by Ministry of

Environment and Forests (MOEF), Government of India (GOI) vide their letter no.

11015/5/96-IAII(M) dated 02.07.1996 for maximum production capacity of 1.00 lac


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tonne per annum and lease area of 625 ha. The Department of Mines and Geology,

Government of Rajasthan had disallowed to work under working permission in

financial year 2004-2005 with advice to regularize it by pursuance for regular grant of

mining lease and fresh Environmental Clearance. This was done due to the fact that

Ministry of Environment and Forests, Government of India, vide their circular dated

28.10.2004 clarified that mining projects of major minerals with more than 5 hectares

lease area, which have started production or increased their production and/or lease

area on or after 27.01.1994 require fresh Environmental Clearance. Prior to

clarification dated 28.10.2004 the State Mines Department was allowing mining

operation for increased annual production with consideration that no pollution load

is increased in gypsum mining operation with increase in production.

Prior to the financial year 2002-03, mine was operated on the agency basis for state

government of Rajasthan by erstwhile Rajasthan State Mineral Development

Corporation (RSMDC) which is amalgamated in RSMML in 2002-03. During the

period from financial year 2002-03 to 2004-05 the mine was operated by RSMML

with same status. The production level from Jakharda gypsum mine is given in

Table-1.1.

TABLE-1.1

Production of gypsum at Jakharda mine

S. No Year Production as per previous

Environment Clearance

(Metric Tonne per Annum)

Actual

Production in

Metric Tonne

per Annum

1. 1986-1987 10148

2. 1987-1988 66023

3. 1988-1989 58221

4. 1989-1990 46344

5. 1990-1991 36671

6. 1991-1992 83108

7. 1992-1993 57079

8. 1993-1994 24193


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S. No Year Production as per previous

Environment Clearance

(Metric Tonne per Annum)

Actual

Production in

Metric Tonne

per Annum

9. 1994-1995 27789

10. 1995-1996 94338

After Environmental Clearance on 02.7.1996

11. 1996-1997 100000 163039

12. 1997-1998 100000 220548

13. 1998-1999 100000 202096

14. 1999-2000 100000 146807

15. 2000-2001 100000 122560

16. 2001-2002 100000 96552

17. 2002-2003 100000 89941

18. 2003-2004 100000 84266

19. 2004-2005 100000 65765

20. 2005-2006 Mining operation discontinued as mines department

Govt. of Rajasthan close the system of working

permission and granted mining lease vide the order

dated 20.07.2007. The mining lease executed with

the mines department and registered at the office of

concerned sub registrar on 11.09.2007. Therefore

the present mining lease is valid for the period from

11.09.2007 to 10.09.2027. Mines is not in operation

since the grant of mining lease as it requires

environmental clearance.

At the time of Ministry of Environment and Forest,

Government of India New Delhi circular dated

28.10.2004, the mines was not in operation.

21. 2006-2007

Mining

lease

period

11.09.2007 to

10.09.2027.

22. 2007-2008

23. 2008-2009

24. 2010-2011

25. 2011-2012

The regular mining lease was granted in favour of RSMML by the state government

of Rajasthan vide GO no. P.15(7) Khan/Gr-1/94 dated 20.07.2007 over an area of

336.18 ha. The mining lease area has been revised by excluding the area under the

possession of forest department at the time of granting the mining lease.

The Scheme of Mining for annual production capacity of 4.264 lac ton has been

approved by the Department of Mines and Geology, Government of Rajasthan vide

their letter no. SME/JO/CC/BMR/ML/2/03/Jakharda/07/8714 dated 03.10.2007.


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RSMML now proposes expansion of the mine with annual production capacity of

4.265 lac ton. The proposed expansion in the production capacity requires

Environmental Clearance from Ministry of Environment & Forests (MOEF),

Government of India (GOI). RSMML has awarded the EIA study work to WAPCOS

Limited, a government of India Undertaking in the Ministry of Water Resources, River

Development and Ganga Rejuvenation to obtain Environmental Clearance. The

approval of TOR has been accorded by the MoEF vide their letter no J-

11015/90/2008-IA.II(M) dated. 23-09-08.

The present document outlines the Rapid EIA Report for the Jakharda gypsum mine,

district Barmer.

1.3 OBJECTIVES OF THE EIA STUDY

The Environmental Impact Assessment (EIA) study is the process in which

environmental factors are integrated into project planning and decision making in a

way that is consistent with sustainable development.

The Environmental Impact Assessment (EIA) study is considered to include:

- Assessment of the environmental impacts of the development activity.

- Prediction of the changes in environmental quality, which could result as

direct and indirect consequences of that development activity.

- Delineation of an implementable plan for management and monitoring of

environmental quality as a result of the implementation of the project.

1.4 STAGES IN AN EIA STUDY

The purpose of this section is to enumerate various steps involved in conducting

Environmental Impact Assessment (EIA) Study for the Jakharda gypsum mine.

These are explained in the following paragraphs.

Scoping: An exhaustive list of all likely impacts drawing information from as many

sources as possible is prepared. The next step is to select a manageable number of


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attributes which are likely to be affected as a result of the proposed project. The

various criteria applied for selection of the important impacts are as follows:

- magnitude - extent - significance - special sensitivity. Before starting the study, an exhaustive list of all likely impacts was prepared to

ascertain the various aspects to be covered as a part of EIA study. The same is

enclosed as Table-1.2.

TABLE-1.2 Scoping matrix adopted for the study

Potential Negative Impacts covered in the study

Modification/loss of soil profile, vegetation.

Degradation of surface waters by soil erosion from disturbed areas, waste piles and stockpiles.

Contamination of surface waters and shallow groundwater wastes, (aquifers) by waste water from mine drainage, equipment servicing, and sanitary and domestic wastes.

Reduced reproduction and population of wildlife from habitat modification and loss.

Degradation/loss of vegetation (and soil productivity) from discharge of contaminated waters.

Contamination of surface areas with overburden and excavated gypsum.

Impacts on ambient air quality.

Degradation of air quality from routine operational (diesel) emissions.

Land-use conflicts.

Impacts on humans and wildlife by noise from equipment operation.

Increased demands on services and facilities in local communities, social and cultural conflicts, concern with community stability.

Conflicts with native cultures, traditions, and life-styles.

Impacts of cultural resources and historic sites

Wildlife loss through poaching.

Secondary population growth and related effects.

Baseline study: Before the start of the project, it is essential to ascertain the

baseline levels of appropriate environmental parameters which could be significantly

affected by the implementation of the project. The planning of baseline survey

emanated from shortlisting of impacts prepared during identification. The baseline


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study involved both field work and review of existing documents, which was

necessary for identification of data which may already have been collected for other

purposes.

Impact prediction: is essentially a process to forecast the future environmental

conditions of the project area that might be expected to occur as a result of the

operation of the mines. An attempt was made to forecast future environmental

conditions quantitatively to the extent possible. But for certain parameters which

cannot be quantified, qualitative assessment has been made so that planners and

decision-makers are aware of their existence as well as their possible implications.

Environmental Management Plan: The approach for formulation of an

Environmental Management Plan (EMP) was to maximize the positive environmental

impacts and minimize the negative ones. After selection of suitable environmental

mitigation measures, cost required for implementation of various management

measures was also estimated.

Environmental Monitoring Programme: An Environmental Monitoring Programme

has been suggested for implementation during mine operation phase to oversee the

environmental safeguards, to ascertain the agreement between prediction and reality

and to suggest remedial measures not foreseen during the planning stage but arising

during operation and to generate data for further use.

1.5 METHODOLOGY ADOPTED FOR THE EIA STUDY

The EIA study for Jakharda Gypsum mine has been conducted using both primary

as well as secondary data. A substantial amount of data was available with RSMML,

which was collected and utilized to the extent possible. The study area for the EIA

study has been taken as area within 10 km radius from the mine lease area. The


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study area is also called as Buffer zone. The mine lease area has been considered

as Core Zone in the EIA study.

Field studies for various aspects including water quality, soil, ambient air quality

noise levels, etc. were conducted by WAPCOS. RSMML also generated systematic

data on various aspects of the project for preparation of the Mine Plan. This data too

has been reviewed and appropriately utilized in the Environmental Impact

Assessment (EIA) Study. The following paragraphs outline the methodology adopted

for conducting the EIA study for Jakharda Gypsum Mine.

ENVIRONMENTAL BASELINE STUDY

The data on various aspects was collected to understand the environmental setting

of the proposed project site. The basic parameters for which data was collected and

the methodology adopted for data collection are discussed in the following

paragraphs.

Meteorology

The data was obtained for the meteorological station of IMD located near to the mine

site from the records as available with IMD.

Micro-Meteorology

A micro-meteorological station was set up at village Jakharda and the data on wind

speed, wind direction, temperature, relative humidity was collected for a period from

December 2013 to February 2014.

Soil Quality

As a part of the field studies, soil sampling was conducted by the Consultant at

various locations in mine lease area and the study area (buffer zone) in November

2008. A recent soil monitoring was conducted in December 2013. The parameters

analyzed are listed in Table-1.3.


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TABLE-1.3 List of Soil quality parameters analysed as a part of field studies

pH Sodium

Electrical Conductivity Sulphates

Chlorides Organic matter

Nitrogen Phosphorus

Potassium Magnesium

Gravel Manganese

Silt & Clay Texture

Bulk Density Calcium

Water Quality

Water quality sampling was done to ascertain the ground water and surface water

quality in the study area. As a part of the field studies water samples were collected

from appropriate locations within the study area (buffer zone) and physio-chemical

analysis was done. The parameters analysed are listed in Table 1.4. The samples

were collected from the study area (Buffer Zone) in the month of November 2008.

Water quality sampling at same locations was again conducted in the month of

December 2013.

TABLE-1.4 List of water quality parameters analysed as a part of the field studies

Alkalinity Biochemical Oxygen Demand (BOD)

Total Dissolved Solids (TDS) Chemical Oxygen Demand (COD)

Chlorides pH

Total Hardness Sulphates

Nitrates Fluorides

Magnesium Calcium

Copper Cadmium

Manganese Chromium

Phosphates Lead

Mineral Oil Iron

Oil & Grease Zinc

Turbidity Cyanides

Residual Free Chlorine Taste

Selenium Odour

Lead Phenolic compounds

Aluminum Mercury

Boron Anionic detergents

Arsenic Polynuclear Aromatic Hydrocarbon


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Ambient Air Quality

Ambient air quality was monitored at four locations in the study area during the

months from November 2008 to January 2009. The frequency of sampling was twice

a week for twelve consecutive weeks. The parameters monitored were RPM, SPM,

SO2 and NOx. Ambient air quality monitoring was also conducted again during the

period from December 2013 to February 2014. The parameters monitored were

PM10, PM2.5, SO2 and NO2.

Noise level

Ambient noise level was monitored at various locations in the study area (buffer

zone) to ascertain the pre-project noise level in the study area (buffer zone).

Monitoring was conducted in the month of November 2008. An additional study was

conducted for monitoring of ambient noise level in the month of December 2013.

Land use Pattern

The present land use pattern of study area has been studied through literature

review, collection of secondary data with respect to agriculture land, barren

stretches, pasture land, mines, forest and human settlements etc.

Terrestrial Ecology

Data on the forest types and their extent in the study area was collected from the

records as available at the local offices of the Forest Department. Occurrence of

floral and faunal species as available, in the study area was also collected.

PREDICTION OF IMPACTS

Prediction is essentially a process to forecast the future environmental conditions of

the project area that might be expected to occur because of implementation of the

project. Impact of project activities has been predicted using many techniques like

mathematical modelling, overlays/super-imposition of activity or comparison of


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impacts observed in similar type of projects elsewhere. The impacts have been

classified as below:

- Air environment - Noise - Water environment - Land environment - Ecology - Socio-economic environment.

ENVIRONMENTAL MANAGEMENT PLAN AND COST ESTIMATES

Based on the environmental baseline conditions and project inputs, the adverse

impacts were identified and a set of measures have been suggested as a part of

Environmental Management Plan (EMP) for their amelioration. The management

measures have been suggested for the following aspects:

- Compensation for families whose lands are to be acquired temporarily for a period of 3 to 4 months for gypsum mining

- Sewage treatment - Control of noise - Air pollution control - Greenbelt development - Socio-economic aspects

The expenditure required for implementation of various management measures

covered as a part of EMP was also estimated.

ENVIRONMENTAL MONITORING PROGRAMME

The Environmental Impact Assessment (EIA) Study is basically an evaluation of

future events. It is necessary to continue monitoring certain parameters identified as

critical by relevant authorities. This is to verify the adequacy of Environmental

Management Plan (EMP) and to anticipate any environmental problem so as to plan

and implement effective mitigative measures. An Environmental Monitoring

Programme for critical parameters has been suggested as a part of the EIA study,

which shall be implemented during mine operation phase. The equipment and their


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estimated costs necessary for the implementation of this programme have also been

indicated.

1.6 OUTLINE OF THE REPORT

The main sections of the Rapid EIA Report are as follows:

Chapter 2 Describes the project details including operational details, mining

techniques etc.

Chapter 3 Presents the baseline environmental setting of the study area, i.e. 10 km

zone around the mine lease area.

Chapter 4 Presents the findings of additional studies conducted during the period

from December 2013 to February 2014 baseline data for additional studies

conducted recently.

Chapter 5 Predicts the impacts likely to accrue on various facets of environment due

to the proposed mining project.

Chapter 6 Outlines the Environmental Management Plan (EMP) for amelioration of

adverse impacts

Chapter 7 Delineates the Environmental Monitoring Programme for monitoring of

critical parameters during mine operation phase.

Chapter 8 Summarizes the project benefits, improvements in physical and social

infrastructure, employment potential and tangible benefits due to mine operation.

Chapter 9 Outlines the Public hearing Proceedings

Chapter 10 The cost required for implementation of Environmental Management

Plan and Environmental Monitoring Programme is summarized in this Chapter.

Chapter 11 Outlines the summary and conclusions of the EIA study.

Chapter 12 Summarizes the information about the experts from the consultants side

engaged in the EIA study for Jakharda gypsum mine.

CHAPTER-2

PROJECT DESCRIPTION

RSMML EIA study for Jakharda Gypsum Mine, Barmer

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CHAPTER-2

PROJECT DETAILS

2.1 GENERAL

The part of the Jakharda gypsum mine lease falls under Barmer district (Tehsil

Gudamalani) and part of the area is under Jalore district (Tehsil Sanchore). The

mine can be approached by diversion on NH 15 near village Gandhav and also from

Ramji ka Gole located on NH 15. The nearest rail head is at Barmer.

2.2 MINING METHODOLOGY

Gypsum occurs as a sedimentary deposit and it is believed that most of the gypsum

deposits were formed by precipitation and evaporation from saline waters and theory

of deposition of gypsum bodies is generally accepted. The surface gypsum deposits

are of recent to sub-recent age. The gypsum deposits are covered under a thin layer

of desert sand in most of the area. At some places gypsum deposits outcrops on the

surface. .

The thickness of gypsum bed at Jakharda ranged from 0.70 to 2.50 m with an

average thickness of 1.34 m. The blown sand overlying gypsum bed forms the upper

layer of the entire area.

The general lithological succession of the area is as follows:

blown sand/alluvium

amorphous gypsum with intercalation of argillaceous material

sand.

The gypsum will be extracted by open cast mechanized mining method without any

drilling and blasting. The mining methodology is briefly described in the following

paragraphs.


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Overburden removal

The overburden comprises mainly of loose desertic sandy soil of average thickness

0.45 m and it can easily be removed or scraped by the use of tractor having an iron

scraper blade attachment. The length of blade is about 2.3 m with a height of about

0.60 to 0.75 m. It can easily be lowered and raised as per the requirement. During

the process of removal of overburden, operating blade of tractor is moved in forward

direction. The scrapped overburden is disposed off into the worked out area. The

time taken for removal of overburden depends upon the thickness of overburden and

degree of consolidation, extent of the area, H.P. of tractor used, skill of the operator,

location of the worked out area for refilling.

The tractor makes requisite number of passes and clears the area of overburden

exposing gypsum bed ready for extraction. There are many barren patches in the

from of earth pockets in the deposit. The earth/clay/silt pockets in the gypsum

bearing area would be isolated during the mining operations which shall be further

loosened and leveled with the help of tractor/scraper/plough attachment for making

the land suitable for cultivation. The reclamation activity will be taken up when the

working face advances up to a distance of about 10 m. Thus, reclamation is

proposed to be carried out simultaneously and land can be used by farmers of

cultivation purpose. In addition to removal of overburden, tractor is used for

preparation of mine roads, ramps and their maintenance.

Gypsum excavation

The extraction and loading of gypsum is proposed to be done by using hydraulic

back-hoe excavator of 0.9 m3 bucket capacity. It is powered by diesel engine having

135 HP. In the area chosen for mining, overburden is removed 10 m in advance for

exposing the gypsum bed. Hydraulic back-hoe excavates the gypsum while it stands


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on the top of gypsum bench cleared from overburden during machine operation. The

hydraulic excavator has adequate crawling and break out force to enable it to

excavate soft to medium hard rocks without any drilling and blasting.

It is proposed to continue mining operation at Jakharda gypsum mine by opencast

workings. The overburden comprising desert sand and mineralized bed being soft

and friable, no drilling and blasting is required for excavation.

2.3 GYPSUM RESERVES AND MINE LIFE

The details of reserves and mine life are given as below: - Total gypsum bearing area 42.2710 ha. - Geological reserves 9.89 MT - Mineable reserves 8.41 MT - Overall Wt. Av. Grade 81.69 % - Av. Thickness of OB 0.45 m - Av. Thickness of Gypsum 1.34 m - Volume of OB 1.34 cu.m. - Proposed rate of gypsum production 4.265 lac MT - Anticipated life of mine 2 Years

The tentative life of mine shall be about 2 years, considered with the view that the

actual availability of earth / sand pockets in lower side as compare to the estimation of

minable reserve of gypsum i.e. 85% of the geological reserve of gypsum at mines.

The life of mine was estimated about two years at the time of preparation and

approval of scheme of mining and TOR but thereafter the demand of low grade

gypsum up to 40% grade from mines is also envisaged. If customer procures such low

grade gypsum from mines in future then the life of mines could increase to about 5

years. Environmental clearance will then be for five years.

The mineable reserves may also increase once; exploration by pitting is undertaken

on commencement of mining operations in part of the area.


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2.4 PRODUCTION DETAILS

The annual production details are given in Table-2.1. The mine may be operated for

further three years subject to demand and sale of low grade gypsum.

TABLE-2.1 Details of year-wise gypsum production

Year Geological Reserve of Gypsum (MT)

Proposed Gypsum production (MT)

Total overburden handled (m3)

Broken Area (m2)

Area reclaimed (m2)

Post mining land use

I 487492 414368.42 116967.00 2,39,810 2,39,810 Agriculture to be done over reclaimed areas

II 501812 426540.63 75275.00 1,82,900 1,82,900

III to V

Subject to acceptance of low grade gypsum from mines by the customer, variation in annual demand from customer & variation in recovery of gypsum from geological reserve.

Total 989304 840909.05 192242.00 4,22,710 4,22,710

The conceptual plan at the end of the life of mine is enclosed as Figure-2.1.


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Figure-2.1: Conceptual plan at the end of the life of mine


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2.5 LAND REQUIREMENT

The total land proposed to be leased is 336.18 ha. The land ownership details are

given in Table-2.2.

TABLE-2.2 Land ownership details of area to be acquired

Ownership Status Area (ha)

Private (Agricultural land) 292.487

Government land 43.693

Total 336.18

2.6 SITE SERVICES

The following facilities/infrastructure are proposed to be developed at Jakharda

gypsum mine site:

First-aid station

Mine office

Rest Shelter

Urinals & WC

Water storage tank 2.7 EMPLOYMENT POTENTIAL

A total of about 10 persons are likely to get direct employment and about 40 would

get indirect employment as shovel operator, Attendants, truck drivers, khalasi etc.

Most of the labour would come from nearby areas and no colony is proposed as a

part of the mine development.

2.8 MINERAL BENEFICIATION

As the sub grade mineral gypsum is saleable after blending with high grade mineral

in its ROM form, no benefication is required. The excavated gypsum may also stock

in case of customers demanded for quality checking prior to dispatches it from mines

or they demanded gypsum in powder. The gypsum powder will be produced at

mines if required, by setting up temporary movable grinding units. The gypsum may


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also be stocked before it is dispatched in case it is wet. In such a scenario, the wet

gypsum will be dried in natural sunlight prior to dispatch to the consumers.

CHAPTER-3

ENVIRONMENTAL BASELINE

STATUS


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CHAPTER-3

ENVIRONMENTAL BASELINE STATUS

3.1 SCOPE OF THE CHAPTER

The assessment of pre-project environmental status is essential to determine the

environmental parameters which could be significantly affected due to the proposed

project. The planning of baseline survey study emanated from shortlisting of impacts.

This process is known as Scoping. The baseline study requires both field work and

review of existing documents, which is necessary for identification of data which may

already have been collected for other purposes.

The present Chapter deals with the information about the baseline data collected

and information obtained from existing documents/publications pertaining to the

study area. The study area for the EIA study has been taken as area within 10 km

boundary from the mine lease area. The same is also considered as Buffer Zone.

The study area is also called as Buffer zone. The mine lease area has been

considered as Core Zone in the EIA study. The mine lease area (Core Zone) and

Study area (Buffer Zone) are shown in Figure-3.1.

The data presented in this chapter is based on primary and secondary data sources.

The primary data presented in this chapter was collected in period fron November

2008 to January 2009. Additional field studies were also conducted in the months of

December to 2013 to February 2014 and their findings are given in Chapter-4 of the

Report.


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Figure-3.1: Mine lease area (Core Zone) and Study area (Buffer Zone)

3.2 GENERAL INFORMATION

Barmer is a district of Rajasthan state, India. Balotra, Guda Malani, Baytu, Siwana ,

Jasol and Chohatan are other major towns. Barmer district is situated in the western

part of Rajasthan and forms part of the Thar desert. It is surrounded by Jaisalmer in

http://en.wikipedia.org/wiki/Rajasthan

http://en.wikipedia.org/wiki/States_and_territories_of_India

http://en.wikipedia.org/wiki/India

http://en.wikipedia.org/wiki/Balotra

http://en.wikipedia.org/w/index.php?title=Guda_Malani&action=edit&redlink=1

http://en.wikipedia.org/w/index.php?title=Baytu&action=edit&redlink=1

http://en.wikipedia.org/wiki/Siwana

http://en.wikipedia.org/wiki/Jasol

http://en.wikipedia.org/w/index.php?title=Chohatan&action=edit&redlink=1


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the north, Jalore in the south, Pali and Jodhpur in the east and Pakistan in the west.

The total area of the district is 28,387sq.km. While the population is 19,63,758 (as

per 2011 Census).

3.3 CLIMATE

The project area generally has a dry climate with large variations in temperature and

scanty rainfall. The climate of district Barmer can be divided into four distinct

seasons. The winter season lasts from November to March which is followed by

summer season from April to June. The monsoons begin in July and end by mid-

September. The period from mid-September to October is the post-monsoon season

or the retreating monsoon season.

Rainfall : The average rainfall in the project area is 259.6 mm. About 91% of annual

rainfall is received under the influence of south-west monsoons from July to

September. On an average, there are fourteen rainy days in a year i.e. days with

rainfall of more than 2.5 mm/day. The monthwise rainfall received in the project area

district is given in Figure-3.2

Figure-3.2: Monthwise Variation of Rainfall in Project Area


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Temperature: The temperature rises rapidly after March. The month of May is the

hottest month of the year with mean daily maximum temperature being 42oC and the

mean daily minimum temperature being 26.7oC. The summer months are extremely

hot with scorching dust laden winds and day temperatures going as high as 49oC.

The temperature drops with the advent of south-west monsoons by mid-July. The

withdrawal of monsoons in the latter half of September leads to a slight increase in

the day temperature but there is a decrease in the night temperature. From

November, there is a sudden decrease in both day and night temperatures. The

month of January is the coldest month of the year with mean daily minimum and

maximum temperatures being 10.1oC and 24.7oC respectively. The month-wise

temperature variations in project area district are shown in Figure 3.3.

Figure-3.3: Month wise Variation in Temperature in Project Area

Humidity : The humidity in the air is generally low throughout the year except

during the rainy season. The summer months are the driest with relative humidity


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being as low as 24% to 27% at 17:30 hrs. The month-wise variations in humidity in

the project area district are depicted in Figure 3.4.

Figure-3.4: Month wise Variation in Humidity in Study Area

Wind : Wind speed is generally moderate throughout the year except during the post

monsoon and winter seasons. From May to September, the pre-dominant wind

direction is from south-west. In October, wind direction is variable, although

easterlies and south-easterlies are less common. In the months of November and

December, wind blows from directions between north-west and north-east. From

February to April, southerlies and south-westerlies also begin to appear and become

established as the season advances.

Special weather phenomena : The depressions originating in Bay of Bengal during

the south-west monsoons, move in westerly direction and reach the project area

district and cause widespread rains. Occasionally, storms of depression occur in the

post-monsoon season. Thunderstorms occur during the south-west monsoons. On

few days in winter months, fog also occurs as a result of western disturbances.


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The monthly data on various meteorological parameters and special weather

phenomena in the project area district is summarised in Tables-3.1 and 3.2

respectively.

TABLE-3.1 Average meteorological conditions in the project area district

Month Temperature (oC) Rainfall (mm)

No. of rainy days

Relative humidity (%)

Wind velocity (km/hr) Maximum Minimum At 8.30 At 17.30

January 24.7 10.1 2.8 0.2 52 31 7.4

February 27.9 12.9 2.8 0.4 52 8 7.6

March 33.4 18.2 3.1 0.3 48 26 9.0

April 38.8 23.9 1.5 0.2 49 24 10.0

May 41.8 26.7 9.1 0.7 61 27 12.1

June 40.1 27.1 17.3 1.0 69 26 13.5

July 35.9 26.1 92.5 4.2 77 50 11.7

August 33.5 24.9 112.5 4.6 81 52 10.1

September

35.3 24.3 31.5 2.0 73 46 9.2

October 36.6 21.4 2.8 0.2 54 29 7.2

November 32.2 15.7 0.5 0.1 46 28 5.3

December 26.7 11.7 2.0 0.2 51 31 6.3 Average 33.9 20.3 59 35 9.1

Total 259.6 14.1

Source : IMD

TABLE-3.2 Special weather phenomena in the project area district

Month No. of days with

Thunder Hail Dust storm Squall Fog

January 0.1 0.1 0.0 0.0 0.0

February 0.3 0.0 0.0 0.2 0.0

March 0.3 0.1 0.1 0.2 0.0

April 1.3 0.0 0.1 0.0 0.0

May 0.7 0.0 0.4 0.0 0.0

June 1.2 0.0 1.0 0.1 0.0

July 2.0 0.0 0.8 0.1 0.1

August 1.8 0.0 0.4 0.0 0.0

September 1.8 0.1 0.1 0.0 0.0

October 0.7 0.0 0.0 0.0 0.0

November 0.1 0.0 0.0 0.0 0.0

December 0.1 0.0 0.0 0.0 0.2

Total 10.4 0.3 3.8 0.6 0.3 Source : IMD


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3.4 TOPOGRAPHY

The existing mine lease area is almost flat terrain, with minor undulations. Higher

elevations are observed in the south-eastern, central and north-western parts of the

area separated by low lying flat area. The altitude in the mine lease area ranges from

208 to 235 m. Sand dunes are observed on the eastern side of lease area.

3.5 GEOLOGY

Statigraphic succession of the rock formation in Barmer district is given in Table 3.3.

TABLE- 3.3 Statigraphic summeries of rock formation in Barmer district

-------------------------------------------------------------------------------------------------------------------------------------- Age Formation Details of litho-units --------------------------------------- After GSI After ONGC -------------------------------------------------------------------------------------------------------------------------------------- Recent and sub-recent Blown sand Blown sand Blown sand with Gypsite and Kankar ----------------- Un conformity -------------------------- Post Pliocene Kapurdi Kapurdi Fuller’s earth, clays, etc. (30 m) Mio-pliocene Mandi Mata ji ki Dhani Sand stone, Ball clay, (180 m) Conglomerates, etc. Eocene Akli Akli (280m) Bentonites,

Sandstones, Clay & Lignite Cretaceous Barmer Barmer (80 m) Sandstone, Yellow clays silt stone Fatehgarh Fatehgarh Sandstone, Ochreous clays, conglomerates, Bentonites, etc. ----------------- Unconformity --------------------------

Lower Sornumill (80 m) Sandstone with fossil Jurrasics wood, clay Middle Lathi Jaisalmer Sandstone, Limestone, Jurrasics Marl, Conglomerates Pre-Cambarian Malani Suite - Rhyolites, felsites,

granites with acid and basic dykes

--------------------------------------------------------------------------------------------------------------------------------------


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Local Geology

The geological sequence of the mine lease area according to the GSI is given in

Table 3.4

TABLE-3.4 Geological sequence of the mine lease area

1. Blown sand

2. Gypsite/ Gypsum Recent to sub recent

3. Gravel sand /kankar

4. Rhyolite Malani Igneous suites – Super Vindhyan Group

3.6 SEISMICITY

The project area district is situated in a more or less stable area, where no major

earthquakes have occurred in past. As per the seismic zoning map of India (IS

1893:2002), district Barmer lies within Zone-III. The district experiences the fringe

effects of great disturbance shocks originating in the Great Himalayan Boundary

zone, the Suleman range or the Rann of Kutchch. There is no record of earthquake

having caused damage to the structure in the project area district.

3.7 SOILS

The soils in the project area are more or less sandy in texture, covered with loose

sand, hummocks and sand dunes. The soils are brown to pale brown in colour, fine

sand to loamy fine sand in texture. Due to scarcity of rains, vegetal cover on the

surface and organic matter in the soils is liable to wind erosion.

As a part of the EIA study, Consultant had collected soil samples in the study area in

November 2008. The results are summarized in Tables-3.5. The location of soil

sampling stations is given in Figure-3.5


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Figure-3.5:Sampling Location map


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TABLE-3.5 Soil quality in the study area

Parameter Mine lease area

Purawa village

Pratapnagar village

Akali village

pH 8.74 7.91 8.65 8.80

EC, mhos/cm 189.30 550 188.40 125.50

Sodium, g/g 162.49 7648.09 246.35 118.99

Potassium, g/g 1009.95 704.82 964.42 714.93

Calcium, g/g 10495.50 34091.70 7595.20 2254.75

Magnesium, g/g 2443.48 3314.17 1823.90 1479.86

Manganese, g/g 597.97 245.44 105.94 46.90

Phosphorus, g/g 344.48 255.94 323.81 148.49

Organic matter, (% by wt.) 0.05 0.70 0.21 0.04

Gravel (%) 3 2 2 3

Sand (%) 89 87 85 88

Silt & Clay (%) 12 11 13 9

Texture Sandy Sandy Sandy Sandy

Bulk density 1.6 1.6 1.8 1.9

The soils in the project area are predominantly coarse textured covered with loose

sand, hummocks and dunes. The soils are brown to pale brown in colour, fine sand

to loamy fine sand in texture and very deep. The surface is intensively covered with

dunes of 20 to 30 m height and inter-dunes have loose sand and hummocks. In the

inter-dunal areas, sub soil is loamy fine sand, brown, lightly calcareous and have

weak, sub-angular blocking structure. The clay and silt content ranges from 3 to 5%.

The organic content is low. Due to scarcity of rains, vegetative cover on the surface

and organic matter in the soils is liable to wind erosion as moisture retention capacity

is nil.

3.8 WATER ENVIRONMENT

The major source of water in the study area (Buffer Zone) is the canal water. Thus,

groundwater use is quite less in the area. The Consultant has collected water

samples from various locations in the Study Area (Buffer Zone) which were analysed


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and the results are summarized in Table-3.6. The sampling sites are plotted on

Figure-3.5. The drinking water quality standards are enclosed as Annexure-I

TABLE-3.6

Water Quality in the Study Area (Buffer zone)

Parameter Unit Canal water village Jakharda

Canal water village Pratapnagar

Well in village Purwa

Well in village Akali

pH 7.3 7.9 7.7 8.1

Taste - Agreeable Agreeable Saline Saline

Odour - Unobjectionable

Unobjectionable

Unobjectionable

Unobjectionable

Turbidity NTU 1.5 1.3 - -

Total Hardness as CaCO3

mg/l 84 89 1050 1080

Iron as Fe mg/l 0.21 0.25 0.38 0.50

Chlorides as Cl mg/l 30 35 435 420

Residual Free chlorine

mg/l Nil Nil Nil Nil

Total Dissolved Solids mg/l 251 245 6020 5730

Calcium as Ca mg/l 27.2 29.4 185 175

Magnesium as Mg mg/l 5.4 5.7 131 137

Manganese as Mn mg/l 0.014 0.011 0.020 0.018

Sulphates as SO4 mg/l 15 20 107 105

Nitrate as NO3 mg/l 5.2 6.3 81 85

Fluorides as F mg/l 0.2 0.09 1.3 1.5

Phenolic compounds mg/l ND ND ND ND

Mercury as Hg mg/l ND ND ND ND

Cadmium as Cd mg/l ND ND ND ND

Selenium as Se mg/l ND ND ND ND

Arsenic as As mg/l ND ND ND ND

Lead as Pb mg/l ND ND ND ND

Zinc as Zn mg/l <0.01 <0.01 ND ND

Copper mg/l <0.01 <0.01 <0.01 <0.01

Cyanides as CN mg/l ND ND ND ND

Anionic detergents as MBAS

mg/l ND ND ND ND

Chromium as Cr+6 mg/l ND ND ND ND

Polynuclear aromatic hydrocarbon as PAH

mg/l ND ND ND ND

Mineral Oil mg/l ND ND ND ND

Boron as B mg/l ND ND ND ND

Phosphates mg/l 1.2 1.1 2.6 2.2

BOD, 3 days at 27oC mg/l 3.0 3.1 2.7 2.4


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Parameter Unit Canal water village Jakharda

Canal water village Pratapnagar



COD mg/l 11 13 16 18

Oil & Grease mg/l ND ND ND ND ND = Not Detectable

The water in the area is slightly alkaline as the pH varies from 7.3 to 8.1. Hardness

level is higher than cause for rejection limit in ground water, but is well within the

permissible limits for canal water. The TDS levels too was higher than the

permissible limit (500 mg/l) in canal water but were well above the cause for rejection

limit(1500mg/l) in ground water. Similar trends were observed for various cations

and anions. It can be concluded that ground water in the study area is unsuitable for

meeting domestic or irrigation water requirements.

The concentration of heavy metals was well below the detectable limits indicating the

absence of chemical pollution source. The concentration of other parameters, e.g.

mineral oil, pesticides, PAH, oil & grease etc., was below the detectable limit. This is

expected in an area with no major source of chemical pollution

3.9 AIR ENVIRONMENT

As a part of EIA study a comprehensive ambient air quality monitoring programme

was designed. The sampling stations were fixed considering the meteorological

conditions. As a part of the present EIA study, ambient air quality was monitored at

the following locations in the months from November 2008 to January 2009.

- Akli - Pratapnagar - Purava - Mine site The various ambient air quality monitoring stations are shown in Figure-3.5. The

prime objective of the ambient air quality monitoring was to assess the existing level

of air pollutant in the study area. The parameters monitored were RPM, SPM, SO2


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and NOx. These were monitored at each station and 24 hourly samples per day

were collected. The frequency of monitoring for each station was 2 days a week for

twelve consecutive weeks. The results are summarized in Table-3.7. The ambient air

quality standards are given in Annexure-II.

TABLE-3.7 Ambient air quality monitoring stations in the study area (buffer zone) (Unit:

g/m3)

Station NOX SO2 RPM SPM

Akli

03.11.08 13.5 10.4 81 210

04.11.08 13.1 13.2 84 202

10.11.08 14.5 11.8 78 192

11.11.08 14.2 11.1 87 178

17.11.08 12.8 11.7 93 187

18.11.08 13.2 12.3 91 201

24.11.08 14.3 11.9 82 205

25.11.08 16.1 12.5 85 187

01.12.08 12.8 12.4 93 183

02.12.08 12.9 10.9 85 194

08.12.08 12.6 13.4 87 205

09.12.08 12.1 12.4 80 197

15.12.08 11.9 13 78 202

16.12.08 12.1 11.2 85 194

22.12.08 17.4 9.8 73 182

23.12.08 16.2 11.2 90 162

01.01.09 13.9 11.8 87 193

02.01.09 11.7 12.1 82 200

05.01.09 12.1 12.7 88 220

06.01.09 10.9 7.2 77 206

12.01.09 11.1 14.2 80 194

13.01.09 12.8 13.8 87 172

19.01.09 13.5 13.1 79 195

20.01.09 12.7 10.2 75 182 Pratapnagar

05.11.08 12.2 10.5 82 188

06.11.08 10.5 10.7 89 214

12.11.08 11.1 10.2 100 249

13.11.08 11.8 11.4 101 250

19.11.08 11.5 8.9 91 215

20.11.08 13.4 8.9 94 241

26.11.08 14.2 7.2 89 211

27.11.08 14.4 9.2 85 201

03.12.08 10.2 8.2 94 223

04.12.08 8.8 9.3 94 222

10.12.08 11.4 10.3 90 211


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11.12.08 11.7 9.7 86 204

17.12.08 15.4 12.1 100 248

18.12.08 14.9 11.2 93 219

24.12.08 11.2 9.7 75 182

25.12.08 11.8 12.2 92 218

03.01.09 13.1 9.8 89 210

04.01.09 12.9 10.2 85 284

07.01.09 11.2 9.2 85 183

08.01.09 12.4 7.8 91 223

14.01.09 12.9 11.8 103 251

15.01.09 11.1 12.4 91 216

21.01.09 11.7 13.1 98 231

22.01.09 11.4 8.1 83 211 Purava

03.11.08 12.8 12.2 82 198

04.11.08 11.7 11.9 87 214

10.11.08 12.3 10.8 76 245

11.11.08 13.4 12.8 79 244

17.11.08 11.8 13.3 85 215

18.11.08 11.4 12 88 249

24.11.08 12.8 11.6 90 211

25.11.08 12.7 11.4 83 201

01.12.08 11.5 12.6 79 223

02.12.08 14.6 13.2 91 222

08.12.08 16.3 14.7 87 211

09.12.08 13.7 15.2 89 204

15.12.08 12.6 14.6 93 242

16.12.08 13.2 12.2 99 219

22.12.08 15.8 15.7 106 182

23.12.08 14.1 11.7 97 218

01.01.09 13.3 13.2 88 210

02.01.09 12.4 14.8 85 218

05.01.09 11.3 11.6 96 183

06.01.09 11.9 16.6 79 223

12.01.09 14.5 11.5 75 244

13.01.09 12.9 13.9 82 216

19.01.09 17.8 10.8 93 232

20.01.09 13.8 13.2 90 211

Mine Site

05.11.08 13 12.2 79 234

06.11.08 11.6 9.5 82 203

12.11.08 14.1 12.6 87 223

13.11.08 11.7 13.9 78 242

19.11.08 11.6 8.2 86 225

20.11.08 12.2 7.9 91 237

26.11.08 15.7 12.2 103 216

27.11.08 12.7 11.5 95 202


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03.12.08 12.3 13.2 85 218

04.12.08 12.7 10.3 89 189

10.12.08 13.9 11.6 92 179

11.12.08 12.7 12.2 96 184

17.12.08 11.9 12.8 110 235

18.12.08 12.6 11.8 104 263

24.12.08 11.9 12 98 256

25.12.08 14.6 9.2 89 248

03.01.09 11.4 14.3 80 239

04.01.09 11.2 15.2 76 233

07.01.09 11.8 13.2 84 184

08.01.09 13.5 12.8 88 195

14.01.09 12.3 15.7 104 204

15.01.09 12.6 14.7 82 209

21.01.09 14.4 14.2 86 236

22.01.09 12.6 10.8 93 247

Observations on Ambient SPM Levels

The summary of ambient SPM concentrations at the four monitoring stations is given

in Table-3.8. The highest average SPM concentration was observed as 284 g/m3 at

the Pratapnagar. The highest average SPM value of 221g/m3 was also observed at

the same station. The average SPM at four stations ranged from 193.5 to 221.0

g/m3 .

TABLE-3.8

Ambient Air Quality Status- SPM (Unit : g/m3)

Station Maximum Minimum Average

Akli 220.0 162.0 193.5

Pratapnagar 284.0 182.0 221.0

Purava 249.0 182.0 218.1

Mine site 263.0 179.0 220.9

Observations on Ambient RPM levels

The summary of ambient RPM concentrations observed at the four monitoring

stations is summarized in Table-3.9. The highest RPM value of 110 g/m3 was

observed at station at Mine site. The average RPM level ranged from 83.6 to 90.8


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g/m3. The RPM level was higher than the permissible limit of 100 g/m3 specified

for Industrial, Residential, Rural and Other areas.

TABLE-3.9

Ambient Air Quality Station – RPM (Unit : g/m3)


Akli 93.0 73.0 83.6

Pratapnagar 103.0 75.0 90.8

Purava 106.0 75.0 87.5

Mine site 110.0 76.0 89.9

Observations on Ambient SO2 level

The summary of ambient SO2 level is given in Table-3.9. The maximum SO2 level of

16.6 g/m3 was observed at station in village Purava. Likewise, the maximum

average concentration of SO2 monitored in the study area was 13.0 g/m3 which was

observed at station at Purava (Refer Table-3.10). Even the maximum SO2 level

observed at various stations were below the permissible limit of 80 g/m3 specified

for Industrial, Residential, Rural and Other areas.

TABLE-3.10

Ambient Air Quality Status SO2 level (Unit: g/m3)


Akli 14.2 7.2 11.8


Purava 16.6 10.8 13.0

Mine site 15.7 7.9 12.2

Observations on Ambient NOx Levels

The summary of ambient NOx level is given in Table-3.10. The average NOx levels

ranged from 12.1 to 13.3 g/m3. The maximum NOx level observed during the

survey was 17.4 g/m3, which is also well below the permissible limit 80 g/m3

specified for Industrial, Residential, Rural and Other areas.


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TABLE-3.11

Ambient Air Quality Status NOx levels (Unit: g/m3)


Akli 17.4 10.9 13.3


Purava 17.8 11.3 13.3

Mine site 15.7 11.2 12.7

3.10 NOISE ENVIRONMENT

Noise, unlike other components of environment, is not an element, compound or

substance which can accumulate to cause harm, but it is a special kind of wave

action usually transmitted by air in the form of pressure waves and received by the

sensors in the receptors. Noise is a sound which is composed of many frequency

components of various loudness distributed over the audible frequency range. In

general A-weighted decibel scale has been designed to weight the various

components of noise according to the response of the human ear. In dB(A) scale,

noise with pre-dominant middle frequencies is given a much higher loudness value

than the noise which is pre-dominantly low or high frequency in nature.

Sound waves are refracted by wind and temperature gradients in the atmosphere

and are scattered by turbulence. Since, constant atmospheric conditions cannot be

counted upon to provide protection to a noise sensitive area from a noise source, the

excess attenuation due to these factors is usually assumed to be zero in

environmental noise assessment.

Ambient Noise Level

Baseline noise data has been measured using A-weighted sound pressure level

meter. The survey was carried out in calm surroundings. Sound Pressure Level

(SPL) measurement in the outside environment was made using sound pressure

level meter. The ambient noise levels in the study area (buffer zone) were measured

using a weighted sound pressure level meter in December 2008. The noise level


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survey was carried out in the calm surroundings. The equivalent noise stations as

monitored at various locations in the study area is summarized in Table-3.12. The

ambient noise standards are summarized in Annexure-III. The equivalent noise

levels as observed in the study area (buffer zone) during day and night times were

within the permissible limit of specified for residential and rural areas.

TABLE-3.12 Equivalent noise standards in the study area

Location of sampling station Equivalent noise level (dB(A))

Day Time Night Time

A. Core Zone

Mine Site

39

31

B. Buffer Zone

Akli Pratapnagar Purava Dhol Nadi Daboi Khotawas

37 36 37 39 35 36

34 31 32 34 32 31

3.11 LANDUSE

The landuse pattern data for the Study Area (Buffer Zone) has been studied from

various sources such as toposheets, census book, and interaction with Tehsil and

Panchayat offices.

The landuse pattern of the Study Area (Buffer Zone) for the proposed mine is

summarized in Table-3.13 (Refer Figure-3.6).

TABLE-3.13 Landuse pattern of the study area (Buffer zone)

S. No.

Landuse category Area (ha) Percentage (%)

1. Forest 434.76 1.39

2. Agricultural land (Irrigated) 6009.19 19.17

3. Agricultural land (Non-Irrigated) 21839.74 69.68

4. Culturable waste land 2057.68 6.56

5. Area under houses, roads, water bodies, etc. 1003.68 3.20

Total 31345.05 100 Note : Figures in brackets indicate percentage


WAPCOS Limited 3-19

The major landuse category in the study area (buffer zone) is Agricultural land waste

land accounting for about 89% of the study area (buffer zone). The total Culturable

waste land accounts for about 6.56% of the study area (buffer zone). The area not

available for cultivation is 3.2%. This category includes house sites, roads, water

bodies, nallahs, hillocks, etc. The forest area is negligible (1.39%).

Figure-3.6: Land Use Pattern of the Study Area

3.12 FLORA

The vegetation of the study area (buffer zone) of the proposed mine falls under the

broad division of tropical thorn forest. Various factors such low rainfall, high

temperature, evaporation and soil moisture loss are responsible for converting it into

a typical arid tract.

Flora of buffer zone (Study Area)

The mine lease is within the study area, distinct variation in the vegetation observed

on the irrigated and non irrigated regions. The major floral species found in the

irrigated area are Ber (Zizyphus jujaba and Z. nummularia), Kair (Cappara aphylla),


WAPCOS Limited 3-20

Khejri (Prosopis cineraria), Rohira (Tecomella undulata) . On the other hand, the

vegetation in the non-irrigated areas such as sand dunes and alluvium soils are

sparse and Xerophytic in nature. The major species found are Phog (Calligonum

polygnoides), Bui (Aerva tomentosa), Ak (Calotropis procera), Bawli (Acacia

jacquemonti), Khimp (Leptadenia spastium), etc.

In patches, where the soil is deep sandy loam, Prosopis cineraria (Khejri), Tecomella

undulata (Rohira) in association with Zizyphus jujuba (Ber) and Zizyphus nummularia

(Ber) and Capparis aphylla (Khair) are commonly found.

The other important floral species commonly found in the area are Ak (Calotropis

procera), Neem (Azdirachta indica), Kikar (Acacia arabica), and Thal (Salvadora

oleoides), etc. Among the scrubs, the most common is Phog (Calligonum

polygonoides).

The general floral species found in the Buffer Zone (Study Area) is listed in Table-

3.14.

TABLE-3.14 Common floral species found in the Buffer Zone (study area)

Local Name Botanical Name

Trees

Khejri Prosopis spicigera

Rohira Tecomella undulata

Vilayaty Kikar Prosopis july flora

Neem Azadirachta indica

Babul Acacia arabica

Moonj Saccharum munja

Ber Zizyphus jujuba

Z. nummularia Shrubs

Bhoo Bawli Acacia acquemontii

Kumat A. Senegal

Bui Aerbea tomentosa

Phog Calliganum polygnoides

Ak Calotropis procera

Kair Capparis aphylla

Khair Acacia catechu

Goondi Cordia rothii


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Kankero Maytenus emarginatus

Khimp Leptadenia sparitum

Jal-pilu Salvadora oleoides

Farash Tamarix ariculata

Asgand Withania somnifera

Grasses

Lampla Aristida sp.

Bharut Cenchrus cathariticus

Dhaman C. ciliaris

Modia Dhaman C. setigirus

Ganthil Dactyloctenium scindicum

Dab Desmostachya bipinnata

Nara Elensine flagllifera

Servan Lasirus sindicus

Ghancod Panium antidotale

Murat P. turgidium

Kans Saccharum spontaneum

Flora of mine lease area (core zone) The mine lease area is barren, with few bushes and scrubs. Isolated trees of Khejri,

Babul and Ber. Amongst shrubs, Bui and Phog are observed. The common floral

species found in mine lease area or Core Zone is given in Table-3.15.

TABLE-3.15 Common floral species found in the mine lease area (core zone)


Trees

Vilayaty Kikar Prosopis july flora

Neem Azadirachta indica

Khejri Prosopis spicigera

Babul Acacia arabica

Ber Zizyphus jujuba

Shrubs

Bui Aerbea tomentosa

Phog Calliganum polygnoides Grasses

Bharut Cenchrus cathariticus

Dhaman C. ciliaris

Ganthil Dactyloctenium scindicum


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3.13 FAUNA

Fauna of the Buffer Zone (Study Area)

The Study Area does not have any major forest and in general wildlife is not

observed. The fauna found in the area are given in Table-3.16.

TABLE-3.16 Common faunal species reported in the Buffer Zone (Study Area)

English Name Zoological Name Schedule as per Wildlife Protection Act

Mammals

Black buck antelope Antelope cervicapara -

Fox Valpes bengalensis SCHEDULE II

Jackal Canis aureus SCHEDULE II

Mangoose Herpestes edwardsi -

Stripped squirrel Funambulus pennati -

Wild boar Sus indicus - Reptiles -

Cobra Naja naja SCHEDULE II

Krait Bengarus fasciatus SCHEDULE IV

Viper Vipera russelli SCHEDULE II

Birds

House crow Corvus splendens -

Jungle crow Corvus macrorhyreous -

Scavanger vulture Neophron percanopterus -

King vulture Sacrogypus calvus -

King crow Coorvus macrorhynchas culminates

-

White checked Bulbul Molpaster bengalensis -

Red vented Bulbul Labivanellus indicus -

House sparrow Passer domesticus -

Owl Tyto alba -

Kite Milvus migrans -

Rock pigeon Columbia livia -

Sand grouse Pterocles exustus SCHEDULE IV

Grey partridge Francolinus pondicerianus -

Imperial sand grous Pterocles orientalis -

Duck Tadarna tadarna -

Snipe common Capilla gallingo SCHEDULE IV

Grey shrike Lanius excubitar -

Grey Dove Striptopllia senegalensis -


WAPCOS Limited 3-23

Fauna of mine lease area (Core Zone)

As a result of absence of vegetal cover, forests, etc. no major faunal species are

reported in the lease area. The list of commonly found faunal species in the mine

lease area (Core Zone) is area is given in Tables-3.17.

TABLE-3.17 Major faunal species found in the mine lease area (Core Zone)

English Name Zoological Name Schedule as per Wildlife Protection Act

MAMMALS

Jackal Canis aureus SCHEDULE II

Fox Vulpes pusilla SCHEDULE II

REPTILES

Viper Vipera russelli SCHEDULE II

Cobra Naja naja SCHEDULE II

Krait Bengarus fasciatus SCHEDULE IV BIRDS

Bulbul Molpastes leucotis -

Vulture Psendogyps bengalensis -

Sparrow Passer domesticus -

House crow Corvus splendens -

3.14 SOCIO-ECONOMICS SOCIO-ECONOMIC PROFILE OF THE STUDY AREA

The study area comprises of 26 villages, spread over in two tehsils and two districts,

namely Sanchore (Jalor) and Gudha Malani (Barmer). There are 7 villages in tehsil

Sanchore, district Jalor and 19 villages in tehsil Gudha Malani, district Barmer. The

baseline setting for socio-economic aspects are outlined in the following sub-

sections of the present Chapter.

Demographic profile in study area villages

The total population in the study area villages is 30,373 residing in 5315 households.

The percentage of male and female population is 52.28% and 47.72% respectively.

The overall average sex ratio in the study area is 913 females per 1000 males. The

population below the age of 6 years (or infant population) accounted for about


WAPCOS Limited 3-24

18.71% of the total population. The average family size in the study area villages is 6

persons per household. The village-wise demographic details in the study area

villages Study Area Villages are shown in Table 3.18.

TABLE – 3.18 Demographic Profile in Study Area Villages

Sr.No Name of the Village Tota

l H

ou

seh

old

Tota

l P

op

ula

tio

n

Tota

l Mal

e

Tota

l Fe

mal

e

Po

pu

lati

on

<6

yea

rs

Ave

rage

Fam

ily S

ize

Sex

Ra

tio

District Jalor, Subdistrict Sanchore

1 Sensawa 427 2760 1467 1293 566 6 881

2 Agrawa 467 2524 1325 1199 515 5 905

3 Sunta Koi 321 1799 956 843 349 6 882

4 Kundaki 126 695 342 353 106 6 1032

5 Meghawa 500 2208 1143 1065 403 4 932

6 Veerawa 616 3353 1733 1620 539 5 935

7 Hali Bao 347 1930 1006 924 306 6 918

Sub Total 2804 15269 7972 7297 2784 5 915

District Barmer, Subdistrict Gudha Malani

1 Pratapnagar 103 629 333 296 114 6 889

2 Manki 100 616 317 299 96 6 943

3 Megwalon Ki Basti 149 846 431 415 184 6 963

4 Rampura 113 695 382 313 143 6 819

5 Purawa 199 1039 552 487 208 5 882

6 Godaron Ki Beri 109 706 365 341 147 6 934

7 Aaleti 109 698 364 334 139 6 918

8 Siyago Ki Beri 106 617 318 299 125 6 940

9 Jhakarra 76 439 213 226 75 6 1061

10 Dholi Nadi 154 900 457 443 172 6 969

11 Shivji Ka Mandir 65 413 217 196 69 6 903

12 Daboi 136 774 387 387 150 6 1000

13 Panal Ki Beri 130 806 450 356 154 6 791

14 Aakli 149 820 440 380 186 6 864

15 Khotawas 191 1144 599 545 180 6 910

16 Arniyali 261 1615 873 742 292 6 850

17 Ramji Ka Golphanta 160 1029 510 519 178 6 1018

18 Ramji Ka Gol 95 620 337 283 153 7 840

19 Panawali 106 698 361 337 133 7 934

Sub Total 2511 15104 7906 7198 2898 6 910

Total 5315 30373 15878 14495 5682 6 913 Source: Primary Census Abstract, 2011


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Caste profile in Study Area villages The village-wise details of the caste profile in the Study Area Villages are

summarized in Table – 3.19. The General Castes (GC) population, which is the

dominant caste groups, constitutes about 81.33% of the total population. Population

belonging to the Scheduled caste category comprises of about 14.89% of the total

population in the study area. The Scheduled Tribe population is observed to be

present, though in minuscule numbers, accounting for about 3.78% of the total

population in the study area.

TABLE – 3.19 Caste Profile in Study Area Villages


l P

op

ula

tio

n

Po

pu

lati

on

Sch

ed

ule

C

aste

Po

pu

lati

on

Sch

ed

ule

Tr

ibe

Po

pu

lati

on

G

en

era

l Cas

te


1 Sensawa 2760 436 123 2201

2 Agrawa 2524 1058 106 1360

3 Sunta Koi 1799 330 210 1259

4 Kundaki 695 59 0 636

5 Meghawa 2208 237 14 1957

6 Veerawa 3353 810 0 2543

7 Hali Bao 1930 47 13 1870

Sub Total 15269 2977 466 11826


1 Pratapnagar 629 67 0 562

2 Manki 616 0 0 616

3 Megwalon Ki Basti 846 445 110 291

4 Rampura 695 2 0 693

5 Purawa 1039 284 127 628

6 Godaron Ki Beri 706 74 0 632

7 Aaleti 698 59 0 639

8 Siyago Ki Beri 617 60 0 557

9 Jhakarra 439 0 0 439

10 Dholi Nadi 900 23 0 877

11 Shivji Ka Mandir 413 36 0 377

12 Daboi 774 42 0 732

13 Panal Ki Beri 806 0 53 753

14 Aakli 820 71 30 719


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l P

op

ula

tio

n

Po

pu

lati

on

Sch

edu

le

Cas

te

Po

pu

lati

on

Sch

edu

le

Trib

e

Po

pu

lati

on

G

ener

al C

aste

15 Khotawas 1144 104 0 1040

16 Arniyali 1615 264 0 1351

17 Ramji Ka Golphanta 1029 16 8 1005

18 Ramji Ka Gol 620 0 354 266

19 Panawali 698 0 0 698

Sub Total 15104 1547 682 12875

Total 30373 4524 1148 24701 Source: Primary Census Abstract, 2011

.

Literacy Levels in Study Area Villages

The village-wise details of literate and illiterate population in the study area villages

are given in Table – 3.20. It is observed that about 48.76% of the total population in

the study area is literate, while the remaining 51.24% is illiterate. The overall average

literacy rate in the Study Area Villages is about 48.76%. The male and female

literacy rates are 60.02% and 36.43% respectively.

TABLE – 3.20 Literacy Levels in Study Area Villages


l P

op

ula

tio

n

Po

pu

lati

on

Li

tera

te

Mal

e

Lite

rate

Fem

ale

Li

tera

te

Po

pu

lati

on

Illit

era

te

Mal

e

Illit

era

te

Fem

ale

Illit

era

te


1 Sensawa 2760 1169 804 365 1591 663 928

2 Agrawa 2524 1066 696 370 1458 629 829

3 Sunta Koi 1799 759 512 247 1040 444 596

4 Kundaki 695 367 222 145 328 120 208

5 Meghawa 2208 1069 701 368 1139 442 697

6 Veerawa 3353 1697 1090 607 1656 643 1013

7 Hali Bao 1930 1058 675 383 872 331 541

Sub Total 15269 7185 4700 2485 8084 3272 4812


1 Pratapnagar 629 355 240 115 274 93 181

2 Manki 616 342 229 113 274 88 186

3 Megwalon Ki Basti 846 431 281 150 415 150 265

4 Rampura 695 423 254 169 272 128 144

5 Purawa 1039 565 371 194 474 181 293


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l P

op

ula

tio

n

Po

pu

lati

on

Li

tera

te

Mal

e

Lite

rate

Fem

ale

Lite

rate

Po

pu

lati

on

Illit

era

te

Mal

e Il

lite

rate

Fem

ale

Illit

era

te

6 Godaron Ki Beri 706 349 213 136 357 152 205

7 Aaleti 698 373 224 149 325 140 185

8 Siyago Ki Beri 617 313 191 122 304 127 177

9 Jhakarra 439 234 136 98 205 77 128

10 Dholi Nadi 900 424 286 138 476 171 305

11 Shivji Ka Mandir 413 207 140 67 206 77 129

12 Daboi 774 350 209 141 424 178 246

13 Panal Ki Beri 806 353 227 126 453 223 230

14 Aakli 820 389 254 135 431 186 245

15 Khotawas 1144 498 306 192 646 293 353

16 Arniyali 1615 881 569 312 734 304 430

17 Ramji Ka Golphanta 1029 520 311 209 509 199 310

18 Ramji Ka Gol 620 248 166 82 372 171 201

19 Panawali 698 371 223 148 327 138 189

Sub Total 15104 7626 4830 2796 7478 3076 4402

Total 30373 14811 9530 5281 15562 6348 9214 Source: Primary Census Abstract, 2011.

Occupational Profile in Study Area Villages

The village-wise details on occupational profile within the Study Area Villages are

outlined in Table – 3.21. It is observed that about 47.64% of the total population in

the Study Area Villages is engaged in different economically productive activities,

and have been classified as “Total Workers” by the Census Department. On the

other hand, remaining 52.36% are non-workers or dependent population. Among the

working population, about 75.81% constitute the Main workers, while the Marginal

workers comprise about 24.19% of the total population.

TABLE – 3.21 Occupational Profile in Study Area Villages


l P

op

ula

tio

n

Tota

l Wo

rkin

g P

op

ula

tio

n

Mai

n W

ork

ers

Mar

gin

al

Wo

rker

s

No

n W

ork

ers


1 Sensawa 2760 1356 1177 179 1404

2 Agrawa 2524 1212 959 253 1312


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l P

op

ula

tio

n

Tota

l Wo

rkin

g P

op

ula

tio

n

Mai

n W

ork

ers

Mar

gin

al

Wo

rker

s

No

n W

ork

ers

3 Sunta Koi 1799 894 841 53 905

4 Kundaki 695 361 253 108 334

5 Meghawa 2208 1418 791 627 790

6 Veerawa 3353 1706 1517 189 1647

7 Hali Bao 1930 1179 932 247 751

Sub Total 15269 8126 6470 1656 7143


1 Pratapnagar 629 332 327 5 297

2 Manki 616 319 162 157 297

3 Megwalon Ki Basti 846 430 140 290 416

4 Rampura 695 327 315 12 368

5 Purawa 1039 489 482 7 550

6 Godaron Ki Beri 706 364 173 191 342

7 Aaleti 698 320 319 1 378

8 Siyago Ki Beri 617 283 267 16 334

9 Jhakarra 439 219 137 82 220

10 Dholi Nadi 900 412 371 41 488

11 Shivji Ka Mandir 413 184 94 90 229

12 Daboi 774 278 53 225 496

13 Panal Ki Beri 806 268 37 231 538

14 Aakli 820 394 313 81 426

15 Khotawas 1144 404 387 17 740

16 Arniyali 1615 532 316 216 1083

17 Ramji Ka Golphanta 1029 286 240 46 743

18 Ramji Ka Gol 620 273 137 136 347

19 Panawali 698 230 230 0 468

Sub Total 15104 6344 4500 1844 8760

Total 30373 14470 10970 3500 15903 Source: Primary Census Abstract, 2011.

CHAPTER-4

ADDITONAL STUDIES FOR

BASELINE


WAPCOS Limited 4-1

CHAPTER-4

ADDITIONAL STUDIES FOR BASELINE STATUS

4.1 BACKGROUND

As a part of the EIA study, primary data collection to assess baseline status of

various aspect of environment was conducted during the period from November

2008 to January 2009. Based on this data, Rapid EIA Report was prepared and

Public Hearing was conducted on 09.06.2011 at Halibav (Jalore) and on 10.06.2011

at Ramji Ka Gol (Barmer) respectively. It was envisaged that at the time of

Environmental Clearance from MoEF, since data collected as a part of EIA study,

was more than three years old; hence, a fresh baseline survey be conducted.

Additional studies for primary data collection for winter season was conducted from

December 2013 to February 2014. The present Chapter outlines the findings of the

primary data collection exercise conducted during the above referred period. The

field studies were conducted to assess the information on following aspects of

environment:

Micro-Meteorology

Ambient Air Quality

Soils

Water Quality

Ambient Noise Level

4.2 MICRO METEOROLOGY

The prevailing micrometeorology around the proposed project site forms the basis

for assessing the dispersion of pollutants likely to be released from the proposed

project. The meteorological aspects covered under micrometeorology are horizontal

transport and dispersion (average wind speed and direction), convictive transport

and vertical mixing (atmospheric stability) and the topography of the area.


WAPCOS Limited 4-2

As a part of the REIA study, a micro-meteorological station was set up close to the

project site from 01.12.2013 to 28.02.2014. The parameters monitored were wind

speed, wind direction, temperature and relative humidity. During the study period the

maximum temperature observed was 31oC. The minimum temperature observed

was 16oC. The wind speed ranged from 0 to 11 km/hr. Likewise, the relative humidity

ranged from 15 to 74%. The micro-meteorological data was observed on hourly

basis for the entire study period and the results are enclosed as Annexure-IV. The

wind rose diagram based on the observations during study period is given in

Figures-4.1.

TABLE-4.1 Summary of the micro-meteorological data observed

DATE Temperature (oC)

Mean Humidity

(%)

Wind Speed (km/hr)

Rainfall (mm)

Max Min Mean Max Mean

01-12-2013 16 16 16 74 0 0 0

02-12-2013 26 13 20 62 0 0 0

03-12-2013 26 14 20 44 0 0 0

04-12-2013 24 14 20 37 0 0 0

05-12-2013 19 10 16 61 2 0 0

06-12-2013 21 9 15 50 0 0 0

07-12-2013 21 10 16 58 4 1 0

08-12-2013 17 11 14 55 6 2 0

09-12-2013 21 13 17 32 4 1 0

10-12-2013 21 12 16 36 2 0 0

11-12-2013 23 12 18 35 2 0 0

12-12-2013 22 13 18 21 0 0 0

13-12-2013 22 11 16 30 2 1 0

14-12-2013 21 11 16 32 2 0 0

15-12-2013 21 10 16 24 2 0 0

16-12-2013 17 10 14 15 4 2 0

17-12-2013 26 13 20 62 0 0 0

18-12-2013 26 14 20 44 0 0 0

19-12-2013 24 14 20 37 0 0 0

20-12-2013 19 10 16 61 2 0 0

21-12-2013 21 9 15 50 0 0 0

22-12-2013 21 10 16 58 4 1 0

23-12-2013 17 11 14 55 6 1 0

24-12-2013 21 13 17 32 4 1 0

25-12-2013 21 12 16 36 2 0 0

26-12-2013 23 12 18 35 2 0 0


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Mean Humidity

(%)

Wind Speed (km/hr)

Rainfall (mm)


27-12-2013 22 13 18 21 0 0 0

28-12-2013 22 11 16 30 2 1 0

29-12-2013 21 11 16 32 2 0 0

30-12-2013 21 10 16 24 2 0 0

31-12-2013 17 10 14 15 4 1 0

01-01-2014 18 5 12 18 6 2 0

02-01-2014 20 6 13 29 6 2 0

03-01-2014 22 7 14 28 4 1 0

04-01-2014 23 11 17 21 0 0 0

05-01-2014 22 11 16 17 0 0 0

06-01-2014 21 10 16 17 2 1 0

07-01-2014 23 10 16 21 4 1 0

08-01-2014 25 10 18 24 6 2 0

09-01-2014 17 12 12 34 4 1 0

10-01-2014 21 10 16 30 6 3 0

11-01-2014 19 9 14 38 4 1 0

12-01-2014 21 8 14 28 4 1 0

13-01-2014 23 9 16 31 4 2 0

14-01-2014 23 11 17 35 4 1 0

15-01-2014 23 11 17 23 4 1 0

16-01-2014 24 12 18 25 2 1 0

17-01-2014 23 12 18 29 4 1 0

18-01-2014 24 12 18 29 4 1 0

19-01-2014 22 10 16 55 4 4 0

20-01-2014 22 10 16 51 2 1 0

21-01-2014 24 14 19 42 2 0 0

22-01-2014 23 13 18 47 4 3 0

23-01-2014 23 12 18 39 4 1 0

24-01-2014 21 11 16 67 4 2 0

25-01-2014 24 11 18 44 4 1 0

26-01-2014 26 12 19 31 4 1 0

27-01-2014 27 13 20 28 4 1 0

28-01-2014 26 15 20 35 0 0 0

29-01-2014 28 13 20 33 0 0 0

30-01-2014 29 13 21 29 2 0 0

31-01-2014 29 15 22 25 4 1 0

01-02-2014 28 14 21 35 0 0 0

02-02-2014 29 15 22 37 2 1 0

03-02-2014 29 15 22 34 6 2 0

04-02-2014 29 16 22 33 6 1 0

05-02-2014 29 17 23 39 2 1 0

06-02-2014 29 16 22 31 7 3 0

07-02-2014 26 17 23 43 7 5 0

08-02-2014 23 12 18 39 4 1 0

09-02-2014 23 12 18 30 2 1 0


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Mean Humidity

(%)

Wind Speed (km/hr)

Rainfall (mm)


10-02-2014 25 9 17 32 2 0 0

11-02-2014 25 13 19 21 2 1 0

12-02-2014 27 13 20 20 6 3 0

13-02-2014 23 14 18 26 4 1 0

14-02-2014 26 15 20 25 2 1 0

15-02-2014 27 12 20 33 6 1 0

16-02-2014 26 14 20 22 4 1 0

17-02-2014 27 13 20 26 2 1 0

18-02-2014 29 15 26 26 2 0 0

19-02-2014 29 13 21 35 11 2 0

20-02-2014 29 13 21 42 4 1 0

21-02-2014 30 15 22 35 6 2 0

22-02-2014 26 14 20 44 4 3 0

23-02-2014 27 14 20 37 7 2 0

24-02-2014 27 14 20 41 2 0 0

25-02-2014 29 15 22 39 4 1 0

26-02-2014 30 16 23 33 2 1 0

27-02-2014 31 17 24 34 2 1 0

28-02-2014 27 16 22 45 4 2 0

Figure-4.1: wind rose diagram during study period


WAPCOS Limited 4-5

4.3 AMBIENT AIR QUALITY

As a part of EIA study a ambient air quality was monitored at various locations in the

study area. The frequency of monitoring was twice a week for twelve consecutive

weeks from December 2013 to February 2014. The sampling was conducted at

these stations which were covered in earlier field study and are listed as below:

- Akli - Pratapnagar - Purava - Mine site The parameters monitored were PM10, PM2.5, SO2 and NO2. The results of ambient

air quality monitoring are summarized in Table-4.2.

TABLE-4.2 Ambient air quality monitoring stations in the study area (buffer zone)

(Unit: g/m3) Station NO2 SO2 PM10 PM2.5

Akli

01.12.13 13.1 11.3 74 32

02.12.13 13.3 14.7 78 35

08.12.13 15.1 12.1 80 33

09.12.13 14.5 13 81 40

15.12.13 13.3 12.9 75 41

16.12.13 12.9 13.4 72 42

22.12.13 13.3 13.2 89 33

23.12.13 16.1 14 81 43

29.12.13 13.1 13.7 75 45

30.12.13 13.7 12.5 76 35

05.01.14 13.5 14.6 66 36

06.01.14 12.9 14.8 69 34

12.01.14 12.7 13.4 81 33

13.01.14 12.1 13.7 83 36

19.01.14 17.8 11.2 78 28

20.01.14 17.1 10.8 66 44

26.01.14 14.1 13.1 81 36

27.01.14 11.5 14 82 33

02.02.14 14 13.2 87 34

03.02.14 11.2 7.9 73 30

09.02.14 12.7 14.6 76 30

10.02.14 12.7 12.5 84 33

16.02.14 13.7 12.2 89 35

17.02.14 14.5 12.6 76 28

23.02.14 12.3 11.5 68 31

24.02.14 13 12.3 87 35


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Station NO2 SO2 PM10 PM2.5

Pratapnagar

03.12.13 15.5 7.8 77 28

04.12.13 15.2 8 75 25

10.12.13 13.2 9.2 63 35

11.12.13 13.3 9.5 65 40

17.12.13 14.4 10.4 87 37

18.12.13 14.2 9.8 83 30

24.12.13 15.1 10.2 72 38

25.12.13 14.9 11.8 71 45

31.12.13 13.1 7.9 82 29

01.01.14 13.2 8.2 81 30

07.01.14 13.7 11.1 71 28

08.01.14 13.8 11.4 72 26

14.01.14 13.4 9.8 66 29

15.01.14 14.5 10.1 67 25

21.01.14 17.1 10.4 82 30

22.01.14 17.2 10.5 81 29

28.01.14 8.5 8.9 62 29

29.01.14 8.9 10.1 72 28

04.02.14 10.2 7.5 71 25

05.02.14 10.5 8.9 73 26

11.02.14 15.2 11.2 81 30

12.02.14 14 11.3 82 28

18.02.14 12.4 10.5 72 26

19.02.14 12.8 10.8 75 29

25.02.14 12.3 11.6 72 33

26.02.14 13.4 11.7 73 30

Purava

01.12.13 13.4 10.1 81 33

02.12.13 12.8 9.8 82 36

08.12.13 13.1 7.9 71 28

09.12.13 14.5 8.3 73 37

15.12.13 13.1 8.4 68 38

16.12.13 12.5 10.2 69 39

22.12.13 13 10.3 79 40

23.12.13 11.2 8.7 77 41

29.12.13 11.5 7.1 68 30

30.12.13 15.2 11.2 64 40

05.01.14 17.1 10.1 81 37

06.01.14 12.3 11.9 79 40

12.01.14 11.9 12.4 76 41

13.01.14 11.9 8.8 77 46

19.01.14 15.4 13.5 92 50

20.01.14 16.2 13.8 91 47

26.01.14 13.3 11.2 82 40

27.01.14 12.5 13.5 83 38

02.02.14 12.8 10.5 84 45

03.02.14 11.7 10.2 68 29

09.02.14 15.1 13.5 71 27

10.02.14 13.8 13.4 83 31


WAPCOS Limited 4-7

Station NO2 SO2 PM10 PM2.5

16.02.14 19.1 12.2 71 45

17.02.14 12.3 12.3 79 40

23.02.14 14.5 11.7 87 28

24.02.14 12.3 11.6 68 33

Mine Site

03.12.13 14.2 11.2 74 23

04.12.13 16.1 9.2 56 32

10.12.13 16.2 10.1 81 37

11.12.13 14.2 10.3 87 36

17.12.13 12.9 9.8 90 37

18.12.13 12.8 9.2 72 40

24.12.13 13 11.1 73 42

25.12.13 13.4 12.3 77 50

31.12.13 14.2 8.8 81 40

01.01.14 14.3 11.3 91 41

07.01.14 15 12.1 90 42

08.01.14 12 13.1 78 44

14.01.14 12.5 7.2 66 53

15.01.14 18 8 88 50

21.01.14 18.2 10 79 46

22.01.14 14 12.2 72 39

28.01.14 9.9 9.7 76 33

29.01.14 10.5 12.2 67 30

04.02.14 10.7 7.5 72 29

05.02.14 12.6 10.4 81 36

11.02.14 12.8 12.3 92 50

12.02.14 12.9 11.1 74 36

18.02.14 13.1 12.1 75 37

19.02.14 12.2 8.6 77 42

25.02.14 11 13.1 80 34

26.02.14 14 11.2 81 29

Observations on Ambient PM10 Levels

The summary of ambient PM10 concentrations at the four monitoring stations is given

in Table-4.3. The highest average PM10 concentration was observed as 92 g/m3 at

the Purava and Mine Site. The average PM10 at four stations ranged from 74.15 to

78.08 g/m3. The average PM10 values at all stations was lower than the permissible

limit of 100 g/m3 specified for Industrial, Residential, Rural and Other areas.


WAPCOS Limited 4-8

TABLE-4.3

Ambient Air Quality Status- PM10 (Unit : g/m3)


Akli 89 66 77.96

Pratapnagar 87 62 74.15

Purava 92 64 77.08

Mine site 92 56 78.08

Observations on Ambient PM2.5 levels

The summary of ambient PM2.5 concentrations observed at the four monitoring

stations is summarized in Table-4.4. The highest PM2.5 value of 53 g/m3 was

observed at station at Mine site. The average PM2.5 level ranged from 30.31 to 38.77

g/m3. The average PM2.5 values were lower than the permissible limit of 80 g/m3

specified for Industrial, Residential, Rural and Other areas.

TABLE-4.4

Ambient Air Quality Status – PM2.5 (Unit : g/m3)


Akli 45 28 35.19

Pratapnagar 45 25 30.31

Purava 50 28 37.65

Mine site 53 23 38.77

Observations on Ambient SO2 level

The summary of ambient SO2 level is given in Table-4.5. The maximum SO2 level of

14.7 g/m3 was observed at station mine site. The average SO2 level ranged from

9.95 to 12.82 g/m3. The average SO2 levels were well below the permissible limit of

80 g/m3 specified for Industrial, Residential, Rural and Other areas.

TABLE-4.5

Ambient Air Quality Status SO2 level (Unit: g/m3)


Akli 14.7 7.9 12.82


Purava 13.8 7.1 10.87

Mine site 13.1 7.2 10.54


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Observations on Ambient NO2 Levels

The summary of ambient NO2 level is given in Table-4.6. The average NO2 levels

ranged from 13.46 to 13.62 g/m3. The maximum NO2 level observed during the

survey was 19.1 g/m3 at Purava site, which is also well below the permissible limit

(80 g/m3) specified for Industrial, Residential, Rural and Other areas.

TABLE-4.6

Ambient Air Quality Status NO2 levels (Unit: g/m3)


Akli 17.8 11.2 13.62


Purava 19.1 11.2 13.56

Mine site 18.2 9.9 13.49

4.4 SOILS

As a part of the EIA study, soil samples were collected from Study Area (Buffer

Zone). The sampling was conducted in the month of December 2013. The results of

analysis results of soil samples are given in Table-4.7

TABLE-4.7 Soil quality analysis in the core zone and buffer zone

Parameter Mine lease area

Purava village

Pratapnagar village

Akali village

pH 8.70 7.91 8.53 8.61

EC, mhos/cm 203 429 179 135

Sodium, g/g 175.41 6581.12 2530.39 125.61

Potassium, g/g 1133.20 743.22 954.56 763.17

Calcium, g/g 11497.50 34093.70 8324.20 2134.75

Magnesium, g/g 2512.48 3124.17 1721.40 1731.61

Manganese, g/g 645.11 230.19 171.15 251.05

Phosphorus, g/g 427.71 232.15 367.82 135.79

Organic matter, (% by wt.) 0.05 0.60 0.43 0.07

Gravel (%) 2 3 3 2

Sand (%) 87 89 83 89

Silt & Clay (%) 11 12 15 9

Texture Sandy Sandy Sandy Sandy

Bulk density 1.8 1.9 1.7 1.7


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The soil texture in the area is mainly sandy. The pH is in alkaline range. The soil

colour is yellow indicating low organic content. The salt content in the soils is

moderate. As far as soil nutrients are concerned, the soil productivity in the area can

be categorized as very low to low.

4.5 WATER ENVIRONMENT

The major source of water in the study area is the canal water. The Consultant has

collected water samples from various locations in the study area (buffer zone) which

were analyzed in the month of December 2013. The results of water quality analysis

are summarized in Table-4.8.

TABLE-4.8

Water Quality in the Study Area (Buffer zone) Parameter Unit Canal water

village Jakharda

Canal water village

Pratapnagar



pH Value 7.6 7.8 7.9 8.1

Taste - Agreeable Agreeable Saline Saline

Odour - Unobjectionable

Unobjectionable Unobjectionable

Unobjectionable

Turbidity NTU 1.3 1.4 2.0 1.7

Total Hardness as CaCO3

mg/l 81 82 1010 1136

Iron as Fe mg/l 0.19 0.22 0.44 0.49

Chlorides as Cl mg/l 35 38 437 449

Residual Free chlorine mg/l Nil Nil Nil Nil

Total Dissolved Solids mg/l 245 272 5989 5420

Calcium as Ca mg/l 27.1 29.4 179 183

Magnesium as Mg mg/l 5.5 5.3 135 138

Manganese as Mn mg/l 0.014 0.013 0.021 0.018

Sulphates as SO4 mg/l 19 25 110 101

Nitrate as NO3 mg/l 5.6 6.1 78 84

Fluorides as F mg/l 0.22 0.11 1.3 1.4

Phenolic compounds mg/l ND ND ND ND

Mercury as Hg mg/l ND ND ND ND

Cadmium as Cd mg/l ND ND ND ND

Selenium as Se mg/l ND ND ND ND

Arsenic as As mg/l ND ND ND ND

Lead as Pb mg/l ND ND ND ND

Zinc as Zn mg/l <0.01 <0.01 ND ND

Copper mg/l <0.01 <0.01 <0.01 <0.01

Cyanides as CN mg/l ND ND ND ND


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Parameter Unit Canal water village

Jakharda

Canal water village

Pratapnagar



Anionic detergents as MBAS

mg/l ND ND ND ND

Chromium as Cr+6 mg/l ND ND ND ND

Polynuclear aromatic hydrocarbon as PAH

mg/l ND ND ND ND

Mineral Oil mg/l ND ND ND ND

Boron as B mg/l ND ND ND ND

Phosphates mg/l 1.2 1.3 2.1 2.5

BOD, 3 days at 27oC mg/l 3.0 2.7 3.2 3.1

COD mg/l 11 13 12 16

Oil & Grease mg/l ND ND ND ND ND = Not Detectable

The water in the area is slightly alkaline as the pH varies from 7.6 to 8.1. Hardness

level is higher than cause for rejection limit in ground water, but is well within the

permissible limits for canal water. The TDS levels too was higher than the

permissible limit (500 mg/l) in canal water but were well above the cause for rejection

limit (1500 mg/l) in ground water. Similar trends were observed for various cations

and anions. It can be concluded that ground water in the study area is unsuitable for

meeting domestic or irrigation water requirements.

The concentration of heavy metals was well below the detectable limits indicating the

absence of chemical pollution source. The concentration of other parameters, e.g.

mineral oil, pesticides, PAH, oil & grease etc., was below the detectable limit. This is

expected in an area with no major source of chemical pollution

4.6 NOISE ENVIRONMENT

Baseline noise data has been measured using A-weighted sound pressure level

meter. The survey was carried out in calm surroundings. Sound Pressure Level

(SPL) measurement in the outside environment was made using sound pressure

level meter. The ambient noise levels in the study area (buffer zone) were measured

using a weighted sound pressure level meter in December 2013. The noise level


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survey was carried out in the calm surroundings. The equivalent noise stations as

monitored at various locations in the study area is summarized in Table-4.9.

TABLE-4.9

Equivalent noise levels in the study area

Location of sampling station Equivalent noise level (dB(A))

Day Time Night Time

A. Core Zone

Mine Site

48

35

B. Buffer Zone

Akli

Pratapnagar

Purava

Dhol Nadi

Daboi

Khotawas

46

43

47

39

41

35

31

32

30

29

35

29

The equivalent noise levels as observed in the study area (Buffer Zone) and mine

lease area (Core Zone) during day and night times were well within the permissible

limit of specified for residential and rural areas

CHAPTER-5



WAPCOS Limited 5-1

CHAPTER-5


5.1 GENERAL

The mineral extraction whether by open cast or underground method entails adverse

impacts on the surrounding environment. The magnitude and significance, however,

varies with different minerals, method of mining, scale and configuration of mining

activity in conjunction with the topography of the area, nature of mineral deposits,

etc. In general, mining activities are accompanied by a variety of environmental

impacts which can lead to the degradation of the environment as a whole.

Open cast mining involves excavation and movement of large volume of top soil and

overburden which lead to various effects on the environment. The present Chapter

deals with the positive as well as negative impacts anticipated as a result of the

development of proposed Jakharda gypsum mine near Tehsil Gudamalani, district

Barmer.

The impacts have been classified in various aspects of environment listed as below:

- Air environment - Noise - Water environment - Land environment - Ecology - Socio-economic environment. 5.2 IMPACTS ON AIR ENVIRONMENT

The mining operations contribute towards air pollution by emission of dust particles.

The intensity of impacts is directly related to the rate of production from mining.

Majority of the mining equipment would run on diesel. The mining activity is likely to

increase the level of Suspended Particulate Matter (SPM), Oxides of Nitrogen (NOx).

The increased vehicular movement is also likely to increase pollution. The sources of

pollutants are given in Table-5.1.


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TABLE-5.1 Sources of pollutants

Source Type Pollutants

Stacks of overburden & gypsum, loading & unloading activities

Area SPM

Operation of mining equipment Point SO2

Vehicular movement Line SPM, NOx and CO

(i) Area sources There will be emissions of dust due to fugitive sources. The bulk of fugitive

emissions are dust particles generated by mechanical disturbances of granular

substances exposed to the air. The various sources of fugitive dust emissions in the

Jakharda gypsum mine are:

- Loading and unloading; - Wind erosion of pile surfaces and ground areas around the pile, and - Emission from paved and unpaved roads.

Loading and unloading

The receival and disposal of dusty materials releases the dust which is mechanically

agitated by the movement of the excavating equipment and the turbulent air eddies

created during the process. The amount of dust generated depends on particle size,

wind velocity and the material moisture content.

Wind erosion from pile surfaces

Dust emissions may be generated by wind erosion of open cast piles and exposed

areas within a disposal facility. These sources are typically characterized by non-

homogenous surfaces impregnated with non-erodible elements. The aggregate

material surfaces are characterized by finite availability of the erodible material. Any

natural crusting of the surface binds the erodible material which reduces the erosion

potential. The emissions are greatest during periods of material movement, high

wind and dry periods.


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Erosion from paved and unpaved roads

Unlike the sources described earlier, the emissions from roads are not due to an

identifiable unit operation at each facility, but roads serve as linkages between the

various unit operations. Particulate emissions occur whenever a vehicle travels over

a paved or unpaved surface. For considering the worst scenario all the approach

roads have been taken as unpaved.

The fugitive emissions from the above mentioned sources in the Jakharda gypsum

mine are listed in Table-5.2.

TABLE-5.2 Fugitive emissions from various sources in the proposed

Jakharda gypsum mine

Source Value (kg/ton of material transferred)

Emission due to loading of gypsum 2.3x10-5

Emission due to loading of overburden 9.58x10-5

Vehicular traffic around piles 0.01689

Wind erosion 1.69x10-4

Load out from piles 0.0538

Load in on to piles 0.0288

The daily gypsum production rate is of the order of 2100 t/day. The fugitive

emissions (SPM) generated shall be 209 kg/day or 2.42 g/s.

The fugitive emissions normally do not travel for a distance beyond 200-500 m

before settling on the ground. They can have negative impacts when settled on

plants, crops and material. The particulates will contain dust and shall be free from

any reactive chemicals, the negative effects of this deposition are marginal. In

addition, since, there are no habitations close to the mine site, hence, adverse

impacts on this account are not expected to be significant.

(ii) Point sources

In the proposed mine, the major point source of pollution is due combustion of fuel in

operation of various mining equipment, which will lead to generation of SO2 and


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NOx. The emission factors for SO2 and NOx in the active mine area are estimated

based on the emission factors given in AP-42 (Compilation of Air Pollutant Emission

Factors, Fifth Edition, 1995), USEPA. The average fuel consumption of various

mining equipment is given in Table-5.3.

TABLE-5.3 Fuel consumption in various mining equipment

Equipment Fuel consumption (lph)

No. Total Fuel Consumption (lph)

Hydraulic excavator 18.00 1 18.00

Tractor with scrapper attachment.

4.50 1 4.50

Tractor tank water sprinkler 4.50 1 4.50

Total 26.50

The emission rate for various pollutants due to combustion of diesel in various

mining equipment is given in Table-5.4.

TABLE-5.4 Emission rates for various pollutants due to fuel combustion

Pollutant Emission factor

(gm/hr) (gm/sec)

SO2 1101 0.31

NOx 2,461 0.68

Mathematical Modelling

The impact of emission of air pollutants has been predicted using Gaussian Plume

Dispersion model. The model is a mathematical solution of three-dimensional

advection-diffusion equation. The model has the following assumptions:

Diffusion in downwind direction is insignificant compared with mean flow (advection dominates over diffusion).

Wind speed is not a function of position.

Diffusivities are not functions of position The model requires the following inputs: - Quantities of raw materials (including fuels). - Fuel analysis (e.g. sulphur content). - For exit gases:


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Velocity

Temperature

Flow rate

Density

Specific heat

Heat emission rate

Emission rate of pollutant - For Stack

internal diameter of exhaust

height from ground level - Wind Speed - Ambient Temperature - Cloud cover - Humidity

The basic equation used in the ambient air quality modelling is given as below:

C(x) = Q

------------------- { exp (-1/2 (H/z)2 )}

2 yz Where

C = concentration at a distance x from an effective source of height H Q = Uniform emission rate of pollutant

y z = standard deviation of plume concentration in horizontal & vertical directions u = mean wind speed H = effective height of release, i.e. physical stack height & plus plume rise. The stability classes as classified through Pasquill Stability Classes was utilized to

assess the stability class. For the modelling purpose stability class C was used.

Based on the findings of Gausian Plume Dispersion model, the short-term increase

in ground level concentration are given in Table-5.5.

TABLE-5.5

Short-term increase in Ground Level Concentration (Unit : g/m3)

Pollutant Baseline level Incremental increase

Resultant Concentration

SO2 13.10 0.19 13.29

NO2 18.20 0.38 18.58


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Thus, it is clear from Table-5.5, that increase in levels of various pollutants is not

expected to be significant as a result of the proposed mining activities. Thus, no

significant impact on ambient air quality is anticipated.

5.3 IMPACTS ON NOISE ENVIRONMENT

The overall impact of noise due to various sources can be predicted using

hemispherical model for sound wave propagation:

LPQ = LW + DIQ - 20 log r - Ae - 8 dBA

Where,

LPQ - sound pressure level at a receiver located in the direction and distance `r' from

the source;

LW - sound pressure level of the source;

DIQ - directivity index of the source (for hemispherical radiation DI = 8 dBA).

r - distance of receiver from the source (m);

Ae - represents excess attenuation of the sound produced by factors such as;

- absorption in air; - effect of rain, wind and fog; - reflection and refraction at barriers and buildings; - effect of the terrain, grass, shrubs, trees, etc., and - effect of wind and temperature.

The absorption of sound in the air is generally by molecular and viscous actions and

is a complex phenomenon. In general, the sound pressure level decreases by 6

dBA for each doubling of the distance.

The cumulative impact of various sources at a particular location is calculated by

using the logarithmic absorption model as:

LP (Total) = 10 log (10 LPQ1/10 + 10 LPQ2/10 + ------).

The noise levels during mining at the proposed Jakharda gypsum mine have been

predicted for the worst scenario which envisages all the equipment are operating at a

common location. The cumulative noise levels due to these sources shall be 77


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dB(A) (assuming all the sources to be located at a point) for predicting the worst

scenario. The noise levels at various distances due to the activities in the proposed

mine are given Table-5.6.

TABLE-5.6 Predicted noise levels due to the proposed Jakharda gypsum mine

----------------------------------------------------------------------------------------------------------------- Distance Ambient Noise Incremental increase in the Increased Ambient noise

Level ambient noise level due to the in the post-project proposed project (m) (dBA) (dBA) (dBA) ----------------------------------------------------------------------------------------------------------------- (A) (B) (C) (D)=(B+C) ----------------------------------------------------------------------------------------------------------------- 10 48 63 63 20 48 57 57 50 48 49 51 100 48 43 49 200 48 37 48 -----------------------------------------------------------------------------------------------------------------

In the pre-project phase, the noise level varies from 39 to 48 dB(A) during day time.

The increase in noise levels at a distance of 10 m, 20 m, 50 m and 100 m from mine

is expected to be 15 dB(A), 9 dB(A), 3 dB(A) and 1 dB(A) respectively, in the worst

scenario without any control. The nearest habitations are atleast 2-3 km away.

Hence, No impact on ambient noise levels is anticipated. It would be worthwhile to

mention here that in absence of the data on actual location of various construction

equipment, all the equipment have been assumed to operate at a common point.

This assumption leads to over-estimation of the increase in noise levels. It is a

known fact that there is a reduction in noise level as the sound wave passes through

a barrier.

It is a known fact that there is a reduction in noise level as the sound wave passes

through a barrier. The transmission loss value for common construction materials is

given in Table-5.7.


WAPCOS Limited 5-8

TABLE-5.7 Transmission loss values for common construction material

-----------------------------------------------------------------------------------------------------------------Material Thickness (inches) Decrease in noise level (dBA) ----------------------------------------------------------------------------------------------------------------- Light concrete 4 38 6 39 Dense Concrete 4 40 Brick 4 33 Granite 4 40 -----------------------------------------------------------------------------------------------------------------

The walls of houses will attenuate at least 30 dBA of noise. In addition, there are

attenuation due to the following factors:

Air absorption

Vegetal foliage

Atmospheric in homogeneties and atmospheric turbulence.

It can be concluded that there will be no increase in noise levels, even within 200 m

to 300 m from the proposed mine site. No blasting is envisaged in the proposed

mine. Thus, no increase in ambient noise levels is anticipated, as a result of mining

activities in the proposed Jakharda gypsum mine.

The effect of high noise levels on the mine operating personnel, has to be

considered as this may be particularly harmful. It is known that continuous exposures

to high noise levels above 90 dB(A) affects the hearing capacity of the

workers/operators and hence, should be avoided.

In the proposed mine, workers are not expected to be exposed to noise levels of

around 90 dB(A). Thus, no adverse impacts on hearing acuity of the workers are

envisaged.


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5.4 IMPACTS ON WATER ENVIRONMENT

Impacts due to mine drainage

The annual rainfall in the area is low, i.e. of the order of 259 mm. Thus, large scale

water accumulation in the mining pit is not anticipated. However, small quantity of

water that is likely to be accumulated during monsoons, shall be pumped out and

disposed through natural drainage channels.

The surface excavation will be up to depth of only 2.95 m. The parched water table

at a depth of more than 5 meters. So there is no adverse impact likely to be

encountered during mining activities in the Jakharda gypsum mine. Since, the entire

mining operation is dry, no groundwater seepage due to the mine is anticipated.

Impacts due to sewage generation

At present, the major source of water in the project area is rain water. The water

requirements in the mine will be mainly to meet the domestic water requirements.

The total labour employed during mining activities is around 50. The labour would be

from nearly villages, hence no separate project colony is envisaged. As per Water

Supply Manual published by Central Public Health and Environmental Engineering

Organization (CPHEEO), the water requirement per person per day in office has

been fixed as 45 litres. Thus, total water requirements for a staff of about 50 shall be

of the order of 2.25 m3/day. The sewage generated is taken as 80% of the total water

supplied, which amounts to1.8 m3/day. In untreated sewage, BOD is the major

pollutant, which can have an adverse impact on the water quality. However, in the

proposed gypsum mine, the quantum of sewage generated is very less and is not

expected to cause any significant impact.


WAPCOS Limited 5-10

Water Requirement

The total water requirement is of the order of 13 m3/day. The details are given as

below:

- Domestic use : 2.25 m3/day - Greenbelt development : 3.00 m3/day - Dust suppression : 6.00 m3/day @5000gal/day for 1MT/Annum

- Others (10% of other uses): 1.13 m3/day --------------------- 12.38 m3/day, say 13 m3/day ---------------------

Canal is the major source of water in the area and PHE Department, supplies water

to various villages in the study area. For the mine as well, canal water is proposed to

be used.

The total ground water recharge is much lower than the recharge due to irrigation

which is of the order of 70-75 Mm3/year. Thus, no adverse impacts on groundwater

regime is anticipated.

Total water requirements and sewage generation

The total water requirements and sewage generation for Jakharda gypsum mine are

given in Table-5.8.

TABLE-5.8 Water requirement and Sewage generation at Jakharda gypsum mine

S. No. Use Water requirement (m3/day)

Sewage generation (m3/day)

1. Labour at mine site 2.25 1.26

2. Greenbelt development 3.00 -

3. Dust suppression 6.00 -

4. Others 1.13 0.34

Total 12.38 1.60

The mining operations are completely dry and no groundwater is expected to seep

into the mine area. Thus, the only source of water pollution is the sewage generated

from mine area. The disposal of untreated sewage could lead to water pollution and


WAPCOS Limited 5-11

associated public health problems. The typical composition of untreated sewage is

given in Table-5.9.

TABLE-5.9 Typical composition of untreated domestic waste water

S. No. Parameter Value

1. Total Solids, mg/l 720

2. Total Dissolved Solids, mg/l 500

3. Total Suspended Solids, mg/l 220

4. BOD, mg/l 220

5. Oil and grease, mg/l 100

6. Alkalinity, (as CaCO3), mg/l 100

7. Total Phosphorus, mg/l 8

8. Total Nitrogen, mg/l 40

9. Bicarbonates, mg/l 100

10. Carbonates, mg/l 10

11. Chlorides, mg/l 50

12. Nitrates, mg/l 40

13. Phosphates, mg/l 40

14. Sulphates, mg/l 30

15. Calcium, mg/l 40

16. Magnesium, mg/l 40

17. Potassium, mg/l 15

18 Sodium, mg/l 70

The BOD, TDS, etc. are some of the parameters which are quite high in an untreated

sewage. The sewage requires treatment before disposal, so that no major problems

of water pollution are encountered. As a part of the Environmental Management Plan

(EMP) outlined in Chapter-6 of this Report, appropriate sewage treatment measures

have been suggested.

5.5 IMPACTS ON LAND ENVIRONMENT

The total area to be leased for Jakharda gypsum mine is 336.18 ha. No pasture or

forest land is to be acquired. After excavation of gypsum, the area will be backfilled.

As per the mine plan, land from few families is likely to be acquired for a period of 4

to 5 months. The area after backfilling will be compacted and returned back to the

farmers. The conceptual mine plan is shown in Figure-2.2.


WAPCOS Limited 5-12

Prior to excavation of gypsum, the land is unsuitable for cultivation, as presume of

impervious gypsum layers, blocks the infiltration of irrigation water. Thus, the area

becomes water logged, if irrigation is done in such areas. With the extraction of

gypsum land becomes suitable for irrigation, as obstruction to infiltrating groundwater

is removed. Thus, the land becomes more suitable for agriculture after extraction of

gypsum. Thus, gypsum extraction would improve the suitability of soil for agriculture,

which is a positive impact.

The mineral extraction process is completely dry with no generation of effluents. The

project area as mentioned earlier belongs to arid zone with little or no surface flow.

The only source of water in the area is Indira Gandhi Nahar Pariyojana (IGNP).

Hence, any impact on the surface water regime is not expected.

5.6 IMPACTS ON ECOLOGY

The total lease area of Jakharda gypsum mine is 336.18 ha. No forest land is to be

acquired for the proposed project. The proposed mine area lies in arid zone with

little or no vegetation. The mine area is generally barren. The floral species observed

in the mine lease area are bushes, shrubs and few trees of Khejri, Neem. Thus, no

significant impacts on ecology are anticipated as a result of proposed mining.

As a part of the project, it is proposed to develop greenbelt around mine site office,

roads, etc. A total area of about 5 ha is proposed to be brought under Greenbelt

Development. The improvement in agricultural production will also increase the

vegetal cover. This coupled with greenbelt development is a positive impact of the

project or the ecology of the area.

Impacts due to fugitive emissions

The fugitive emissions, which are expected to be entrained during mining operation,

is likely to settle down within a distance of 200-300 m from the mine. This


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phenomenon can block the available light and affect the photosynthetic activity of

plants. In some of the plants, it may block stomata, resulting in reduced transpiration.

Since, there is no significant vegetation in the area, impacts on this account is not

expected to be significant. Adequate measures have also been recommended as a

part of the Environmental Management Plan (EMP) to prevent entrainment of fugitive

dust. Thus, adverse impacts on ecology are not expected to be significant.

Impacts on fauna

The area does not form part of any National Park or wildlife sanctuary. Likewise the

area does not form part of the migratory route of any wildlife species. Thus no

adverse impacts on fauna are anticipated as a result of the proposed mine.

5.7 IMPACTS ON SOCIO-ECONOMIC ENVIRONMENT

A total of about 20 persons are likely to get direct employment and about 40 would

get indirect employment as shovel operator, Attendants, Truck Drivers, Khalsi etc.

due to the development of the proposed gypsum mine. Except, for some of the

technical positions, local people will be offered a major chunk of employment, which

will be the positive impact on the socio-economic environment of the study area. The

infrastructure facilities shall be developed for mining operation. With the influx of

people in the area, lot of allied activities is likely to be developed. This will also lead

to mushrooming of various employment related potential, such as small shops, etc.

which will also improve the economic status of the local population.

Change in Economic Status

The farmers losing land over a period of the project life, will be given compensation

at the rate of Rs. 70 per ton of gypsum extracted. The operation of mine will mitigate

the problem of waterlogging in the area, due to extraction of impervious gypsum


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layer. Thus, agricultural productivity is bound to increase, as a result of excavation of

gypsum.

Improvement in infrastructure

The project authorities, i.e. RSMML will fund development of some of the

infrastructural facilities in village Jakharda or nearby villages, in consultation with the

village Panchayat. This will improve the status of infrastructure in the area quality of

life of the locals.

CHAPTER-6

ENVIRONMENTAL MANAGEMENT

PLAN


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CHAPTER-6

ENVIRONMENTAL MANAGEMENT PLAN

6.1 GENERAL

The evaluation of impacts of the proposed project, on the overall environment as

worked out in Chapter-5, and has revealed some adverse impacts on important

environmental parameters. In this Chapter, an Environmental Management Plan

(EMP) is outlined to ameliorate or reduce the anticipated negative impacts, through

suitable mitigative measures.

The EMP to be implemented in the proposed mine can be divided into the following

categories:

- air environment; - noise control measures; - water environment; - land environment, and - greenbelt development.

6.2 AIR ENVIRONMENT

In the proposed gypsum mine, water spray has been suggested to reduce the air

pollution. Dust is the most significant pollutant in the mining operation which is

generated during excavation, transportation, dumping, etc. The most efficient

method to reduce dust pollution is by sprinkling of water at the excavated sites,

overburden dumps, etc. It is also proposed to develop greenbelt around the haul

roads to reduce the entrainment of dust. The details of greenbelt development are

given in Section-6.6.

In the proposed project, water sprays and greenbelt development are proposed to

reduce the air pollution. Dust is the most significant pollutant in mining operation

which is generated during excavation, transportation, dumping, vehicular movement,


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etc. The most efficient method to reduce dust pollution is to control the dust at the

source itself. The sprinkling of water at the excavated sites, storage piles,

overburden dumps, etc. will reduce the dust pollution to a large extent.

The haul roads will be maintained properly and the permanent roads will be black

topped to prevent dust pollution. For other temporary roads leading to the excavation

site, overburden areas, etc., water spraying will be done on a regular basis to

minimize the entrainment of fugitive emission. The water requirement for dust

suppression shall be met by water supplied by Public Health Engineering

Department. Mainly canal water shall be used.

The other measures to prevent degradation of ambient air quality are categorised as

below:

Measures to prevent generation and disposal of dust.

Measures to control pollution due to air borne dust.

Measures to be adopted during various mining operation.

Measures to prevent generation and disposal of dust

Measures recommended to prevent generation and disposal of dust are given as

below:

- water spray for dust suppression system or roads which shall be used by vehicles for transportation of gypsum and to meet other requirements.

- water spray for dust suppression at loading faces. - use of sharp teeth of shovels to prevent entrainment of dust.

Measures to be adopted during various mining operations

Recommended measures to control air pollution during various mining activities are

given as below:

Regular maintenance of vehicles and using equipment to minimize emissions.

Labour involved in mining activities to be provided with face masks.

All vehicles involved with mining related operations to have Pollution Under Control

Certificates.


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6.3 NOISE CONTROL MEASURES

As discussed in Chapter-5 the noise levels will have marginal increase in the

ambient noise levels upto about 100 - 200 m from the mine. The increased level of

noise will, however, not have any significant adverse effect as there are no

settlements in proximity to the mine.

The workers shall be provided with effective personal protective measures such as

ear muffs or ear plugs to be worn during periods of exposure.

The other measures to control noise are suggested as below:

- Equipment and machineries should be maintained regularly to keep the noise generation at the design level;

- Silencers and mufflers of the individual machineries to be regularly checked; - Yearly audiometric survey on workers exposed to high noise levels should be

undertaken. - Greenbelt development at various sites. 6.4 WATER ENVIRONMENT

The mine water accumulated during monsoons in the pit needs to be pumped out to

flow through the drains. Suitable provisions need to be made to pump this

accumulated water.

For treatment of effluents generated due to aggregation of labour during mining

operations, it is proposed to be constructed 5 community toilets and 1 septic tank.

The treated effluent from septic tank can be disposed through absorption trenches.

An amount of Rs.2.75 lakh can be earmarked for this purpose. The details are given

in Table-6.1

TABLE-6.1 Cost required for control of water pollution

Unit No. Unit cost (Rs. lakh) Total cost (Rs. lakh)

Septic tank 1 1.50 1.50

Community toilets 5 0.25 1.25

Total 2.75


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Disposal of rain water

The source of water pollution will be mainly runoff into excavated quarry during rains.

At no point, during mining operations of the Jakharda mine, ground water will be

intercepted. Thus, the overall quantity of water flow in the mine area is marginal.

There are minor drains in this area which carry water during rainy season. In rest of

the year, however, these drains remain dry. To channelise the pumped out water to

prevent the accumulation of rain water in pits and cavities, a drainage system will be

developed. This will prevent accumulation of water. The surface drain along the mine

periphery will be so aligned to allow the flow of water under gravity so that water

flows away from the mine. As the quantity of rainfall is very less in the project area,

the overall quantity of water to be pumped from the mine pit and through runoff is

very less.

The cost for above referred measures, has been included in the development of

mine, hence has not been covered in the cost required for implementation of

Environmental Management Plan.

Runoff from stack piles

Another source of water pollution will be mainly washouts from excavated quarry

benches, various stack piles, other quarry areas. During rains, the drains are full with

runoff. In rest of the year, however, these drains remain dry. A drainage system shall

be designed as per the topography of the mine. The garland drains as suggested

earlier will be so aligned, so as to allow water to flow under gravity.

Effluent from workshop and vehicle parking sites

Oil and grease trap and settling tank will be provided for effluents from workshop and

vehicle parking sites. An amount of Rs. 2 lakh has been earmarked for this purpose.


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6.5 LAND ENVIRONMENT

Mining operations, especially open cast mining, generate considerable quantities of

overburden depending upon the nature of occurrence of the deposit, topography of

the area, method of mining adopted, etc. Thus, solid waste management is an

essential component of any mining operation. Disposal of overburden and waste is

normally done in pre-determined locations within the lease area. The overburden

and waste disposal requires stabilization and revegetation to contain the degradation

of land.

The proposed Jakharda gypsum mine would require leasing of land for a maximum

period of 4 to 5 months. The lands are to be reclaimed after extraction of gypsum.

The top soil and the overburden shall be stored separately. The top soil shall be

stripped in layers of 50 mm and placed in layers in proper sequence directly on the

portion of the mine which are yet to be excavated. The top soil would be retained for

subsequent rehabilitation. On excavation, topsoil would be stored in area, where

land reclamation is complete or areas which are yet to be mined, preferably the

latter. Likewise, overburden would also be stored separately. The excavated material

would be covered with tarpaulin under temporary structure and kept moist by regular

spraying of water. After excavation of gypsum, borrow area will be refilled with

overburden and top soil. While refilling the topsoil, efforts should be made to

maintain the order of layers in which they were excavated. The private land after

refilling will be returned back to the farmers.

6.6 GREENBELT DEVELOPMENT

Three rows of trees can be planted along the lease boundary of the mines and along

various roads. Thus, as one of the important components of EMP, greenbelt


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development around and within the proposed mine area site shall be undertaken to

fulfill the following objectives:

- mitigation of fugitive emissions; - noise control; - aesthetics, and - optimum use of wasteland and environmental conservation.

The greenbelt development plan has been evolved for proposed mine site, over a

total area of about 5 ha. An amount of Rs.2.5 lakh @ Rs.50,000/ha needs to be

earmarked for this purpose. The species to be planted under greenbelt development

are listed in Table-6.2.

TABLE-6.2 Species recommended for Greenbelt Development

TREES

- Prosopis juliflora (Khejri)

- Acacia senegal

- Acacia tortilis

- Albizzia lebbeck (Siris)

- Acacia nilotica

- Azadirachta indica (Neem)

BUSHES AND SCRUBS

- Zizyphus numuleria (Ber)

- Capparis aphylla (Kair)

- Calligonum polygonoides (Phog)

- Salvadora oleoides (Jal)

As a part of mine development, it is proposed to implement a plantation program.

About 1000 trees are proposed to be planted in next two years of mine operation.

The plant varieties considered are mainly Babool, Khejri, Neem, etc. The overall

survival rate is expected to be 50-60%. The saplings will be planted in 10 m x 10 m

grid pattern. The trees will be planted during rainy season. The tree species

proposed for after plantation. However, workers will be assigned duties to take care

of the plantations. The details of plantation are outlined in Table-6.3.


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TABLE-6.3 Yearwise plantation programme

Year No. of new plants Replenishment Total plants

First 500 - 500

Second 500 200 700

Total 1000 200 1200

6.7 AREA DEVELOPMENT ACTIVITIES

In the proposed gypsum mine, no R&R Plan is required. However, RSMML will help

the state government agencies in implementing various development programmes in

the area for social upliftment and community development. RSMML as a part of its

policy takes up various aspects of socio-economic development of the villages

adjacent to the mines being operated. In past too, RSMML has developed many

facilities in the village adjoining to the mine area leased. RSMML takes up activities

including:

- Provision of drinking water. - Upgradation of educational facilities - Development of medical facilities - Operation of consumer cooperative stores including Fair Price Shops in the

adjoining villages. - Development of social forestry, pastures, etc. - Promotion of various welfare activities.

For Jakharda gypsum mine, an amount of Rs. 10 lakh has been earmarked for Area

Development Activities. The infrastructure is to be developed in consultation with the

local administration.

CHAPTER-7

ENVIRONMENTAL MONITORING

PROGRAMME


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CHAPTER-7

ENVIRONMENTAL MONITORING PROGRAMME

7.1 OBJECTIVES

Monitoring is the gathering and evaluation of information for assessment of

performance which is assessed based on the success of strategies implemented vis-

a-vis the environmental objectives.

The specific objectives are:

- detection of short and long term trends; - recognition of environmental changes and analyse their causes; - improvement of the monitoring system, and - improvement in practices and procedures for environmental protection.

Monitoring becomes essential to ensure that the mitigation measures planned by

way of environmental protection function effectively during the entire period of mine

operation. The process helps in assessing the performance of the mine. Moreover,

changes external to the project area may at any future stage endanger

environmental conditions rendering the existing mitigation measures inadequate.

Hence, it is necessary to remain vigilant through a well planned and meticulously

implemented environmental monitoring programme.

7.2 AREAS OF CONCERN

From the monitoring point of view the areas of concern are the land use, soil, dust,

noise, plant life, etc. The objective is to establish an "early warning" system of

indicators to detect, if there is a trend that pollution or environmental damage will

exceed permitted levels. Suggested monitoring programme is outlined in the

following Sections of this Chapter.


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7.3 WATER

The sewage before and after treatment from septic tank is recommended to be

monitored once every month. The parameters to be monitored are pH, BOD, COD,

Oil & Grease, DO, Nitrates, Phosphates and Total Dissolved Solids (TDS).

The cost of analysis of each sample will be Rs.2000 per sample. Thus, every year

Rs.0.48 lakh/year will be required for analysis of effluents. The samples can be

analysed from a laboratory recognized by Rajasthan State Pollution Control Board.

7.4 AIR

It is proposed to monitor PM10 PM2.5 for three seasons in a year. Monitoring can be

conducted at locations, one each in upwind direction. The frequency of monitoring at

each station shall be twice a week for four consecutive weeks. Thus, 48 days of

monitoring needs to be done per year. An amount of Rs 0.29 lakh per year can be

earmarked for this purpose. Monitoring can be done by any agency recognized by

Rajasthan State Pollution Control Board.

7.5 NOISE

Noise emissions from vehicular movement, operation of showels and graders, etc.

may be monitored during mining. The monitoring will asses the frequency and

intensity of noise emissions from various sources, and will indicate the extent of

noise exposure at the receptors.

For monitoring of noise generators a Sound Level Meter will be required. It is

recommended to purchase a noise meter for monitoring of ambient noise level

during mine operation phase. An amount of Rs. 1.0 lakh can be earmarked for this

purpose.


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7.6 MINE RECLAIMATION AND GREENBELT DEVELOPMENT

The areas reclaimed in the mine will be monitored in various seasons to assess the

crop growth, ground water level, etc.

7.7 ENVIRONMENTAL MANAGEMENT CELL

Post-project monitoring can be an activity of an Environmental management Cell

(EMC) to be set up at Barmer. The cell can be headed by an Environmental

Engineer, reporting to the Mines Incharge.

The duties of Environmental Management Cell (EMC) shall be to:

implement and coordinate various activities under EMP.

monitor ambient air quality

monitor ambient noise levels.

assess the growth of plants under greenbelt development.

collection of effluent samples.

compilation of data generated by various environmental monitoring activities.

7.8 SUMMARY OF ENVIRONMENTAL MONITORING PROGRAMME

The summary of Post-project Environmental Monitoring Programme is outlined in

Table-7.1.

TABLE-7.1 Summary of Environmental Monitoring Programme

S. No.

Aspect Parameters to be monitored

Frequency Location

1. Treated effluent from septic tank

pH, BOD, COD, DO, Nitrates, Phosphates, Oil & grease, Total Dissolved solids

Once every month

Septic tank

2. Ambient air quality

RPM, SPM Once per season for 2 consecutive days for four consecutive weeks Monitoring is to be done for three seasons in a year

Two stations, one each in upwind & downwind directions of the pre-dominant wind direction


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S. No.

Aspect Parameters to be monitored

Frequency Location

3. Noise Noise level During peak mining activity

In and around the mine area

4. Mine reclamation and Greenbelt development

Growth of various tree species, Requirement of agro-chemicals, etc.

Once in three months

Area under plantation and greenbelt development

CHAPTER-8

PROJECT BENEFITS


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CHAPTER-8

PROJECT BENEFITS

8.1 INTRODUCTION Gypsum deposits in the Rajasthan have been exploited for a long time and is an

eco-friendly exercise, and no major adverse impacts on environment are envisaged.

The gypsum mining has resulted in the overall socio-economic development of the

locals who are living in remote areas without any permanent source of income for

their livelihood. The farmers are taking crops from the mined out lands which were

earlier known as waste/barren land due to presence of hardpan of gypsum on

surface.

8.2 IMPROVEMENT IN PHYSICAL -SOCIAL INFRASTRUCTURE

The proposed project does not envisage any measure which can significantly affect

the physical infrastructure in the project area and its surroundings. However as a

part of Area Development Plan, RSMML will help the state government agencies in

implementing various development programmes in the area for social upliftment and

community development. RSMML as a part of its policy takes up various aspects of

socio-economic development of the villages adjacent to the mines being operated. In

past too, RSMML has developed many facilities in the village adjoining to the mine

area leased. RSMML takes up activities including:

- Provision of drinking water. - Upgradation of educational facilities - Development of medical facilities - Development of social forestry, pastures, etc. - Promotion of various welfare activities.


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For Jakharda gypsum mine, an amount of Rs. 10 lakh has been earmarked by

RSMML for Area Development Activities. The infrastructure is to be developed in

consultation with the gram panchayat and local administration.

8.3 EMPLOYMENT POTENTIAL



village Panchayat. This will improve the quality of life of the locals.

8.4 DISTRIBUTION OF ROYALTY

The project will lead to extraction of about 58.87 lac ton of gypsum over a mine life of

five years. The year wise production is given in Table-8.1.

TABLE-8.1 Details of year wise gypsum production

Year Gypsum production (MT)


Broken Area (m2)

Area reclaimed (m2)


I 414368.42 116967.00 2,39,810 2,39,810 Agriculture to be done over reclaimed areas

II 426540.63 75275.00 1,82,900 1,82,900

III to V Subject acceptance of low grade gypsum from mines by the customer and variation in annual demand from customer.

Total 840909.05 192242.00 4,22,710 4,22,710

The farmers losing land temporarily for a period of 3-4 months will be given

compensation at the rate of Rs. 70 per ton of gypsum extracted from their respective

landholdings. The operation of mine will mitigate the problem of water logging in the

area, due to extraction of impervious gypsum layer. Thus, agricultural productivity is

bound to increase, as a result of excavation of gypsum.

8.5 IMPROVEMENT IN QUALITY OF LAND

Prior to excavation of gypsum, the land is unsuitable for cultivation, as presume of

impervious gypsum layers, blocks the infiltration of irrigation water. Thus, the area


WAPCOS Limited 8-3

becomes water logged, if irrigation is done in such areas. With the extraction of

gypsum land becomes suitable for irrigation, as obstruction to infiltrating groundwater

is removed. Thus, the land becomes suitable for agriculture after extraction of

gypsum, which is a positive impact.

CHAPTER-9

PUBLIC HEARING


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CHAPTER-9

PUBLIC HEARING DETAILS 9.1 INTRODUCTION

The public hearing was conducted on 09.06.2011 and 10.06.2011 at Halibav (Jalore)

and Ramji Ka Gol (Barmer) respectively. In this connection, advertisement was

published in the following newspapers on 10.05.2011:

Rajasthan Patrika

Indian Express

A total of 33 persons attended the public hearing at both the venues. A copy of the

newspaper advertisement and the proceedings of the public hearing are given in

Annexures IV and V respectively.

At the outset, of the public hearing, Mr. B. R. Pawar, Regional Officer, Jodhpur

Regional Office, Rajasthan State Pollution Control Board, gave a brief introduction

about the provisions, objectives, and importance of the public hearing. He explained

to the public that RSMML is having mining lease for mineral gypsum with an area of

336.18 ha (175.5524 ha in district Barmer and 160.6276 ha in district Jalore). The

proposed annual production capacity of Jakharda gypsum mine will be 4.265 lakh

ton per annum, the people attending the public hearing can express their views in

the public hearing or give it in writing about the likely impacts and the specific local

needs of the area.

9.2 KEY ISSUES RAISED DURING PUBLIC HEARING

The key issues raised during public hearing held on 9.6.2011 at village Halibav,

tehsil Sanchore, district Jalore and the response by RSMML are given in Table-9.1.

Likewise, the key issues raised during public hearing held on 10.06.2011 at village


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Ramki ki Gol, tehsil Gudamalani, district Barmer and the response given by RSMML

are given in Table-9.2.

TABLE-9.1 Key issues raised during public hearing held on 09.06.2011 at Village Halibav,

Tehsil Sanchore, District Jalore and the response

Point No.

Name of the Person Name of Village/Department

Brief description of the issue raised

Response by RSMML

1. Shri Jalara S/o DodhRam Vishnoi

He pointed out that environment affected by the mining activities in past. There is a problem of mining operation in forest land and of mosquitos. He demanded the facilities of hospital, schools etc. at Jakharda.

RSMML informed that the disputed land has been excluded at the time of grant of mining lease. The applied area was 625 ha but as on date the sanctioned area is 336.18 ha. It was assured that no forest land lies in RSMML mining lease area. Efforts should be made by the village Sarpanch, Pradhan and other influential villagers to prevent illegal mining by some villagers in forest land situated close to the mining lease area. ADM has visited the proposed mining area and observed that there was no adverse impact on local vegetation due to past mining activities. However, it was observed that the problem of mosquitoes is due to diversion of Narmada canal water in the mining lease area. RSMML assured that if any land under mining in past and had not leveled will be leveled, once mining operations


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Point No.



Response by RSMML

commence after Environment Clearance. As far as school and hospital facilities are concerned, it was informed that whatsoever facility is possible at RSMML level will be dveloped in consulation and discussions with village Sarpanch. At the end, RSMML requested to the person concerned that in the name of illegal mining operations such type of false questions should not be raised to obstruct the efforts made by the state government towards legal mining. Addl. District Magistrate, Jalore confirmed that he has inspected the proposed area for mining operation and assured that if any leveling work is pending it will be completed on commencement of mining after obtaining the Environmental Clearnce. ADM advised that Gramsabha will decide the facilities if any required ADM also advised to submit proposal for plantation activities


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Point No.



Response by RSMML

through Zila Parishad. RSMML agreed to accept any such type of proposal from Zila Parishad. `

Sh.Mohan Lal, Truck Operator

He pointed out that in proposed mining area there is no wildlife. The land is barren and except babool no bushes & vegetation in the area. A truck union with fleet of about 500-600 trucks are working in area and having no business other than transportation of gypsum. Meanwhile one of the villagers informed that about 80% local persons are capable for this business and all are of in favour of resumption of the mining operations.

RSMML assured that efforts are being made to resume the mining operations as early as possible after obtaining the Ennvironmental Clearance.

Sh. Ganpat Lal Bisnoi, Village Sanchore

He pointed that Sanchore truck union is of local persons and having more than 200 trucks. If the mining operations at Jakharda mines resume it will be helpful to provide employment and truck business. It will also in favour to prevent illegal gypsum excavation and its use by some local factories.



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Point No.



Response by RSMML

Sh. Jai Kishan Bisnoi, Village – Sanchore

He informed that he is representative of Binani & Laxmi cement. When the mine was in operation about 700-800 trucks were engaged in gypsum transportation and it is a source of employment in the area. After closure of mines most of the trucks have been sold by the local persons. He informed that no adverse impact on the local environment and he requested to start mining operations.


Sh. Kangaram S/o. Sh. Sukha Ram Village – Halibav

He requested for water sprinkling in and around weighbridge.

RSMML assured that water sprinkling arrangement will be made to minimize air pollution during mining phase.

Sh.Hariram Bisnoi He pointed out that there is no adverse impact on local environment due to mining operation. The mining operations are in favour of villagers.


Sh. Chaina Ram Village Holibav

He pointed out that there is no need to close the mining operations. The mining operations in favour of truck operators and local persons, helps in upliftment of social economic status of villagers.

RSMML assured that efforts are being made to resume the mining operations as early as possible after obtaining the Ennvironmental Clearance


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Point No.



Response by RSMML

Sh.Mangi Lal Choudhary Village – Sanchore

He pointed out that he is driving truck since 1993 and about 80% persons are engaged in such business but after the close of the mining activities as on date only 30% persons are in truck business. Most of the persons left the area for searching jobs in other areas.


TABLE-9.2 Key issues raised during public hearing held on 10.06.2011 at Village Ramki Ki

Gol , Tehsil Guda Malani, District Barmer and the response

Point No.



Response by RSMML

1. Shri Khuma Ram Choudhary , Member, Zila Parishad, Ward No. 14

Suggested RSMML that compensation may be increased from Rs. 40/- per ton to Rs. 90/- per Ton. Stated that the mine should be started at the earliest and there shall not be any adverse impact on the environment. He further stated, in general people are in favour of the project and only those persons are opposing the mine who are involved in illegal mining.

RSMML welcomed his views & has assured to look into the matter as possible. RSMML assured that efforts are being made to resume the mining operations as early as possible after obtaining the Ennvironmental Clearance

2. One of the villagers. Efforts should be made to save the Khejri trees.

RSMML confirmed that all efforts shall be made to save trees in the mine surrounding areas which are likely to be affected by the mine.

3. One of the villagers.

No trees are present due to presence of gypsum bed as the land is saline in nature.

RSMML confirmed that plantation plan in gypsum excavated


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Point No.



Response by RSMML

areas has been proposed in the mining scheme.

4. Shri Ghewae Lal Darji, President, Youth Congress Gram Panchayat Piprali

He was of the opinion that the mine should be started early. He stated that this will help in local employment. He stated that there would be no impact on vegetation or wildlife due to the project.

RSMML assured that efforts are being made to resume the mining operations as early as possible after obtaining the Ennvironmental Clearance

5.

A.D.M. , Barmer

Asked about the works to be undertaken as a part of area development activity

RSMML has given a detailed presentation about the previous development activities in similar projects along with cost details to the satisfaction of the public.

6. Sh. Poonmaram Bishnoi, Village Dhorimanna,

He stated that this will help in generation of local employment. Presently only a few handful people i.e., truck operators are benefited due to illegal mining. If mining is started early, it will help in the overall local employment.

RSMML agreed to his views and assured that they will take up the mine at the earliest on obtaining Environmental Clearance.

7. Sh. Pema Ram, Village Jakharda

He stated that this will help in generation of local employment. Also stressed that proper care should be taken to preserve the environment. Also stated that existing trees should not be disturbed, even if RSMML has to incur lose in terms of not extracting mineral below trees.

RSMML stated that they propose to grow trees as a part of the project. Care shall be taken to protect the trees in the lease and the surrounding areas.

8. Sh. Khuma Ram Choudhary

Opined that no major impact shall be there due to the gypsum mining, hence wants that the mine should be started at the earliest.

RSMML welcomed the views. RSMML also expressed hope that they will take up the mine at the earliest on obtaining


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Point No.



Response by RSMML

Environmental Clearance.

9. One of the villagers. Stated that measures should be taken by RSMML to control mosquito problem due to the accumulation of stagnant water.

RSMML reassured that proper drainage system as suggested in EMP plan shall be adopted. Also fumigation and other remedial measures shall be carried out regularly to control mosquito growth.

CHAPTER-10

COST ESTIMATES


10-1 WAPCOS Limited

CHAPTER-10

COST ESTIMATES

10.1 ENVIRONMENTAL MANAGEMENT PLAN

The total amount to be spent for implementation of Environmental Management Plan

(EMP) is Rs. 18.25 lakh. The details are given in Table-10.1.

TABLE-10.1 Cost of Implementing Environmental Management Plan

S. No. Item Cost (Rs. lakh)

1. Construction of community toilets and septic tanks 2.75

2. Treatment of effluent from Workshop and vehicle parking site

2.00

3. Greenbelt development 2.50

4. Area development activities 10.00

5. Purchase of noise meter 1.00 Total 18.25

RSMML also pays land and crop compensation to the farmers who provide the

gypsum bearing land for excavation at the rate of Rs. 10.0 per metric ton of gypsum

excavated. The crop yield increases after excavation of the gypsum layer from the

agriculture land.

10.2 ENVIRONMENTAL MONITORING PROGRAMME

An amount of Rs. 0.77 lakh/year needs to be earmarked for Environmental

Monitoring Programme. The details are given in Table-10.2.

TABLE-10.2 Cost required for implementation of Environmental Monitoring Programme

S.No. Item Cost (Rs. lakh/yr)

1. Effluent Quality 0.48

2. Ambient air quality 0.29

Total 0.77

CHAPTER-11

SUMMARY AND CONCLUSIONS


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11-1

CHAPTER-11

SUMMARY AND CONCLUSIONS

11.1 SUMMARY

The project will lead to extraction of about 58.87 lac tonne of gypsum over a mine life

of five years. The year wise production is given in Table-11.1.

TABLE-11.1 Details of year wise gypsum production

Year Geological Reserve of Gypsum (MT)

Proposed Gypsum production (MT)


Broken Area (m2)

Area reclaimed (m2)


I 487492 414368.42 116967.00 2,39,810 2,39,810 Agriculture to be done over reclaimed areas

II 501812 426540.63 75275.00 1,82,900 1,82,900

III to V

Subject to acceptance of low grade gypsum from mines by the customer, variation in annual demand from customer & variation in recovery of gypsum from geological reserve.

Total 989304 840909.05 192242.00 4,22,710 4,22,710

Impacts on air quality

There will be emissions of dust due to fugitive sources. The bulk of fugitive

emissions are dust particles generated by mechanical disturbances of granular

substances exposed to the air. The various sources of fugitive dust emissions in the

Jakharda gypsum mine are:

- loading and unloading; - wind erosion of pile surfaces and ground areas around the pile, and - emission from paved and unpaved roads.

The fugitive emissions normally do not travel for a distance beyond 200-500 m

before settling on the ground. They can have negative impacts when settled on

plants, crops and material. The particulates will contain dust and shall be free from

any reactive chemicals, the negative effects of this deposition are marginal. In


WAPCOS Limited

11-2

addition, since, there are no habitations close to the mine site, hence, adverse

impacts on this account are not expected to be significant.

In the proposed mine, the major point source of pollution is due combustion of fuel in

operation of various mining equipment, which will lead to generation of SO2 and

NOx.

Based on the findings of Gaussian Plume Dispersion model, increase in levels of

various pollutants is not expected to be significant as a result of the proposed mining

activities. Thus, no significant impact on ambient air quality is anticipated.

Impacts on noise level

In the pre-project phase, the noise level varies from 39 to 48 dB(A) during day time.

The increase in noise levels at a distance of 10 m, 20 m, 50 m and 100 m, from mine

is expected to be 15 dB(A), 9 dB(A) are 3 dB(A) and 1 dB(A) respectively, in the

worst scenario without any control. The nearest habitations are atleast one km away.

Hence, no impact on ambient noise levels is anticipated.

Impacts due to mine drainage

The annual rainfall in the area is low. Thus, large scale water accumulation in the

mining pit is not anticipated. The minimal quantity of rain water is likely to be

accumulated during monsoons, shall be pumped out.

Impacts due to sewage generation

At present, the major source of water in the project area is rain water. The water

requirements in the mine will be mainly to meet the domestic water requirements.

The disposal of untreated sewage could lead to water pollution and associated public

health problems. The BOD, TDS, etc. are some of the parameters which are quite

high in an untreated sewage. The sewage requires treatment before disposal, so that

no major problems of water pollution are encountered.


WAPCOS Limited

11-3

Impacts due to gypsum extraction

The total area to be leased for Jakharda gypsum mine is 336.18 ha. After excavation

of gypsum, the area will be backfilled. As per the mine plan, land from few families is

likely to be acquired for a period of 3 to 4 months. The area after backfilling and

leveling will be returned back to the farmers.

Prior to excavation of gypsum in most of the cases the land is unsuitable for

cultivation, as presence of an impervious gypsum layers, blocks the infiltration of

irrigation water. Thus, the area becomes water logged, if irrigation is done in such

areas. With the extraction of gypsum land becomes suitable for irrigation, as

obstruction to infiltrating groundwater is removed. Thus, the land becomes more

suitable for agriculture after extraction of gypsum. This is a positive impact.

The proposed mine area lies in arid zone with little or no vegetation. The mine area

is generally barren. The floral species observed in the mine lease area are bushes,

shrubs and few trees of Vilayati Babool, Kikar and Ber. Thus, no significant impacts

on ecology are anticipated as a result of proposed mining.

As a part of the project, it is proposed to develop greenbelt around mine site office,

roads, etc. A total area of about 5 ha is proposed to be brought under Greenbelt

Development. The improvement in agricultural production will also increase the

vegetal cover. This coupled with greenbelt development is a positive impact of the

project or the ecology of the area.

Improvement in Infrastructure



village Panchayat. This will improve the infrastructure quality of life of the locals.


WAPCOS Limited

11-4

Change in Economic Status

The farmers losing land temporarily for a period of 3-4 months will be given

compensation at the rate of Rs. 70/- per ton of gypsum extracted from their

respective landholdings. The operation of mine will mitigate the problem of water

logging in the area, due to extraction of impervious gypsum layer. Thus, agricultural

productivity is bound to increase, as a result of excavation of gypsum.

11.2 CONCLUSIONS

The proposed Jakharda Gypsum mine project is not expected to lead to any

significant adverse impact on Environment. Though some marginal adverse impacts

are envisaged, and shall be ameliorated by implementing various measures outlined

in Environmental Management Plan.

CHAPTER-12

DISCLOSURE OF CONSULTANTS

INVOLVED IN THE EIA STUDY


WAPCOS Limited

12-1

CHAPTER-12

DISCLOSURE OF CONSULTANTS INVOLVED IN THE EIA STUDY

The EIA study has been conducted by WAPCOS Ltd., a government of India

Undertaking under Ministry of Water Resources. WAPCOS Ltd., has a full-

fledged Centre for Environment who has conducted the above referred study.

The list of the Experts involved in the EIA study is given in Table-12.1.

TABLE-12.1 List of Experts involved in the EIA study

S.No. Name Designation Educational Qualification

Experience (Year)

1. Dr. Aman Sharma General Manager

BE (Civil Engg.) ME (Environmental Engg.) PhD(Environmental Engineering)

24

2. Mr. R.V. Ramana Additional Chief Engineer

B.E. (Civil Engineering)

23

3. Dr. R.K. Singh Deputy Chief Scientist

B.Sc. M.Sc. (Botany) Ph.D (Agr. Botany)

16

4. S M Dixit Senior Engineer BE (Civil Engg.) M.Tech (Environmental Engg.)

10

5. Ms. Moumita Mondal Ghosh

Engineer BE (Civil Engg.) M.Tech (Environmental Engg.& Management)

8

ANNEXURES

ANNEXURE-I Drinking water quality standards

Characteristics *Acceptable **Cause for Rejection

Turbidity (units on JTU scale) 2.5 10

Colour (Units on platinum cobalt scale) 5.0 25

Taste and Odour Unobjectionable Unobjectionable

PH 7.0 to 8.5 <6.5 or >9.2

Total Dissolved Solids (mg/l) 500 1500

Total hardness (mg/l) (as CaCO3) 200 600

Chlorides as CD (mg/l) 200 1000

Sulphates (as SO4) 200 400

Fluorides (as F) (mg/l) 1.0 1.5

Nitrates (as NO3) (mg/l) 45 45

Calcium (as Ca) (mg/l) 75 200

Magnesium (as Mg) (mg/l) If there are 250 mg/l of sulphates, Mg content can be increased to a maximum of 125 mg/l with the reduction of sulphates at the rate of 1 unit per every 2.5 units of sulphates

30 150

Iron (as Fe) (mg/l) 0.1 1.0

Manganese (as Mn) (mg/l) 0.05 0.5

Copper (as Cu) (mg/l) 0.05 1.5

Zinc (as Zn) (mg/l) 5.0 15.0

Phenolic compounds (as phenol) (mg/l) 0.001 0.002

Anionic detergents (as MBAS) (mg/l) 0.2 1.0

Mineral Oil (mg/l) 0.01 0.3

Arsenic (as As) (mg/l) 0.05 0.05

Cadmium (as Cd) (mg/l) 0.01 0.01

Chromium (as hexaalent Cr) (mg/l) 0.05 0.05

Cyanides (as CN) (mg/l) 0.05 0.05

Lead (as Pb) (mg/l) 0.1 0.1

Selenium (as Se) (mg/l) 0.01 0.01

Mercury (total as Hg) (mg/l) 0.001 0.001

Polynuclear aromatic hydrocarbons (PAH) 0.2 g/l 0.2 g/l Notes :- *1. The figures indicated under the column `Acceptable’ are the limits upto which water is generally acceptable to the consumers **2 Figures in excess of those mentioned under `Acceptable render the water not

acceptable, but still may be tolerated in the absence of alternative and better source but upto the limits indicated under column “Cause for Rejection” above which are supply will have to be rejected.

ANNEXURE-II

National Ambient Air quality Standards (NAAQS)

S. No.

POLLUTANTS Time Weighted Average

Concentration of Ambient Air

Industrial, Residential Rural and other area

Ecologically Sensitive

area (notified by

Central Government)

Method of Measurement

1 Sulphur Dioxide (SO2) , µg/m3

Annual* 24 hours **

50

80

20

80

-Improved west and Gacke

-Ultraviolet fluorescence

2 Nitrogen Dioxide (NO2) , µg/m3

Annual*

24 hours **

40

80

30

80

- Modified Jacab & Hochheister (Na-Arsentire) -Chemiluminescene

3 Particulate Matter (Size less than 10, µm) or PM10 , µg/m3

Annual*

24 hours **

60

100

60

100

-Gravimetric -TOEM -Beta attenuation

4 Particulate Matter (Size less than 2.5 , µm) or PM2.5, µg/m3

Annual*

24 hours **

40

60

40

60

-Gravimetric -TOEM -Beta attenuation

5 Ozone (O3), µg/m3

8 hours** 1 hour **

100

180

100

180

-UV photometric -Chemiluminescene -Chemial Method

6 Lead (Pb), µg/m3

Annual* 24 hours **

0.50

1.0

0.50

1.0

-AAS/ICP method after sampling on EPM 2000 or equivalent filter paper. - ED-XRF using Teflon filter.

7 Carbon Monoxide (CO) , µg/m3

8 hours** 1 hour **

02

04

02

04

-Non disbersive infrared spectroscopy

8 Ammonia Annual* 100 100 -

S. No.

POLLUTANTS Time Weighted Average

Concentration of Ambient Air

Industrial, Residential Rural and other area

Ecologically Sensitive

area (notified by

Central Government)

Method of Measurement

(NH3), µg/m3 24 hours **

400

400

Chemiluminescene -Indophenol blue method

9 Benzene (C6H6), µg/m3

Annual* 05 05 -Gas chromatography based continuous analyser. -Adsorption and Desorption followed by GC analysis.

10 Benzo (a) Pyrene(BaP)- particulate phase only, ng/m3

Annual* 01 01 -Solvent extraction followed by HPLC/GC analysis

11 Arsenic (As), ng/m3

Annual* 06 06 -AAS/ICP method after sampling on EPM 2000 or equivalent filter paper

12 Nickel (Ni), ng/m3

Annual* 20 20 -AAS/ICP method after sampling on EPM 2000 or equivalent filter paper

* Annual arithmetic mean of minimum 104 measurement in a year at a particular site taken twice a week 24 hourly at a uniform intervals. ** 24 hourly or 08 hourly or 01 hourly monitored values, as applicable, shall be complied with 98% of the time in a year. 2% of the time, they may exceeded the limits but not on two consecutive days of monitoring.

ANNEXURE-III

Ambient noise standards

-------------------------------------------------------------------------------------------------------- Area Category Limits in dB(A) Leq Code of Area ----------------------------------------- Day time Night time -------------------------------------------------------------------------------------------------------- A. Industrial Area 75 70 B. Commercial Area 65 55 C. Residential Area 55 45 D. Silence Zone 50 40 -------------------------------------------------------------------------------------------------------- Note : 1. Day time 6 AM and 9 PM

2. Night time is 9 PM and 6 AM 3. Silence zone is defined as areas upto 100 metres around such

premises as hospitals, educational institutions and courts. The silence zones are to be declared by competent authority. Use of vehicular horns, loudspeakers and bursting of crackers shall be banned in these zone.

4. Environment (Protection) Third Amendment Rules, 2000 Gazettee notification, Government of India, date 14.2.2000.

Annexure-IV

1

ANNEXURE-IV MICRO METERIOLOGICAL DATA (Barmer)

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

01-12-2013 1 6.2 80 0 12 1.3

01-12-2013 2 5.9 77.6 0 Calm Calm

01-12-2013 3 6.4 76.7 0 31 1.2

01-12-2013 4 10 71.9 0 Calm Calm

01-12-2013 5 15.7 63.7 0 6 2.1

01-12-2013 6 22.3 56.1 0 12 2.8

01-12-2013 7 23.9 55.1 0 4 3.4

01-12-2013 8 25.6 53.6 0 356 5.8

01-12-2013 9 27.4 50.4 0 351 8.1

01-12-2013 10 21.3 46.8 0 349 9.3

01-12-2013 11 29.2 43.7 0 356 11.2

01-12-2013 12 30.6 42.2 0 360 12.1

01-12-2013 13 27.2 40.4 0 359 10.2

01-12-2013 14 24.4 41 0 2 5.8

01-12-2013 15 21.6 42.7 0 10 6.3

01-12-2013 16 19.7 45 0 15 4.3

01-12-2013 17 17.6 45.9 0 8 2.1

01-12-2013 18 14.2 48.2 0 10 1.2

01-12-2013 19 12.4 51.4 0 12 2.1

01-12-2013 20 11 53.7 0 9 1.1

01-12-2013 21 9.8 56.6 0 21 2

01-12-2013 22 -System Restart-

01-12-2013 23 8.9 59 0 Calm Calm

01-12-2013 24 8.2 61.5 0 Calm Calm

02-12-2013 1 7.2 64.6 0 Calm Calm

02-12-2013 2 6.2 68.2 0 54 1.6

02-12-2013 3 5.1 70.5 0 64 4.6

02-12-2013 4 6.3 72.4 0 71 2.1

02-12-2013 5 6.7 74.1 0 Calm Calm

02-12-2013 6 12.6 74.3 0 Calm Calm

02-12-2013 7 17.9 70 0 121 1.3

02-12-2013 8 22.4 62.7 0 131 2.1


02-12-2013 10 22.8 56.8 0 Calm Calm

02-12-2013 11 25.6 52.5 0 Calm Calm

02-12-2013 12 26.2 50.8 0 335 1.2

02-12-2013 13 27 46.6 0 340 2.5

Annexure-IV

2

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

02-12-2013 14 27.7 44.2 0 349 4.3

02-12-2013 15 26.5 43.4 0 360 5.5

02-12-2013 16 23.1 44.5 0 352 6.8

02-12-2013 17 19.3 46.1 0 351 8.3

02-12-2013 18 18.5 47.5 0 315 6.3

02-12-2013 19 17.6 49.2 0 320 4.3

02-12-2013 20 15.9 50.7 0 310 2.9

02-12-2013 21 14.5 52.8 0 Calm Calm

02-12-2013 22 13.6 55 0 Calm Calm

02-12-2013 23 12.3 58 0 Calm Calm


03-12-2013 1 11.2 65.1 0 270 2.3

03-12-2013 2 10.7 67 0 265 1.3

03-12-2013 3 9.8 68.6 0 Calm Calm

03-12-2013 4 8.2 69.9 0 Calm Calm

03-12-2013 5 7.4 72 0 234 2.6

03-12-2013 6 6.8 74.8 0 314 1.4

03-12-2013 7 9.3 78.1 0 330 1.3

03-12-2013 8 13.7 76.5 0 349 2.4

03-12-2013 9 17.8 71.8 0 313 7.4

03-12-2013 10 20.1 63.7 0 330 6.8


03-12-2013 12 23.1 59.4 0.3 290 6.1

03-12-2013 13 23.7 55.3 0.5 275 9.4

03-12-2013 14 25.5 51.9 0.6 271 11

03-12-2013 15 25.3 49.7 0.3 278 10.2

03-12-2013 16 24.5 46.3 0.1 276 9.6

03-12-2013 17 22.6 43.4 0.1 291 8.6

03-12-2013 18 20.1 44.6 0 300 6.6

03-12-2013 19 17.8 46.8 0 325 2.3

03-12-2013 20 15.9 47.9 0 331 1.2

03-12-2013 21 13.9 49.5 0 Calm Calm

03-12-2013 22 11.8 51.9 0 351 1.3

03-12-2013 23 11.1 54.7 0 Calm Calm

03-12-2013 24 10.8 59.4 0 Calm Calm

04-12-2013 1 10 61.8 0 341 2.1

04-12-2013 2 Or -System Restart-

04-12-2013 3 8.9 64.5 0 334 5.7

04-12-2013 4 7.2 69.8 0 341 4.7

Annexure-IV

3

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

04-12-2013 5 7 72.1 0 325 6.5

04-12-2013 6 6.6 75.6 0 341 7.1

04-12-2013 7 5.6 76.3 0 354 6.6

04-12-2013 8 6.2 75 0 360 5.3

04-12-2013 9 7 73.4 0 8 5.3

04-12-2013 10 13.1 72.7 0 4 7.2

04-12-2013 11 16.9 70.8 0.1 12 11.9

04-12-2013 12 20.7 62.1 0.1 8 11.2


04-12-2013 14 23.4 57.3 0.4 12 13.2

04-12-2013 15 25.9 53.4 0.3 16 11.8

04-12-2013 16 26.2 51.1 0.7 21 11.2

04-12-2013 17 26.3 48.7 0.2 8 11.4

04-12-2013 18 25.1 45.3 0.2 10 8.3

04-12-2013 19 22.5 43.4 0.3 360 7.4

04-12-2013 20 21.5 44.1 0 360 4.2

04-12-2013 21 17.5 46.9 0 5 3.1

04-12-2013 22 15.3 49.7 0 9 2.1

04-12-2013 23 12.8 53.7 0 Calm Calm

04-12-2013 24 12.1 56.9 0 Calm Calm

05-12-2013 1 11.7 58.1 0 4 1.2

05-12-2013 2 10.3 61.3 0 8 2.1

05-12-2013 3 9.1 62.1 0 Calm Calm


05-12-2013 5 7.8 62.4 0 335 2

05-12-2013 6 7.4 66.8 0 321 1.9

05-12-2013 7 6.3 53.2 0 325 3.2

05-12-2013 8 5.8 62.4 0 313 5.4

05-12-2013 9 5.1 59.2 0 313 6.4

05-12-2013 10 4.9 70.5 0 325 7.1

05-12-2013 11 5.8 67.2 0 336 7.1

05-12-2013 12 8.7 66.1 0 346 6.2

05-12-2013 13 14.9 60.3 0.1 335 7.2

05-12-2013 14 18.8 53.4 0.2 334 8.9


05-12-2013 16 22.1 49.1 0.4 325 11.2

05-12-2013 17 24.2 47.3 0.2 312 7.2

05-12-2013 18 25.3 45.9 0.5 325 5.1

05-12-2013 19 26 43.2 0.3 331 3.4

Annexure-IV

4

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

05-12-2013 20 24.1 42.1 0.3 310 2.1

05-12-2013 21 22.8 41.5 0.1 Calm Calm

05-12-2013 22 21 39.4 0 Calm Calm

05-12-2013 23 19.2 40 0 315 1.2

05-12-2013 24 17.8 42 0 326 2.1

06-12-2013 1 16.7 44.6 0 Calm Calm

06-12-2013 2 15.3 46.3 0 Calm Calm

06-12-2013 3 13.4 46 0 Calm Calm

06-12-2013 4 12.1 48.1 0 171 1.5

06-12-2013 5 11 51.3 0 196 3.1


06-12-2013 7 10.1 52.6 0 211 5.9

06-12-2013 8 9.3 53.4 0 196 3.9

06-12-2013 9 8.5 55.3 0 217 6.1

06-12-2013 10 7.8 58.1 0 226 4.4

06-12-2013 11 7.1 61.8 0 231 6

06-12-2013 12 7.8 64.5 0 234 5.3

06-12-2013 13 8.4 66.9 0 241 5.5

06-12-2013 14 12.1 68.4 0 256 5.8

06-12-2013 15 16.7 61.2 0.1 269 7.4

06-12-2013 16 20.4 50.8 0.2 281 6.2


06-12-2013 18 22.8 42.8 0.2 356 6.9

06-12-2013 19 25.1 38.7 0.7 360 8

06-12-2013 20 26.4 36.4 0.5 354 4.9

06-12-2013 21 26.7 35.2 0.3 12 2.5

06-12-2013 22 24.6 33 0.2 Calm Calm

06-12-2013 23 22.8 32.4 0 Calm Calm

06-12-2013 24 21.7 34.1 0 13 1.2

07-12-2013 1 19.8 37.2 0 Calm Calm

07-12-2013 2 18.6 39.8 0 360 1.6

07-12-2013 3 16.6 43.5 0 Calm Calm

07-12-2013 4 15.4 46.1 0 Calm Calm

07-12-2013 5 14 48.9 0 283 1.6

07-12-2013 6 12.8 51.2 0 343 3

07-12-2013 7 12.2 53.7 0 327 3.5


07-12-2013 9 11.5 56 0 343 2.6

07-12-2013 10 10.2 59.2 0 333 4.3

Annexure-IV

5

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

07-12-2013 11 9.4 63.4 0 335 4.6

07-12-2013 12 8.6 69.5 0 347 6.4

07-12-2013 13 9.3 71.2 0 352 6.6

07-12-2013 14 10.2 72.8 0 351 5.5

07-12-2013 15 12 72.6 0 337 5.2

07-12-2013 16 15.2 70.1 0 327 2.9

07-12-2013 17 18.6 67.1 0.1 332 1.6

07-12-2013 18 20.7 61.6 0.2 342 1.1


07-12-2013 20 23.2 56.8 0.6 Calm Calm

07-12-2013 21 23.8 50.9 0.3 Calm Calm

07-12-2013 22 24.6 47.5 0.5 360 1.2

07-12-2013 23 25.4 46.1 0.1 Calm Calm

07-12-2013 24 25 44.6 0 7 1.6

08-12-2013 1 23.7 44 0 Calm Calm

08-12-2013 2 21.6 44.8 0 27 1.3

08-12-2013 3 20.3 45.1 0 35 2.5

08-12-2013 4 19.4 45.8 0 12 3.8

08-12-2013 5 18.2 47.6 0 32 7.1

08-12-2013 6 17 51.6 0 26 5.7

08-12-2013 7 15.6 54.8 0 18 6.2

08-12-2013 8 15.2 57.1 0 19 3.7

08-12-2013 9 14.4 62.4 0 25 3.9


08-12-2013 11 13.9 63.7 0 22 3.4

08-12-2013 12 12.5 65.8 0 26 2.5

08-12-2013 13 10.2 68 0 61 2.4

08-12-2013 14 8 71.8 0 10 2.2

08-12-2013 15 7.2 74.8 0 10 4.3

08-12-2013 16 7 76.1 0 116 3

08-12-2013 17 7.9 75.4 0 106 3.4

08-12-2013 18 13.7 73.7 0 108 3.6

08-12-2013 19 18.6 71 0.2 111 3.9

08-12-2013 20 19.8 65.1 0.1 105 1.9


08-12-2013 22 21.4 59.4 0.3 44 1.9

08-12-2013 23 21.9 57.1 0.6 Calm Calm

08-12-2013 24 22.5 55.2 0.7 Calm Calm

09-12-2013 1 23.3 47.2 0.3 353 1.2

Annexure-IV

6

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

09-12-2013 2 22.8 41.6 0.1 334 2.1

09-12-2013 3 21.3 38.2 0.1 Calm Calm

09-12-2013 4 19.4 35.7 0 Calm Calm

09-12-2013 5 17.9 42.5 0 4 1.6

09-12-2013 6 15.8 46.8 0 360 2.8

09-12-2013 7 13.5 51.3 0 6 4

09-12-2013 8 11.7 57.7 0 360 1.8

09-12-2013 9 10.6 61.2 0 354 2.3

09-12-2013 10 9.8 66.4 0 354 3.1

09-12-2013 11 9.1 69.1 0 355 3.7


09-12-2013 13 8.7 73.2 0 10 6.7

09-12-2013 14 8.3 76.2 0 335 10

09-12-2013 15 7.8 78.4 0 334 4.8

09-12-2013 16 7 79.5 0 351 9.4

09-12-2013 17 6.8 80.3 0 8 5.8

09-12-2013 18 6.5 79.1 0 12 5.6

09-12-2013 19 7.4 76.4 0 16 5

09-12-2013 20 10.9 72.1 0 15 4

09-12-2013 21 14.5 68.3 0.1 24 2.6

09-12-2013 22 17.5 64 0.2 21 1.9


09-12-2013 24 22.1 63.8 0.4 Calm Calm

10-12-2013 1 24.3 51.3 0.6 34 1.1

10-12-2013 2 24.9 43.5 0.7 Calm Calm

10-12-2013 3 25 41 0.2 Calm Calm

10-12-2013 4 24.7 38.4 0.1 36 1.3

10-12-2013 5 21.8 36.1 0.1 Calm Calm

10-12-2013 6 18.2 38.2 0 Calm Calm

10-12-2013 7 16.3 41.5 0 2 1.8

10-12-2013 8 14.2 44.8 0 8 1.9

10-12-2013 9 12.8 47.1 0 18 3

10-12-2013 10 11.1 48.7 0 30 2.1

10-12-2013 11 10.6 50.7 0 54 2.8

10-12-2013 12 10.2 56.4 0 64 1.6

10-12-2013 13 9.6 63.7 0 120 1.1


10-12-2013 15 9.6 67.4 0 149 6

10-12-2013 16 9 71.2 0 153 6.9

Annexure-IV

7

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

10-12-2013 17 8.4 74.9 0 148 7.7

10-12-2013 18 7.9 77.4 0 138 4.5

10-12-2013 19 7.1 78.9 0 118 2.1

10-12-2013 20 7.9 80.2 0 Calm Calm

10-12-2013 21 13.4 78.9 0 112 1.3

10-12-2013 22 18.2 74.1 0 Calm Calm

10-12-2013 23 21.3 71.4 0.1 89 1.3

10-12-2013 24 23.5 64.1 0.2 90 2.1


11-12-2013 2 24.3 58.6 0.5 81 1.1

11-12-2013 3 25.4 50.3 0.3 Calm Calm

11-12-2013 4 26 44.8 0.7 Calm Calm

11-12-2013 5 26.7 31.5 0.3 Calm Calm

11-12-2013 6 24.7 28.6 0.1 340 1.2

11-12-2013 7 22.1 29 0.1 341 2.6

11-12-2013 8 20 35.1 0 332 2.7

11-12-2013 9 17.2 41.6 0 354 3.6

11-12-2013 10 15.8 46 0 346 4.3

11-12-2013 11 15.5 49.5 0 331 3.9

11-12-2013 12 15 54.1 0 341 6.2

11-12-2013 13 14.3 62.4 0 315 8.7

11-12-2013 14 13.8 64.2 0 313 7.3

11-12-2013 15 12.6 66.7 0 310 6.8


11-12-2013 17 11.8 69.1 0 271 6.5

11-12-2013 18 11.2 72.5 0 270 5.6

11-12-2013 19 10.3 73.8 0 282 3.4

11-12-2013 20 9.8 75.4 0 293 1.6

11-12-2013 21 9.4 76.1 0 Calm Calm

11-12-2013 22 10.3 76.8 0 Calm Calm

11-12-2013 23 12.3 76 0 360 1.3

11-12-2013 24 12.8 73.2 0 Calm Calm

12-12-2013 1 15.1 71 0 Calm Calm

12-12-2013 2 18.4 64.1 0.2 334 1.2


12-12-2013 4 20.7 60.2 0.3 Calm Calm

12-12-2013 5 22.3 55.1 0.4 313 1.2

12-12-2013 6 24.1 47.3 0.5 331 3.1

12-12-2013 7 24.7 41.5 0.2 341 2.1

Annexure-IV

8

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

12-12-2013 8 23.1 35.2 0.1 325 3.1

12-12-2013 9 20.2 34.3 0.1 334 4.5

12-12-2013 10 18.2 32.8 0 354 5.4

12-12-2013 11 16.4 31.5 0 356 7.1

12-12-2013 12 14.3 32.4 0 360 8.2

12-12-2013 13 13.1 37.5 0 12 7.4

12-12-2013 14 11.8 48.1 0 8 9.2

12-12-2013 15 11.3 56.1 0 10 5.6

12-12-2013 16 9.9 63.1 0 6 4.2

12-12-2013 17 8.7 63 0 21 3.1


12-12-2013 19 8.6 65.1 0 13 3.2

12-12-2013 20 8.4 70.1 0 14 2.1

12-12-2013 21 8.2 72.6 0 12 1.1

12-12-2013 22 7.6 75.3 0 21 1.3

12-12-2013 23 6.7 76.8 0 Calm Calm

12-12-2013 24 5.8 78.1 0 Calm Calm

13-12-2013 1 6.4 78.7 0 15 1.3

13-12-2013 2 7.9 78.6 0 12 1.6

13-12-2013 3 9 62.3 0.1 Calm Calm

13-12-2013 4 14.1 49.7 0.1 Calm Calm


13-12-2013 6 17.6 46.2 0.2 Calm Calm

13-12-2013 7 20.5 44.1 0.4 Calm Calm

13-12-2013 8 21.9 43 0.3 75 2.1

13-12-2013 9 23.2 41.5 0.3 60 3.4

13-12-2013 10 21.5 40.8 0.2 55 4.3

13-12-2013 11 18.6 40.3 0.1 50 3.2

13-12-2013 12 16.6 39.6 0 45 2.1

13-12-2013 13 14.8 41 0 Calm Calm

13-12-2013 14 14.5 41.9 0 Calm Calm

13-12-2013 15 13.1 43.6 0 75 1.5

13-12-2013 16 10.8 45.7 0 78 3.9

13-12-2013 17 10 50.6 0 79 4.5

13-12-2013 18 9.4 57.4 0 71 5.5

13-12-2013 19 8.3 62.4 0 66 4.9


13-12-2013 21 7.5 65.7 0 Calm Calm

13-12-2013 22 6.5 67.8 0 Calm Calm

Annexure-IV

9

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

13-12-2013 23 5.9 70.1 0 54 1.6

13-12-2013 24 5.4 72 0 51 1.1

14-12-2013 1 5 75.6 0 Calm Calm

14-12-2013 2 5.4 76.2 0 Calm Calm

14-12-2013 3 6.1 76.7 0 41 2.1

14-12-2013 4 10.2 76.2 0 21 2.3

14-12-2013 5 14.3 73.5 0.1 36 2.4

14-12-2013 6 17 65.1 0.1 35 3.4


14-12-2013 8 20.5 57.9 0.2 31 4.6

14-12-2013 9 21.9 51.4 0.3 26 5.1

14-12-2013 10 22.9 48.3 0.4 10 9.1

14-12-2013 11 23.8 45.9 0.3 13 12.1

14-12-2013 12 24.2 41.5 0.1 8 8.3

14-12-2013 13 23 39.4 0.1 5 7.4

14-12-2013 14 20.3 38.2 0 340 4.6

14-12-2013 15 16.5 39.8 0 330 3.8

14-12-2013 16 13.4 40.9 0 325 4.4

14-12-2013 17 11.4 43.6 0 319 3.7

14-12-2013 18 10.7 46.8 0 327 4.9

14-12-2013 19 9.9 48.3 0 315 3.4

14-12-2013 20 8.8 50.9 0 321 2.9

14-12-2013 21 7 55.1 0 Calm Calm


14-12-2013 23 6.7 55.6 0 Calm Calm

14-12-2013 24 6.2 57.1 0 317 1.3

15-12-2013 1 5.6 65.1 0 312 2.1

15-12-2013 2 4.7 69.4 0 Calm Calm

15-12-2013 3 4 76.4 0 Calm Calm

15-12-2013 4 4.8 74.9 0 Calm Calm

15-12-2013 5 6.4 71.2 0 331 1.9

15-12-2013 6 7.5 70.1 0 325 2.1

15-12-2013 7 12.7 68.5 0.2 326 2.5

15-12-2013 8 16.1 63.3 0.2 313 1.8


15-12-2013 10 17 61.5 0.4 341 3.5

15-12-2013 11 18.8 52.4 0.6 346 3.2

15-12-2013 12 20.1 45.2 0.1 350 5.2

15-12-2013 13 21.5 40.5 0.2 340 6.8

Annexure-IV

10

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

15-12-2013 14 22.1 39.6 0.1 315 9.4

15-12-2013 15 21.2 38.4 0 306 11.2

15-12-2013 16 18.2 39 0 300 6.1

15-12-2013 17 16.3 42.3 0 289 4.8

15-12-2013 18 15 45.7 0 271 3.1

15-12-2013 19 12.3 47.5 0 277 2.1

15-12-2013 20 10.3 49.2 0 251 1.8

15-12-2013 21 9.2 50.8 0 257 1.3

15-12-2013 22 7.5 56.3 0 Calm Calm

15-12-2013 23 7 64.7 0 262 1.1


16-12-2013 1 6.2 68.5 0 Calm Calm

16-12-2013 2 5.8 72.6 0 241 1.6

16-12-2013 3 5.1 74.5 0 Calm Calm

16-12-2013 4 4.6 76.4 0 Calm Calm

16-12-2013 5 4.1 77.9 0 267 1.3

16-12-2013 6 3.8 78.6 0 268 3.9

16-12-2013 7 5 78.8 0 291 4.5

16-12-2013 8 6.6 79.5 0 300 5.3

16-12-2013 9 7.6 76.8 0 264 6.3

16-12-2013 10 10.3 66.4 0.1 254 7.4


16-12-2013 12 11.9 48.6 0.2 263 10.1

16-12-2013 13 13.4 40 0.5 265 11.2

16-12-2013 14 15.1 37.4 0.5 289 10.2

16-12-2013 15 15.8 37 0.2 293 11.2

16-12-2013 16 17.2 37.2 0.1 295 9.3

16-12-2013 17 14.5 36.9 0.1 339 6.4

16-12-2013 18 11.8 41.6 0 345 3.4

16-12-2013 19 10.6 50.3 0 353 2.3

16-12-2013 20 9.2 58.4 0 338 1.1

16-12-2013 21 7.4 63.7 0 Calm Calm

16-12-2013 22 6.6 71 0 Calm Calm

16-12-2013 23 5.8 74.2 0 340 1.1

16-12-2013 24 5.1 75.9 0 Calm Calm

17-12-2013 1 4.6 76.8 0 Calm Calm


17-12-2013 3 3.8 77.5 0 Calm Calm

17-12-2013 4 3.4 78.9 0 Calm Calm

Annexure-IV

11

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

17-12-2013 5 3.6 80.3 0 225 1.5

17-12-2013 6 3.8 67.2 0 236 2.4

17-12-2013 7 3.7 64.8 0 238 2.6

17-12-2013 8 4.8 59.4 0 201 2.7

17-12-2013 9 6.2 52.4 0 195 1.8

17-12-2013 10 9.7 50.3 0 171 2

17-12-2013 11 13 47.2 0.1 176 3.7

17-12-2013 12 16.9 44.2 0.1 194 3.4


17-12-2013 14 20.1 43 0.3 194 5.6

17-12-2013 15 22.1 42.4 0.4 211 8.3

17-12-2013 16 23.1 42.1 0.4 221 6.5

17-12-2013 17 23.8 41.6 0.6 212 4.3

17-12-2013 18 24 41.1 0.2 216 2.9

17-12-2013 19 21.8 40.7 0.1 234 2.1

17-12-2013 20 17.8 41 0 221 1.3

17-12-2013 21 15.2 41.8 0 Calm Calm

17-12-2013 22 14.1 44.2 0 Calm Calm

17-12-2013 23 12.7 51.6 0 217 1.1

17-12-2013 24 11.6 55.8 0 Calm Calm

18-12-2013 1 10.7 57.4 0 Calm Calm

18-12-2013 2 9.8 52.4 0 335 1.3

18-12-2013 3 8.4 54.8 0 332 2.1


18-12-2013 5 7.8 57.4 0 336 1.2

18-12-2013 6 7.1 62.8 0 341 3.3

18-12-2013 7 6.5 68.1 0 356 2.8

18-12-2013 8 5.8 77.2 0 25 3.4

18-12-2013 9 5.2 79.9 0 36 4.5

18-12-2013 10 5.8 78.1 0 58 5.7

18-12-2013 11 7 76.4 0 90 5.8

18-12-2013 12 9.8 75.9 0 96 4.9

18-12-2013 13 13.6 68.3 0.1 75 5.5

18-12-2013 14 16.8 59.1 0.2 61 6.3


18-12-2013 16 19.4 54.3 0.4 44 4

18-12-2013 17 20.5 50.3 0.3 51 4.3

18-12-2013 18 21.2 47.5 0.5 34 3.6

18-12-2013 19 22.5 44.9 0.3 11 2.1

Annexure-IV

12

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

18-12-2013 20 23.1 43.7 0.1 12 1.1

18-12-2013 21 18.8 43 0.1 Calm Calm

18-12-2013 22 16.6 42.6 0 Calm Calm

18-12-2013 23 12.8 44.6 0 8 1.3

18-12-2013 24 12 48.9 0 10 1.4

19-12-2013 1 10.3 51.3 0 Calm Calm

19-12-2013 2 8.9 56.8 0 Calm Calm

19-12-2013 3 6.7 60.1 0 315 1.3

19-12-2013 4 5.3 66.5 0 312 2.7

19-12-2013 5 4.7 68.4 0 320 3.6


19-12-2013 7 5 74.6 0 305 2.5

19-12-2013 8 4.8 77.4 0 309 3.9

19-12-2013 9 4.5 78.9 0 331 5.8

19-12-2013 10 4.2 79 0 335 4.8

19-12-2013 11 3.9 80.2 0 324 8.3

19-12-2013 12 3.8 77.1 0 332 6.4

19-12-2013 13 4.3 75.8 0 319 5.5

19-12-2013 14 6.3 74.9 0 317 4.6

19-12-2013 15 11.3 69.1 0.1 316 4.6

19-12-2013 16 12.5 63.4 0.1 325 4.1


19-12-2013 18 15 59.1 0.2 340 4.7

19-12-2013 19 16.6 55.4 0.4 356 3.4

19-12-2013 20 19.1 53.2 0.6 360 2.5

19-12-2013 21 19.8 50.8 0.5 359 2.4

19-12-2013 22 20.4 48.2 0.2 8 2.1

19-12-2013 23 20 44.9 0.1 6 1.2

19-12-2013 24 19.1 40.8 0 Calm Calm

20-12-2013 1 14.5 46.2 0 Calm Calm

20-12-2013 2 12.8 52.3 0 12 2.1

20-12-2013 3 10.6 57.4 0 21 1.7

20-12-2013 4 9.7 63.4 0 Calm Calm

20-12-2013 5 6.8 66.9 0 Calm Calm

20-12-2013 6 5.9 71.3 0 46 2.1

20-12-2013 7 5.2 74.5 0 39 4.3


20-12-2013 9 5 76.8 0 3 7.8

20-12-2013 10 4.5 79.1 0 1 8.9

Annexure-IV

13

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

20-12-2013 11 3.9 79.8 0 21 11.1

20-12-2013 12 3.1 80.5 0 28 10.2

20-12-2013 13 4.8 71.6 0 24 8.9

20-12-2013 14 6.6 82.1 0 22 10.1

20-12-2013 15 7.7 81.4 0 12 12.1

20-12-2013 16 11.4 78.2 0 17 6.9

20-12-2013 17 16.2 71.1 0.1 23 4.5

20-12-2013 18 17.1 62.3 0.1 29 3.1


20-12-2013 20 18.6 53.4 0.3 23 1.2

20-12-2013 21 21.2 47.1 0.4 39 1.2

20-12-2013 22 21.7 43.2 0.6 Calm Calm

20-12-2013 23 22.7 42.8 0.3 Calm Calm

20-12-2013 24 22.4 42 0.1 Calm Calm

21-12-2013 1 23.5 41.5 0 356 1.3

21-12-2013 2 20.6 41.5 0 340 1.2

21-12-2013 3 18.6 43.6 0 Calm Calm

21-12-2013 4 17.6 46.2 0 Calm Calm

21-12-2013 5 14.3 53.8 0 341 1.3

21-12-2013 6 11.8 56.7 0 335 2.9

21-12-2013 7 10.4 57.8 0 340 2.3

21-12-2013 8 9 59.6 0 345 2.7

21-12-2013 9 6.6 64.3 0 320 2.5


21-12-2013 11 5.8 67.2 0 312 4.5

21-12-2013 12 4.9 69.4 0 312 5.6

21-12-2013 13 4.6 72.6 0 331 6.3

21-12-2013 14 4.1 74.9 0 329 8.1

21-12-2013 15 3.8 76.9 0 335 7.2

21-12-2013 16 4.7 78.3 0 319 4.3

21-12-2013 17 5.2 80 0 288 3.6

21-12-2013 18 5.8 80.8 0 293 3.1

21-12-2013 19 7.4 80.1 0.1 284 2.1

21-12-2013 20 8.8 69.4 0.1 341 2.3


21-12-2013 22 10.3 59.1 0.3 Calm Calm

21-12-2013 23 11.4 54.2 0.4 Calm Calm

21-12-2013 24 14.9 48.2 0.6 Calm Calm

22-12-2013 1 18.2 46.2 0.4 8 1.6

Annexure-IV

14

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

22-12-2013 2 21.8 44.1 0.1 6 2.1

22-12-2013 3 19 43.5 0.1 Calm Calm

22-12-2013 4 16.5 42.9 0 Calm Calm

22-12-2013 5 14.7 41.8 0 Calm Calm

22-12-2013 6 12.2 42.6 0 85 1.6

22-12-2013 7 10.8 43.1 0 93 3.8

22-12-2013 8 10 48.1 0 99 5.2

22-12-2013 9 9.1 52.3 0 95 4.4

22-12-2013 10 8 57.1 0 78 4.7

22-12-2013 11 7.5 61.3 0 66 7.9


22-12-2013 13 7 66.8 0 51 3.6

22-12-2013 14 6.3 69.4 0 43 4.2

22-12-2013 15 5.8 72.5 0 23 3.4

22-12-2013 16 5.5 73.1 0 12 4.3

22-12-2013 17 4.9 76.4 0 2 5.3

22-12-2013 18 4.7 77.3 0 4 3

22-12-2013 19 5.9 78.7 0 13 2.3

22-12-2013 20 10.1 80.6 0 12 1.2

22-12-2013 21 11.2 77.4 0.1 Calm Calm

22-12-2013 22 15.8 67.4 0.1 16 1.3


22-12-2013 24 18.5 58.3 0.4 Calm Calm

23-12-2013 1 21 51.4 0.5 65 2.1

23-12-2013 2 22.5 48.4 0.6 Calm Calm

23-12-2013 3 23.2 43.5 0.3 Calm Calm

23-12-2013 4 22 42.1 0.1 92 1.2

23-12-2013 5 20.4 41.5 0.1 81 2.1

23-12-2013 6 18.6 41 0 74 3.1

23-12-2013 7 16.1 42.3 0 61 5.5

23-12-2013 8 13.4 43.1 0 71 4.3

23-12-2013 9 12.5 44.6 0 56 5.3

23-12-2013 10 11.8 50.7 0 54 3.4

23-12-2013 11 11.1 60.8 0 45 1.3

23-12-2013 12 10.3 66.7 0 16 1.1

23-12-2013 13 8.7 70.2 0 Calm Calm


23-12-2013 15 7.8 70.9 0 42 2.1

23-12-2013 16 6.9 71.5 0 47 3.4

Annexure-IV

15

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

23-12-2013 17 6.2 73.4 0 60 5.4

23-12-2013 18 5.4 75.8 0 73 6.2

23-12-2013 19 4.7 76.8 0 78 4.1

23-12-2013 20 4 78.6 0 30 3.1

23-12-2013 21 4.7 80.1 0 33 2.1

23-12-2013 22 7.2 79.1 0 Calm Calm

23-12-2013 23 8.4 75.4 0.1 Calm Calm

23-12-2013 24 11.8 55.4 0.1 31 1.1


24-12-2013 2 15.6 44.2 0.3 Calm Calm

24-12-2013 3 18.9 40.1 0.5 34 1.6

24-12-2013 4 21.3 39.1 0.7 Calm Calm

24-12-2013 5 22.7 37.8 0.4 Calm Calm

24-12-2013 6 23.9 37 0.1 75 1.2

24-12-2013 7 22.1 37.4 0.1 76 2.1

24-12-2013 8 19.3 39.7 0 82 1.3

24-12-2013 9 16.5 33.2 0 121 1.8

24-12-2013 10 14.6 40.1 0 Calm Calm

24-12-2013 11 13.5 48.5 0 Calm Calm

24-12-2013 12 12.4 53.4 0 164 2.1

24-12-2013 13 10.5 56.2 0 184 3.1

24-12-2013 14 9.5 57.1 0 175 4.5

24-12-2013 15 7.9 60.7 0 199 8.1

24-12-2013 16 7.9 60.7 0 211 11.2

24-12-2013 17 7 63.4 0 217 13.2

24-12-2013 18 6.2 65 0 211 9.5

24-12-2013 19 5.7 66.9 0 225 5.1

24-12-2013 20 5.1 69.8 0 205 2.1

24-12-2013 21 4.6 75.4 0 226 1.2

24-12-2013 22 5.1 77.8 0 Calm Calm

24-12-2013 23 6 75.8 0 Calm Calm

24-12-2013 24 9.8 72.4 0 Calm Calm

25-12-2013 1 12.5 61.8 0 305 1.3

25-12-2013 2 15.6 55.9 0.1 301 2.1

25-12-2013 3 15.6 55.9 0 Calm Calm

25-12-2013 4 19.8 46.8 0.3 Calm Calm

25-12-2013 5 22 43.1 0.5 295 1.6

25-12-2013 6 22.7 38.5 0.5 271 2.5

25-12-2013 7 23.4 37.1 0.4 261 3.6

25-12-2013 8 22.6 36.3 0.2 256 5.4

25-12-2013 9 20.8 36 0.1 264 3.6

Annexure-IV

16

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

25-12-2013 10 19.1 38.2 0 301 2.3

25-12-2013 11 16.9 40.6 0 306 1.2

25-12-2013 12 15.4 44.8 0 301 1.1

25-12-2013 13 13.2 46.9 0 Calm Calm

25-12-2013 14 11.4 52 0 Calm Calm

25-12-2013 15 10.1 58.6 0 261 1.6

25-12-2013 16 8.9 62.3 0 266 4.5

25-12-2013 17 7 65.4 0 272 5.6

25-12-2013 18 6.9 65.4 286 6.4

25-12-2013 19 6.2 67.5 0 300 3.6

25-12-2013 20 5.7 69.4 0 305 2.8

25-12-2013 21 5.2 71.3 0 Calm Calm

25-12-2013 22 4.4 73.5 0 354 2.1

25-12-2013 23 3.9 75.6 0 Calm Calm

25-12-2013 24 3.7 78.1 0 Calm Calm

26-12-2013 1 4.3 74.1 0 Calm Calm

26-12-2013 2 8.9 65.4 0 351 1.6

26-12-2013 3 14.5 61.3 0.1 Calm Calm

26-12-2013 4 18.2 57.4 0.1 24 1.5


26-12-2013 6 21.4 47.6 0.2 45 4.6

26-12-2013 7 23.1 42.5 0.4 52 3.9

26-12-2013 8 24.1 40.9 0.5 91 4.9

26-12-2013 9 25.1 38.7 0.3 92 2.9

26-12-2013 10 25 38.4 0.1 93 2.4

26-12-2013 11 22.2 38.4 0.1 Calm Calm

26-12-2013 12 19.1 40.7 0 Calm Calm

26-12-2013 13 14.2 46.8 0 64 2.6

26-12-2013 14 11.9 49.6 0 51 3.2

26-12-2013 15 10.5 53.7 0 42 4.6

26-12-2013 16 9.8 57.8 0 21 3.2

26-12-2013 17 9.3 61.8 0 15 4.1

26-12-2013 18 8.1 63.7 0 360 2.1

26-12-2013 19 7.3 65.7 0 351 1.9


26-12-2013 21 6.7 66.9 0 8 1.4

26-12-2013 22 6.4 68.1 0 Calm Calm

26-12-2013 23 5.8 70.8 0 Calm Calm

26-12-2013 24 5.3 73.2 0 12 1.6

27-12-2013 1 5.1 74.9 0 6 2.1

Annexure-IV

17

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

27-12-2013 2 4.9 77.9 0 356 2.6

27-12-2013 3 5.5 72.1 0 Calm Calm

27-12-2013 4 9.8 66.4 0 Calm Calm

27-12-2013 5 13.2 60.5 0.1 23 2.6

27-12-2013 6 15.9 57.2 0.1 45 3.5


27-12-2013 8 19.1 46.8 0.2 32 8.7

27-12-2013 9 22 41.2 0.4 5 11.6

27-12-2013 10 22.4 38.1 0.6 356 8.1

27-12-2013 11 23.2 37 0.3 1 6.4

27-12-2013 12 24.2 37.1 0.1 4 5.3

27-12-2013 13 22.8 36.8 0.1 2 2.1

27-12-2013 14 18.4 38.4 0 359 1.2

27-12-2013 15 15.8 40.3 0 6 2.3

27-12-2013 16 14.9 42.1 0 7 1.2

27-12-2013 17 12.6 44.5 0 12 2.1

27-12-2013 18 11.7 47.2 0 Calm Calm

27-12-2013 19 10.3 56.4 0 8 1.3

27-12-2013 20 9.5 64.3 0 12 2.4

27-12-2013 21 8.3 64.7 0 13 3.1


27-12-2013 23 7.6 68.2 0 Calm Calm

27-12-2013 24 6.7 71.3 0 Calm Calm

28-12-2013 1 6.3 73 0 14 1.6

28-12-2013 2 5.6 74.9 0 Calm Calm

28-12-2013 3 4.9 76.4 0 Calm Calm

28-12-2013 4 5.1 78.3 0 21 1.1

28-12-2013 5 6.6 72.8 0 96 2.6

28-12-2013 6 11.5 68.1 0 104 3.6

28-12-2013 7 14.1 62.5 0.1 109 3.1

28-12-2013 8 17.7 55.2 0.1 93 4.2


28-12-2013 10 19.8 50.2 0.3 77 4

28-12-2013 11 20.5 48.7 0.5 79 5.8

28-12-2013 12 21.9 45.3 0.7 78 6.4

28-12-2013 13 23.5 42.1 0.4 60 8.6

28-12-2013 14 25.1 40.8 0.2 66 5.6

28-12-2013 15 23.5 39.9 0.1 47 4.5

28-12-2013 16 20.8 40 0 49 3.6

Annexure-IV

18

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

28-12-2013 17 17.5 42.5 0 54 3.5

28-12-2013 18 16.1 44.8 0 80 2.3

28-12-2013 19 14.4 47.1 0 90 1.2

28-12-2013 20 11 50.3 0 84 1.1

28-12-2013 21 9.8 55.8 0 Calm Calm

28-12-2013 22 8.6 59.9 0 Calm Calm

28-12-2013 23 8.2 65.1 0 41 1.4


29-12-2013 1 7.9 69.4 0 Calm Calm

29-12-2013 2 7.7 73.8 0 48 1.6

29-12-2013 3 7.4 77.2 0 42 2.1

29-12-2013 4 6.9 76.7 0 Calm Calm

29-12-2013 5 6.6 78.6 0 54 2.5

29-12-2013 6 7 72.4 0 34 3.1

29-12-2013 7 9.2 69.1 0 44 4.6

29-12-2013 8 15.1 63.4 0 43 5.6

29-12-2013 9 17.9 59.7 0 51 4.6

29-12-2013 10 20.5 56.3 0.1 53 9.4


29-12-2013 12 22.2 49.5 0.3 57 12.6

29-12-2013 13 23.7 45.5 0.5 59 10.3

29-12-2013 14 25.1 41.2 0.6 58 8.5

29-12-2013 15 25.8 40.6 0.3 40 6.4

29-12-2013 16 24.5 39.8 0.1 26 5.4

29-12-2013 17 22.6 40.7 0 27 3.5

29-12-2013 18 21 42.3 0 29 2.3

29-12-2013 19 17.8 44.2 0 34 1.2

29-12-2013 20 15.6 45.7 0 40 1.1

29-12-2013 21 14.3 46.9 0 47 1.3

29-12-2013 22 12.6 48.5 0 Calm Calm

29-12-2013 23 11.4 50.2 0 Calm Calm

29-12-2013 24 10.8 56.4 0 32 1.1

30-12-2013 1 9.7 60.4 0 Calm Calm


30-12-2013 3 8.9 64.8 0 354 1.5

30-12-2013 4 8.1 68.4 0 334 1.4

30-12-2013 5 7.7 72.2 0 Calm Calm

30-12-2013 6 7.4 78.2 0 Calm Calm

30-12-2013 7 7 77 0 341 1.8

Annexure-IV

19

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

30-12-2013 8 8.1 73.5 0 335 3.9

30-12-2013 9 11.5 65.4 0 346 3

30-12-2013 10 16.1 62.5 0 351 7

30-12-2013 11 18.3 59 0.1 331 8.6

30-12-2013 12 18.9 50.8 0.1 315 10.5


30-12-2013 14 19.8 49.5 0.2 313 10.2

30-12-2013 15 22.8 47.1 0.4 314 8.6

30-12-2013 16 24.5 44.3 0.5 305 7.1

30-12-2013 17 25.6 42.8 0.3 301 6.2

30-12-2013 18 25.7 40.6 0.2 321 5.1

30-12-2013 19 26.2 39.4 0.1 335 4.3

30-12-2013 20 25.6 39.8 0 360 3.5

30-12-2013 21 22.4 41.2 0 360 2.1

30-12-2013 22 19.5 44.5 0 Calm Calm

30-12-2013 23 16.6 49.1 0 Calm Calm

30-12-2013 24 13.2 54.6 0 5 1.2

31-12-2013 1 11.3 58.6 0 18 1.6

31-12-2013 2 10.4 61.3 0 Calm Calm

31-12-2013 3 9.7 66.4 0 Calm Calm


31-12-2013 5 7.2 71.6 0 345 2.6

31-12-2013 6 6.4 74.5 0 342 3.6

31-12-2013 7 5.7 75.9 0 330 4.3

31-12-2013 8 5.5 77.4 0 319 5.3

31-12-2013 9 5.1 78.1 0 315 6.9

31-12-2013 10 5.9 78.9 0 323 8.9

31-12-2013 11 6.6 80.1 0 310 5.3

31-12-2013 12 11 75.4 0 309 4.3

31-12-2013 13 12.1 69.4 0.1 316 2.9

31-12-2013 14 15.8 58.1 0.1 314 2.3


31-12-2013 16 17.9 51.6 0.3 314 1.1

31-12-2013 17 20.1 47.5 0.3 Calm Calm

31-12-2013 18 22.5 44.2 0.6 351 1.8

31-12-2013 19 24.2 41.7 0.3 352 2.4

31-12-2013 20 23.2 40.8 0.1 345 3.4

31-12-2013 21 21.6 39.7 0.1 360 2.1

31-12-2013 22 18.9 41.3 0 2 1.1

Annexure-IV

20

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

31-12-2013 23 17 42 0 Calm Calm

31-12-2013 24 15.2 44.2 0 Calm Calm

01-01-2014 1 12.9 45.8 0 Calm Calm

01-01-2014 2 11.3 48.1 0 13 1.4

01-01-2014 3 10.4 49.4 0 21 2.2

01-01-2014 4 9.4 52.8 0 Calm Calm

01-01-2014 5 8.2 57.3 0 12 2


01-01-2014 7 7.4 61.3 0 13 2.5

01-01-2014 8 6.7 66.1 0 Calm Calm

01-01-2014 9 5.9 69.4 0 18 1.4

01-01-2014 10 5.1 71.9 0 16 2.5

01-01-2014 11 4.6 75.9 0 21 3.5

01-01-2014 12 6.1 79.2 0 23 4.7

01-01-2014 13 9.1 80.4 0 11 2.4

01-01-2014 14 11.8 81 0 Calm Calm

01-01-2014 15 15.6 75.2 0.1 Calm Calm

01-01-2014 16 18.5 70.6 0.2 345 3.2


01-01-2014 18 19.2 58.4 0.3 331 5.7

01-01-2014 19 20.8 50.3 0.5 326 2.4

01-01-2014 20 21.3 46.8 0.5 Calm Calm

01-01-2014 21 22.4 44.1 0.3 360 1.3

01-01-2014 22 22.7 41.7 0.1 Calm Calm

01-01-2014 23 22.1 40.3 0.1 Calm Calm

01-01-2014 24 20.8 40 0 32 2.1

02-01-2014 1 17.6 40.7 0 Calm Calm

02-01-2014 2 14.2 42.6 0 21 1.3

02-01-2014 3 12 45.6 0 23 3.3

02-01-2014 4 11.1 47.8 0 35 5.3

02-01-2014 5 10.2 49.9 0 68 6

02-01-2014 6 9.1 53.4 0 92 3.2

02-01-2014 7 7.6 59.4 0 101 2.2


02-01-2014 9 6.8 64.5 0 110 1.1

02-01-2014 10 6.1 68.7 0 Calm Calm

02-01-2014 11 5.7 71.2 0 Calm Calm

02-01-2014 12 5.4 74.6 0 315 3.2

02-01-2014 13 4.9 76.4 0 321 5.2

Annexure-IV

21

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

02-01-2014 14 5.2 77.2 0 354 6.2

02-01-2014 15 6.3 78.8 0 343 5.4

02-01-2014 16 8.9 79.5 0 352 8.7

02-01-2014 17 13.5 74.2 0.1 356 11.2

02-01-2014 18 16.1 64.3 0.1 330 6.3


02-01-2014 20 16.9 55.1 0.3 313 2.9

02-01-2014 21 18.8 49.4 0.5 312 1

02-01-2014 22 20.1 45.2 0.6 Calm Calm

02-01-2014 23 22.8 43.1 0.4 Calm Calm

02-01-2014 24 24.2 40.2 0.1 289 1.9

03-01-2014 1 22.9 40.6 0.1 291 3.5

03-01-2014 2 20.4 42.5 0 275 3

03-01-2014 3 17.5 43.6 0 265 2.6

03-01-2014 4 15.2 44.5 0 215 3.7

03-01-2014 5 13.7 45 0 210 2.9

03-01-2014 6 12.1 46.7 0 210 1.7

03-01-2014 7 10.8 48.9 0 345 1.6

03-01-2014 8 10.1 54.3 0 350 2.7

03-01-2014 9 8.7 60.8 0 337 7.7


03-01-2014 11 8 65.4 0 295 7.9

03-01-2014 12 7.4 69.4 0 290 6.4

03-01-2014 13 6.7 74.1 0 265 9.7

03-01-2014 14 5.9 73.8 0 268 11.3

03-01-2014 15 6.5 72.1 0 260 10.5

03-01-2014 16 6.7 71.8 0 266 9.9

03-01-2014 17 8.1 66.2 0 268 8.9

03-01-2014 18 10.6 63.4 0 261 6.9

03-01-2014 19 12.5 61.2 0 314 5.7

03-01-2014 20 14.5 55.4 0.1 341 4.6

03-01-2014 21 Or -System Restart- 339 3.8

03-01-2014 22 16.1 47.3 0.2 346 2.5

03-01-2014 23 19.6 45.2 0.4 Calm Calm

03-01-2014 24 21.6 43 0.6 Calm Calm

04-01-2014 1 23.2 42.3 0.3 354 2.3

04-01-2014 2 24.6 41.5 0.1 345 3.5

04-01-2014 3 23.4 40.8 0 353 5.1

04-01-2014 4 20.3 41.1 0 341 4.1

Annexure-IV

22

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

04-01-2014 5 17.7 41.6 0 348 5.9

04-01-2014 6 16.1 41.9 0 330 6.5

04-01-2014 7 14.7 42.7 0 360 6

04-01-2014 8 12.9 44.1 0 1 4.7

04-01-2014 9 10.8 45.3 0 8 4.7

04-01-2014 10 8.1 47.1 0 15 6.6

04-01-2014 11 7.7 49.2 0 16 11.3


04-01-2014 13 7 52.4 0 13 9.1

04-01-2014 14 6.1 56.7 0 20 12.6

04-01-2014 15 5.8 61.4 0 12 11.2

04-01-2014 16 5.5 67.8 0 16 10.6

04-01-2014 17 5.1 68.9 0 356 10.8

04-01-2014 18 5.7 71.3 0 360 7.7

04-01-2014 19 6.6 74.5 0 360 6.8

04-01-2014 20 8.5 70.1 0 354 4.6

04-01-2014 21 11.1 63.4 0.1 9 1.5

04-01-2014 22 15.3 48.9 0.1 Calm Calm


04-01-2014 24 16.2 40.3 0.3 360 1.6

05-01-2014 1 19.4 33.7 0.6 Calm Calm

05-01-2014 2 22.1 28.1 0.2 8 1.1

05-01-2014 3 23.4 24.8 0.3 Calm Calm

05-01-2014 4 24 25.1 0 Calm Calm

05-01-2014 5 22.5 25.3 0.1 14 1.4

05-01-2014 6 19.9 25.7 0 21 1.3

05-01-2014 7 18.3 31.4 0 19 2.6

05-01-2014 8 17.1 40 0 61 4.8

05-01-2014 9 15.7 44.9 0 81 5.8

05-01-2014 10 14.2 49.5 0 84 6.5

05-01-2014 11 11.6 54.7 0 96 6.5

05-01-2014 12 10.5 59.4 0 96 5.6

05-01-2014 13 9.6 63.7 0 78 2.4


05-01-2014 15 8.3 66.4 0 Calm Calm

05-01-2014 16 7.5 67.3 0 77 1.6

05-01-2014 17 6.7 68.7 0 71 3.4

05-01-2014 18 5.8 69.8 0 97 2.1

05-01-2014 19 5.4 70.2 0 95 1.4

Annexure-IV

23

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

05-01-2014 20 6.1 70.6 0 Calm Calm

05-01-2014 21 6.9 71.2 0 Calm Calm

05-01-2014 22 11.4 70.4 0 Calm Calm

05-01-2014 23 13.3 68.4 0 133 2.1

05-01-2014 24 14.1 60.1 0.1 105 2.6


06-01-2014 2 15.2 55.1 0.2 Calm Calm

06-01-2014 3 18.8 50.2 0.4 Calm Calm

06-01-2014 4 21.9 47.3 0.4 150 1.1

06-01-2014 5 23.1 44.2 0.2 175 2.7

06-01-2014 6 23.8 42.8 0 190 3.8

06-01-2014 7 22.9 41.5 0 190 5.5

06-01-2014 8 22.1 40.8 0 175 3.5

06-01-2014 9 20.4 41.6 0 196 5.7

06-01-2014 10 17.4 42.3 0 205 4

06-01-2014 11 14.2 43.9 0 210 5.6

06-01-2014 12 12.1 44.6 0 213 4.9

06-01-2014 13 9.8 46.1 0 220 5.1

06-01-2014 14 8.8 47.2 0 235 5.4

06-01-2014 15 7.5 52.7 0 248 7


06-01-2014 17 6.9 54.6 0 284 6.4

06-01-2014 18 6.1 57.8 0 335 6.5

06-01-2014 19 5.5 62.4 0 345 7.6

06-01-2014 20 4.9 67.5 0 351 4.5

06-01-2014 21 4.4 64.8 0 360 2.1

06-01-2014 22 5.6 67.1 0 Calm Calm

06-01-2014 23 7.1 70.5 0 Calm Calm

06-01-2014 24 9.5 71.5 0 Calm Calm

07-01-2014 1 14.3 70.3 0 315 1.3

07-01-2014 2 18.4 60.8 0 320 1.8


07-01-2014 4 20.9 53.3 0.2 Calm Calm

07-01-2014 5 21.6 48.8 0.3 271 1.2

07-01-2014 6 22.4 44.2 0.4 331 2.6

07-01-2014 7 23.3 42.5 0.3 315 3.1

07-01-2014 8 22.9 41 0.1 315 4.6

07-01-2014 9 21.3 41.2 0 351 2.2

07-01-2014 10 19.2 43.5 0 321 3.9

Annexure-IV

24

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

07-01-2014 11 16.4 44 0 323 4.2

07-01-2014 12 14.3 44.4 0 335 6

07-01-2014 13 11.6 45.3 0 340 6.2

07-01-2014 14 10.8 45.9 0 351 5.1

07-01-2014 15 9.6 50.2 0 325 4.8

07-01-2014 16 7.9 52.7 0 315 2.5

07-01-2014 17 7.1 55.9 0 320 1.2


07-01-2014 19 6.6 58.7 0 Calm Calm

07-01-2014 20 5.9 62.8 0 Calm Calm

07-01-2014 21 5.2 65.8 0 Calm Calm

07-01-2014 22 4.4 68.2 0 360 1.9

07-01-2014 23 4.2 68.9 0 357 3.4

07-01-2014 24 4.9 69.4 0 7 2.1

08-01-2014 1 6.7 70.4 0 Calm Calm

08-01-2014 2 9.6 70.6 0 Calm Calm

08-01-2014 3 12.8 64 0 330 1.6

08-01-2014 4 15.9 58.4 0.1 341 2.9


08-01-2014 6 18.5 48.9 0.1 324 4.8

08-01-2014 7 20.5 45.3 0.3 334 5.3

08-01-2014 8 21.6 41.8 0.5 360 2.8

08-01-2014 9 22.4 40.5 0.2 15 3

08-01-2014 10 23.2 39 0.1 23 2.3

08-01-2014 11 22.8 39.9 0 Calm Calm

08-01-2014 12 18.5 40.8 0 20 1.6

08-01-2014 13 16.2 42.5 0 14 1.5

08-01-2014 14 15.1 43.8 0 6 1.3

08-01-2014 15 13.3 45.1 0 7 3.4

08-01-2014 16 12.2 47.9 0 360 2.1

08-01-2014 17 10.1 52.4 0 6 2.5

08-01-2014 18 9.7 57.6 0 356 2.7

08-01-2014 19 9.2 61.5 0 360 3


08-01-2014 21 7.9 64.8 0 345 1.9

08-01-2014 22 7.2 67.8 0 Calm Calm

08-01-2014 23 6.5 69.4 0 Calm Calm

08-01-2014 24 5.6 70.5 0 325 2.1

09-01-2014 1 5 71 0 324 1.2

Annexure-IV

25

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

09-01-2014 2 5.9 70.5 0 Calm Calm

09-01-2014 3 6.2 71.9 0 Calm Calm

09-01-2014 4 7.3 70.8 0 15 1.2

09-01-2014 5 10.1 69.1 0 11 2

09-01-2014 6 13.9 60.4 0.1 12 2.2


09-01-2014 8 17.3 49.5 0.3 51 1.2

09-01-2014 9 21.3 44.7 0.3 Calm Calm

09-01-2014 10 22.4 41.9 0.5 Calm Calm

09-01-2014 11 23.3 40.8 0.2 106 3.1

09-01-2014 12 23.7 39.5 0.2 96 4.4

09-01-2014 13 22 41.2 0.1 98 6.1

09-01-2014 14 19.7 42 0 101 9.4

09-01-2014 15 16.8 43.2 0 95 4.2

09-01-2014 16 15.1 44.1 0 65 8.8

09-01-2014 17 13.5 44.9 0 34 5.2

09-01-2014 18 12.2 45.6 0 15 5

09-01-2014 19 11.7 47.1 0 21 4.4

09-01-2014 20 10.3 48.6 0 15 3.4

09-01-2014 21 8.8 54.2 0 324 2


09-01-2014 23 8.6 57.2 0 35 3.5

09-01-2014 24 6.9 65.4 0 32 2.2

10-01-2014 1 6.3 69.2 0 54 1.5

10-01-2014 2 5.8 69.7 0 Calm Calm

10-01-2014 3 5.2 70.1 0 Calm Calm

10-01-2014 4 6 71.3 0 36 2.1

10-01-2014 5 7.3 72.1 0 30 1.5

10-01-2014 6 10 72.2 0 Calm Calm

10-01-2014 7 11.1 66.4 0.1 15 2.1

10-01-2014 8 13.2 53.7 0.1 8 2.2


10-01-2014 10 15.3 44.2 0.2 38 2.4

10-01-2014 11 18.1 42.8 0.3 61 3.1

10-01-2014 12 18.5 41.9 0.6 82 1.9

10-01-2014 13 19.6 41.1 0.2 103 1.4

10-01-2014 14 21 40.5 0.2 133 8.9

10-01-2014 15 20.2 39.7 0.1 139 6.3

10-01-2014 16 19.2 39.4 0 143 7.2

Annexure-IV

26

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

10-01-2014 17 16.5 39.8 0 138 8

10-01-2014 18 13.7 40.6 0 128 4.8

10-01-2014 19 11.3 42.1 0 108 6.2

10-01-2014 20 10.5 44.8 0 103 4.9

10-01-2014 21 9.4 46.7 0 102 1.9

10-01-2014 22 8.5 51.2 0 Calm Calm

10-01-2014 23 7.7 56.4 0 16 2.2


11-01-2014 1 6.8 60.5 0 34 1.4

11-01-2014 2 6.1 64.2 0 Calm Calm

11-01-2014 3 5.4 66.9 0 17 2.6

11-01-2014 4 4.5 68.3 0 Calm Calm

11-01-2014 5 4.3 72.4 0 Calm Calm

11-01-2014 6 4.7 74.1 0 60 2.3

11-01-2014 7 5.9 75.2 0 52 5.3

11-01-2014 8 8.3 73.5 0 43 2.1

11-01-2014 9 10.6 69.1 0.1 31 3

11-01-2014 10 14.9 57.2 0.1 26 3.7


11-01-2014 12 18.5 50.3 0.3 351 5.6

11-01-2014 13 21.1 45.2 0.5 325 8.1

11-01-2014 14 22.1 41.8 0.6 331 6.7

11-01-2014 15 22.9 40.1 0.2 336 6.2

11-01-2014 16 23.4 39.4 0.1 300 6.8

11-01-2014 17 22.8 38.8 0 281 5.9

11-01-2014 18 19.6 39.5 0 279 5

11-01-2014 19 18.2 40.3 0 272 2.8

11-01-2014 20 16.7 42.1 0 Calm Calm

11-01-2014 21 15.5 45.6 0 Calm Calm

11-01-2014 22 13.3 46.7 0 356 1.9

11-01-2014 23 12.4 53.2 0 350 2.8

11-01-2014 24 10.2 51.2 0 360 4

12-01-2014 1 8.7 58.4 0 356 4.3


12-01-2014 3 7.3 62.1 0 12 1.6

12-01-2014 4 6.2 65.4 0 Calm Calm

12-01-2014 5 5.1 69.8 0 Calm Calm

12-01-2014 6 4.6 72.1 0 14 1.9

12-01-2014 7 5.2 73 0 17 2.6

Annexure-IV

27

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

12-01-2014 8 5.8 73.4 0 13 5.4

12-01-2014 9 6.6 73.4 0 8 3.5

12-01-2014 10 10 73.8 0 5 2.1

12-01-2014 11 13.1 66.7 0.1 15 1.1

12-01-2014 12 16.8 55.1 0.1 Calm Calm


12-01-2014 14 19.6 47.3 0.2 21 1.6

12-01-2014 15 21.3 44.6 0.5 24 2.8

12-01-2014 16 22.9 42.1 0.5 41 4.2

12-01-2014 17 23.8 40.2 0.3 44 6.7

12-01-2014 18 24.5 38.7 0.1 49 6.1

12-01-2014 19 23 38.1 0.1 54 2.1

12-01-2014 20 21.4 39 0 61 2.2

12-01-2014 21 18.3 39.7 0 44 2.7

12-01-2014 22 15.2 40.2 0 34 1.9

12-01-2014 23 13.9 40.9 0 Calm Calm

12-01-2014 24 13.1 42.1 0 6 1.6

13-01-2014 1 11.5 42.7 0 15 1.2

13-01-2014 2 10.2 43.7 0 Calm Calm

13-01-2014 3 9.8 45.6 0 Calm Calm


13-01-2014 5 7.9 49.8 0 25 2.6

13-01-2014 6 6.5 55.3 0 Calm Calm

13-01-2014 7 5.5 62.7 0 Calm Calm

13-01-2014 8 4.8 64.8 0 65 1.7

13-01-2014 9 4.3 67.1 0 50 3.5

13-01-2014 10 5.1 70.3 0 45 2.4

13-01-2014 11 6.4 76.5 0 40 3.7

13-01-2014 12 10.2 69.4 0 35 1.7

13-01-2014 13 12.1 60.2 0.1 Calm Calm

13-01-2014 14 13.1 53.7 0.2 Calm Calm


13-01-2014 16 14.2 47.1 0.4 68 4.5

13-01-2014 17 17.6 42.9 0.7 69 5.1

13-01-2014 18 21.4 41.1 0.4 61 6.1

13-01-2014 19 22.9 40 0.3 56 5.5

13-01-2014 20 22 39.3 0.1 56 5.4

13-01-2014 21 21.1 38.1 0.1 59 2.7

13-01-2014 22 19.8 39.7 0 Calm Calm

Annexure-IV

28

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

13-01-2014 23 18.3 40.5 0 Calm Calm

13-01-2014 24 16.4 41.3 0 54 1.6

14-01-2014 1 14.6 42 0 Calm Calm

14-01-2014 2 11.9 43.9 0 53 1.1

14-01-2014 3 9.4 45.2 0 Calm Calm

14-01-2014 4 8.2 47.2 0 Calm Calm

14-01-2014 5 7.1 52.9 0 45 1.6


14-01-2014 7 6.6 55 0 42 2.5

14-01-2014 8 5.9 59.8 0 40 1.5

14-01-2014 9 5.3 66.8 0 35 2

14-01-2014 10 4.8 72.1 0 19 1.6

14-01-2014 11 4.4 75.6 0 22 1.4

14-01-2014 12 5.4 76.9 0 17 4.1

14-01-2014 13 8.2 77.5 0 5 3.6

14-01-2014 14 8.8 78 0 356 2.5

14-01-2014 15 10 70 0 346 2.9

14-01-2014 16 15.1 58.9 0.1 341 3.6


14-01-2014 18 18.2 49.1 0.2 343 3.1

14-01-2014 19 20.1 45.3 0.4 331 2.1

14-01-2014 20 21.2 38.1 0.6 Calm Calm

14-01-2014 21 22.1 37 0.2 Calm Calm

14-01-2014 22 22.8 34.2 0.1 338 1.9

14-01-2014 23 19.8 34.3 0.1 328 3.5

14-01-2014 24 18.4 36.1 0 333 2.6

15-01-2014 1 16.6 38.2 0 328 3

15-01-2014 2 14.9 39.1 0 325 1.3

15-01-2014 3 13.2 40.2 0 Calm Calm

15-01-2014 4 11.3 42.5 0 Calm Calm

15-01-2014 5 10.2 46.9 0 325 1.6

15-01-2014 6 9 50.4 0 324 1.8

15-01-2014 7 7.8 54.6 0 316 2.2


15-01-2014 9 7.1 57.8 0 Calm Calm

15-01-2014 10 5.9 65.3 0 Calm Calm

15-01-2014 11 5.4 68.4 0 341 1.9

15-01-2014 12 4.8 69.1 0 345 3.4

15-01-2014 13 4.2 70.8 0 335 4.6

Annexure-IV

29

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

15-01-2014 14 4.7 72.1 0 310 3.4

15-01-2014 15 6.8 72.7 0 301 2.9

15-01-2014 16 9 69.4 0 295 3.2

15-01-2014 17 12.9 65 0 284 3.4

15-01-2014 18 15.8 55.2 0.2 266 4.5


15-01-2014 20 17.2 46.8 0.3 246 5.6

15-01-2014 21 19.1 41.1 0.5 252 4.7

15-01-2014 22 20.4 38.2 0.5 263 1.5

15-01-2014 23 22.9 36.9 0.3 Calm Calm

15-01-2014 24 24 36.1 0.2 Calm Calm

16-01-2014 1 23.4 35.4 0.1 Calm Calm

16-01-2014 2 20.4 36.8 0 265 1.7

16-01-2014 3 17.3 39.1 0 Calm Calm

16-01-2014 4 15.5 42.3 0 Calm Calm

16-01-2014 5 13.9 46.9 0 281 1.8

16-01-2014 6 13.5 48.7 0 278 3.3

16-01-2014 7 11.1 53.2 0 280 2.1

16-01-2014 8 10.1 55.8 0 Calm Calm

16-01-2014 9 9.2 57.1 0 Calm Calm


16-01-2014 11 7.6 63.4 0 249 2.1

16-01-2014 12 6.2 67.2 0 253 1.4

16-01-2014 13 5.1 68.9 0 255 5.3

16-01-2014 14 4.5 71.4 0 279 6.4

16-01-2014 15 4 72.3 0 283 8.4

16-01-2014 16 4.8 73.4 0 285 11.9

16-01-2014 17 5.9 73.8 0 329 8.4

16-01-2014 18 10.6 73.1 0 335 6.4

16-01-2014 19 13.2 66.5 0.1 343 5.9

16-01-2014 20 15.4 57.4 0.2 328 2.1


16-01-2014 22 19 51.4 0.3 Calm Calm

16-01-2014 23 21.1 47.2 0.5 240 1.1

16-01-2014 24 22.6 42.8 0.6 231 1.5

17-01-2014 1 23.7 37.9 0.4 Calm Calm

17-01-2014 2 24.6 36.5 0.3 221 1.4

17-01-2014 3 22.7 35.8 0.1 218 1

17-01-2014 4 19.4 36.7 0 230 1.9

Annexure-IV

30

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

17-01-2014 5 17.3 38.4 0 245 1.2

17-01-2014 6 15.5 39.2 0 256 2.1

17-01-2014 7 14.7 40 0 258 2.3

17-01-2014 8 12.4 41.1 0 221 2.4

17-01-2014 9 10.5 43.2 0 215 1.5

17-01-2014 10 9.7 46.6 0 191 1.7

17-01-2014 11 8.3 50.3 0 196 3.4


17-01-2014 13 7 54.2 0 217 4

17-01-2014 14 5.4 58.2 0 214 2.6

17-01-2014 15 5.1 60.8 0 231 1.3

17-01-2014 16 4.6 61.3 0 Calm Calm

17-01-2014 17 5 64.2 0 Calm Calm

17-01-2014 18 7.5 68.1 0 226 2.3

17-01-2014 19 9.6 58.7 0 241 1.5

17-01-2014 20 11.6 54.6 0 Calm Calm

17-01-2014 21 13.4 51.2 0.1 Calm Calm

17-01-2014 22 15.7 44.2 0.1 243 2.4


17-01-2014 24 16.6 38.7 0.2 Calm Calm

18-01-2014 1 20.7 36.4 0.5 Calm Calm

18-01-2014 2 22.8 35.1 0.7 314 1.1

18-01-2014 3 24.2 34 0.4 Calm Calm

18-01-2014 4 24.3 33.7 0.3 Calm Calm

18-01-2014 5 21.1 34.1 0.1 321 1.9

18-01-2014 6 20.2 36.2 0 334 2.7

18-01-2014 7 18.5 42.3 0 354 2.2

18-01-2014 8 16.4 47.6 0 Calm Calm

18-01-2014 9 13.2 50.2 0 Calm Calm

18-01-2014 10 11.2 53.1 0 78 2.3

18-01-2014 11 9.5 55.2 0 110 5.2

18-01-2014 12 7.2 59.3 0 116 4.3

18-01-2014 13 6.4 64.1 0 95 4.9


18-01-2014 15 5.8 67.4 0 90 2.6

18-01-2014 16 5.4 68.4 0 64 3.4

18-01-2014 17 4.9 68.7 0 71 3.7

18-01-2014 18 4.6 69 0 54 8.7

18-01-2014 19 4.4 69.3 0 31 5.3

Annexure-IV

31

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

18-01-2014 20 5.3 69.8 0 32 2.9

18-01-2014 21 7.9 70.1 0 350 1.3

18-01-2014 22 10.5 69.1 0 334 1.9

18-01-2014 23 11.9 64.3 0.3 Calm Calm

18-01-2014 24 13.2 55.8 0.6 Calm Calm


19-01-2014 2 16.4 49.2 0 Calm Calm

19-01-2014 3 17.9 46.1 0.2 Calm Calm

19-01-2014 4 20.3 44.2 0.5 282 1.8

19-01-2014 5 22.8 40.5 0.2 290 2.7

19-01-2014 6 23.4 36.8 0 277 5

19-01-2014 7 22.6 33.7 0 275 1.6

19-01-2014 8 19.6 33.9 0 279 3

19-01-2014 9 17.3 36.2 0 301 4.9

19-01-2014 10 16.4 42.3 0 305 3.9

19-01-2014 11 14.2 47.8 0 294 7.4

19-01-2014 12 13 54.5 0 302 5.5

19-01-2014 13 11.5 62.8 0 289 4.6

19-01-2014 14 10 67.2 0 287 2.7

19-01-2014 15 8.2 69.4 0 356 3.7


19-01-2014 17 8.3 70.3 0 334 2.7

19-01-2014 18 8.2 70.9 0 340 3.8

19-01-2014 19 7 71.5 0 336 2.5

19-01-2014 20 6.6 72.1 0 359 1.6

19-01-2014 21 6.1 72.2 0 351 1.5

19-01-2014 22 5.6 72.8 0 Calm Calm

19-01-2014 23 7.2 72.7 0 Calm Calm

19-01-2014 24 13.5 70.1 0 Calm Calm

20-01-2014 1 17.5 66.3 0.2 Calm Calm

20-01-2014 2 20.2 54.3 0.1 13 2.1


20-01-2014 4 22.2 42.5 0.4 17 4.1

20-01-2014 5 23.2 39.1 0.4 50 4.5

20-01-2014 6 22.1 35.2 0.6 56 6.1

20-01-2014 7 23.3 34 0.3 49 9.4

20-01-2014 8 23.7 33.6 0.1 23 12.6

20-01-2014 9 21 33.9 0.1 13 13.4

20-01-2014 10 19 35.7 0 11 11.2

Annexure-IV

32

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

20-01-2014 11 17.3 36.3 0 50 10.9

20-01-2014 12 15.6 37.8 0 48 5.8

20-01-2014 13 14.1 40 0 34 4.3

20-01-2014 14 12.1 41.5 0 32 2.6

20-01-2014 15 11.1 43.8 0 22 2.6

20-01-2014 16 10 48.9 0 27 2.1

20-01-2014 17 9.2 52.3 0 33 1.7


20-01-2014 19 9.3 56.7 0 13 4.6

20-01-2014 20 8.6 59.8 0 33 3.7

20-01-2014 21 8 59.6 0 49 3.2

20-01-2014 22 7.2 62.8 0 64 2.8

20-01-2014 23 6.5 68.4 0 63 1.7

20-01-2014 24 8.5 71.8 0 Calm Calm

21-01-2014 1 9.3 73.4 0 50 1.8

21-01-2014 2 12.5 75.4 0 53 1.6

21-01-2014 3 13.7 58.6 0.2 Calm Calm

21-01-2014 4 16.8 48.7 0.4 Calm Calm


21-01-2014 6 17.6 42.3 0.6 62 1.2

21-01-2014 7 19.8 38.9 0.6 56 2.6

21-01-2014 8 21.4 36.3 0.4 45 3

21-01-2014 9 22.3 35.1 0.2 61 2.8

21-01-2014 10 23.4 34.8 0.1 79 1.7

21-01-2014 11 22.5 35.2 0.1 81 4.8

21-01-2014 12 21.9 34.5 0 85 1.9

21-01-2014 13 19.5 36.1 0 Calm Calm

21-01-2014 14 16.8 37.4 0 Calm Calm

21-01-2014 15 13.9 38.5 0 75 2.1

21-01-2014 16 13.1 40 0 83 4.1

21-01-2014 17 12.2 42.3 0 89 5.8

21-01-2014 18 10.8 42.9 0 85 6.3

21-01-2014 19 10.1 43.6 0 68 4.3


21-01-2014 21 8.6 45.2 0 57 2.1

21-01-2014 22 7.9 46.7 0 Calm Calm

21-01-2014 23 7.1 50.6 0 Calm Calm

21-01-2014 24 6.4 54.1 0 13 1.5

22-01-2014 1 5.9 55.8 0 9 1.3

Annexure-IV

33

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

22-01-2014 2 6.1 58.4 0 354 2.2

22-01-2014 3 10.6 64.9 0 339 2.3

22-01-2014 4 12.1 58.2 0 Calm Calm

22-01-2014 5 14.3 50.4 0.1 Calm Calm

22-01-2014 6 15.2 43.1 0.3 348 2.1


22-01-2014 8 17.6 39.6 0.5 315 4.9

22-01-2014 9 19.5 36.8 0.6 299 4.1

22-01-2014 10 20.6 36 0.5 268 4.4

22-01-2014 11 22.1 34.8 0.4 273 7.6

22-01-2014 12 22.8 35.7 0.1 264 4.5

22-01-2014 13 22.1 36.5 0.1 321 3.3

22-01-2014 14 21.3 37.2 0 340 3.9

22-01-2014 15 19.3 29.2 0 356 3.1

22-01-2014 16 17.1 38.8 0 343 4

22-01-2014 17 14.7 41.6 0 2 5

22-01-2014 18 14.2 43.7 0 12 2.7

22-01-2014 19 13.5 46.2 0 Calm Calm

22-01-2014 20 10.3 48.2 0 Calm Calm

22-01-2014 21 9.4 49.5 0 3 2.1


22-01-2014 23 8.2 54 0 Calm Calm

22-01-2014 24 7.6 56.2 0 26 1.9

23-01-2014 1 7.1 59 0 Calm Calm

23-01-2014 2 6.4 61.2 0 Calm Calm

23-01-2014 3 6 62.1 0 Calm Calm

23-01-2014 4 6.5 65.4 0 85 1.3

23-01-2014 5 7.3 52.1 0 89 1.5

23-01-2014 6 9.5 48.4 0 Calm Calm

23-01-2014 7 11.6 40.2 0.2 Calm Calm

23-01-2014 8 14.2 35.5 0.4 63 1.9


23-01-2014 10 16.3 32.7 0.5 46 2.8

23-01-2014 11 18.1 32.5 0.4 37 2.4

23-01-2014 12 21.5 32 0.4 8 4.2

23-01-2014 13 22.6 32.4 0.2 15 3.6

23-01-2014 14 24.9 33.8 0.1 19 2.9

23-01-2014 15 24.2 35.1 0 34 3

23-01-2014 16 21.3 35.9 0 39 2.8

Annexure-IV

34

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

23-01-2014 17 18.2 36.5 0 52 2.4

23-01-2014 18 16 37.9 0 65 4.8

23-01-2014 19 15.2 39.5 0 70 3.8

23-01-2014 20 15 40.6 0 22 6.8

23-01-2014 21 13.1 41.5 0 25 5.7

23-01-2014 22 12.2 43.2 0 31 2.5

23-01-2014 23 10.2 47 0 Calm Calm


24-01-2014 1 10.2 52.3 0 42 1.6

24-01-2014 2 9 56.2 0 Calm Calm

24-01-2014 3 8 58.1 0 49 1.1

24-01-2014 4 7.1 60.2 0 Calm Calm

24-01-2014 5 7.3 63.6 0 Calm Calm

24-01-2014 6 7.1 66.4 0 95 1.4

24-01-2014 7 7.5 57.4 0 96 3.8

24-01-2014 8 12.3 54.7 0 102 4.9

24-01-2014 9 18.1 50 0.1 141 5.8

24-01-2014 10 22.5 43.7 0.3 151 6.9


24-01-2014 12 24 41.8 0.4 184 11.7

24-01-2014 13 25.5 40.7 0.6 204 12.9

24-01-2014 14 26.3 37.5 0.6 195 13.9

24-01-2014 15 26.1 36.8 0.4 219 6

24-01-2014 16 25 36.7 0.1 231 2.7

24-01-2014 17 23 38.1 0 237 1.6

24-01-2014 18 21.5 39.5 0 231 3.3

24-01-2014 19 19.3 40.8 0 245 1.9

24-01-2014 20 16.8 41.5 0 225 2.4

24-01-2014 21 14.3 42.6 0 246 2.2

24-01-2014 22 13.1 44 0 Calm Calm

24-01-2014 23 11.5 44.7 0 Calm Calm

24-01-2014 24 10.2 45.9 0 Calm Calm

25-01-2014 1 9 49.1 0 305 1.3


25-01-2014 3 8.3 53.7 0 Calm Calm

25-01-2014 4 8.4 55.3 0 Calm Calm

25-01-2014 5 7.5 57.9 0 295 1.8

25-01-2014 6 7 61.4 0 271 2.9

25-01-2014 7 6.3 63.6 0 261 6.5

Annexure-IV

35

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

25-01-2014 8 6.7 66.4 0 256 8.9

25-01-2014 9 7.3 61.3 0 264 4.5

25-01-2014 10 13.4 53.5 0 301 3.4

25-01-2014 11 20.6 45.9 0.2 306 2.4

25-01-2014 12 23.5 40.3 0.5 301 3.2


25-01-2014 14 25.3 37.4 0.3 Calm Calm

25-01-2014 15 26.1 34.1 0.4 261 2.4

25-01-2014 16 27 32.6 0.5 266 4.2

25-01-2014 17 28 31.2 0.2 272 8.8

25-01-2014 18 27.1 31 0.1 286 5.9

25-01-2014 19 25.1 32.4 0.1 300 3.5

25-01-2014 20 21.4 33.1 0 305 2.4

25-01-2014 21 18 33.9 0 Calm Calm

25-01-2014 22 15.6 35.2 0 Calm Calm

25-01-2014 23 13.2 39.1 0 Calm Calm

25-01-2014 24 12.3 45.5 0 24 1.1

26-01-2014 1 11.3 47.3 0 Calm Calm

26-01-2014 2 9.3 50.3 0 32 1.5

26-01-2014 3 9 52.2 0 Calm Calm


26-01-2014 5 9.3 57 0 54 4.3

26-01-2014 6 8.5 59.1 0 58 5.2

26-01-2014 7 8 62 0 65 4.5

26-01-2014 8 7.5 65 0 104 5.5

26-01-2014 9 6.2 67 0 105 3.5

26-01-2014 10 6.1 69.1 0 106 2.1

26-01-2014 11 7.6 58.1 0 Calm Calm

26-01-2014 12 15.3 49.4 0 Calm Calm

26-01-2014 13 21.2 42.5 0 34 1.5

26-01-2014 14 24.1 35.3 0.1 21 3.4


26-01-2014 16 25.2 33.8 0.3 351 4.1

26-01-2014 17 27.1 32.1 0.4 345 5

26-01-2014 18 28.4 31.3 0.6 331 3

26-01-2014 19 27.2 30.5 0.4 321 2.8

26-01-2014 20 26.1 32.7 0.2 Calm Calm

26-01-2014 21 22.2 33.4 0.1 Calm Calm

26-01-2014 22 19.2 35 0 Calm Calm

Annexure-IV

36

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

26-01-2014 23 17.4 37.2 0 10 1.2

26-01-2014 24 14 38.9 0 Calm Calm

27-01-2014 1 13.2 40.2 0 Calm Calm

27-01-2014 2 12.3 43.1 0 356 1.1

27-01-2014 3 11.5 45.3 0 351 4.3

27-01-2014 4 10 48.1 0 Calm Calm

27-01-2014 5 8.2 51.4 0 Calm Calm


27-01-2014 7 8.3 55.2 0 73 2.5

27-01-2014 8 8.2 58 0 62 5.4

27-01-2014 9 7 59.1 0 35 7.4

27-01-2014 10 6.6 61.2 0 24 5.4

27-01-2014 11 6.1 65.3 0 31 6.4

27-01-2014 12 5.6 71 0 16 8.3

27-01-2014 13 7.2 63.5 0 32 4.4

27-01-2014 14 13.5 55.4 0 28 2.1

27-01-2014 15 21 45.4 0 24 3.8

27-01-2014 16 25.2 39 0.3 23 2.7


27-01-2014 18 28.2 34.1 0.4 Calm Calm

27-01-2014 19 29.4 31.1 0.6 Calm Calm

27-01-2014 20 29.1 30.5 0.7 Calm Calm

27-01-2014 21 28.4 29.9 0.4 10 2.1

27-01-2014 22 26.3 30.3 0.1 Calm Calm

27-01-2014 23 21.2 31.1 0 34 1.8

27-01-2014 24 18.5 32.4 0 Calm Calm

28-01-2014 1 16.2 35.2 0 51 1.4

28-01-2014 2 13.5 37.3 0 43 1.2

28-01-2014 3 11.5 40 0 Calm Calm

28-01-2014 4 10.4 43.1 0 Calm Calm

28-01-2014 5 9 47.2 0 83 1.2

28-01-2014 6 8.1 51.1 0 91 3

28-01-2014 7 7.5 56.1 0 96 2.5


28-01-2014 9 7.2 59.4 0 69 2.1

28-01-2014 10 6.8 61.4 0 64 2.4

28-01-2014 11 6.5 64.1 0 66 3.2

28-01-2014 12 6.3 66.2 0 65 3.4

28-01-2014 13 6.1 69.4 0 47 4.5

Annexure-IV

37

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

28-01-2014 14 6.1 71.2 0 13 4

28-01-2014 15 7 63.4 0 34 3.2

28-01-2014 16 14 54.1 0 36 3

28-01-2014 17 20.1 47.5 0.2 41 2.9

28-01-2014 18 24 38.9 0.4 67 1.2


28-01-2014 20 26 35.2 0.5 Calm Calm

28-01-2014 21 27 33.2 0.5 44 1.8

28-01-2014 22 28.3 31.4 0.7 51 2.1

28-01-2014 23 28 31 0.4 Calm Calm

28-01-2014 24 28.5 30.8 0.2 Calm Calm

29-01-2014 1 26.3 31.5 0 Calm Calm

29-01-2014 2 23.3 32.1 0 79 1.3

29-01-2014 3 19 33.8 0 Calm Calm

29-01-2014 4 17.5 35.2 0 Calm Calm

29-01-2014 5 14.6 38.3 0 74 2.1

29-01-2014 6 13 44.1 0 Calm Calm

29-01-2014 7 12.2 48.4 0 64 1.9

29-01-2014 8 12.1 52.1 0 63 2.9

29-01-2014 9 11.9 56.1 0 71 4.8


29-01-2014 11 10.1 56.2 0 82 9

12 9.5 58.5 0 77 10.1

29-01-2014 13 8 62 0 79 11.3

29-01-2014 14 7.2 61.2 0 78 9.2

29-01-2014 15 7 66 0 60 10.3

29-01-2014 16 6 68.2 0 26 12.4

29-01-2014 17 7.3 63 0 47 15.5

29-01-2014 18 14.1 53.1 0 49 5.4

29-01-2014 19 20 45.2 0.2 54 3.4

29-01-2014 20 23.1 35.6 0.2 80 2.4


29-01-2014 22 25.2 33 0.4 Calm Calm

29-01-2014 23 26.5 31.9 0.5 57 2.4

30-01-2014 24 27 30.8 0.7 64 1.5

30-01-2014 1 28.3 30.5 0.4 Calm Calm

30-01-2014 2 27.3 30.2 0.1 Calm Calm

30-01-2014 3 26.3 31.6 0.1 123 1.6

31-01-2014 4 22.5 32.4 0 129 5.7

Annexure-IV

38

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

30-01-2014 5 20.3 33.5 0 108 2.4

30-01-2014 6 18.4 37.1 0 Calm Calm

30-01-2014 7 16 40.3 0 Calm Calm

30-01-2014 8 14.1 42.4 0 77 1.6

30-01-2014 9 12.4 45.6 0 84 3.7

30-01-2014 10 10.3 49.3 0 67 2.8

30-01-2014 11 9.3 52.1 0 44 6.8


30-01-2014 13 9.6 58.1 0 13 4.4

30-01-2014 14 8.3 63 0 13 2.4

30-01-2014 15 7.4 66.2 0 Calm Calm

30-01-2014 16 6.9 70 0 347 1.4

30-01-2014 17 6.2 70.1 0 13 2.8

30-01-2014 18 7.1 72.4 0 13 4.5

30-01-2014 19 8 68.1 0 306 3.3

30-01-2014 20 12.5 58.6 0 295 2.3

30-01-2014 21 14.2 51 0.1 Calm Calm

30-01-2014 22 17 44.2 0.3 290 1.3


31-01-2014 24 22.2 37.6 0 Calm Calm

31-01-2014 1 25.3 34.1 0.2 13 1.7

31-01-2014 2 25.5 33.4 1 318 2.5

31-01-2014 3 26.3 32.3 0.3 307 3.5

31-01-2014 4 26 32.9 0.1 315 4.2

31-01-2014 5 25.3 34.5 0.4 302 2.1

31-01-2014 6 24.3 36.2 0.1 Calm Calm

31-01-2014 7 22.1 38.2 0 Calm Calm

31-01-2014 8 20.1 39.6 0 13 1.4

31-01-2014 9 19.3 41.8 0 347 2.6

31-01-2014 10 17.4 44.1 0 353 2.1

31-01-2014 11 16 50.1 0 Calm Calm

31-01-2014 12 14.4 54.2 0 13 2.1

31-01-2014 13 12.2 55.2 0 13 1.2


31-01-2014 15 12 61 0 Calm Calm

31-01-2014 16 11.2 62 0 54 2.4

31-01-2014 17 10.1 63.2 0 71 3.4

31-01-2014 18 9.4 66 0 74 6.5

31-01-2014 19 9.5 65.2 0 78 2.1

Annexure-IV

39

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

31-01-2014 20 9.2 68 0 82 1.8

31-01-2014 21 8.2 66.1 0 88 2.1

31-01-2014 22 8.2 65.4 0 51 1.2

31-01-2014 23 12 58.1 0 Calm Calm

01-02-2014 24 16.2 50.2 0 Calm Calm


01-02-2014 2 22.3 36.1 0.3 325 3.5

01-02-2014 3 22.1 32.1 0.5 340 2.3

01-02-2014 4 24.2 27 0.1 351 1.4

01-02-2014 5 23.1 27.2 0.3 15 1.7

01-02-2014 6 23.1 30.5 0 20 2.1

01-02-2014 7 23.3 30 0 30 1.6

01-02-2014 8 22.1 31 0 Calm Calm

01-02-2014 9 21.2 36.1 0 Calm Calm

01-02-2014 10 20.1 42.1 0 90 1.2

01-02-2014 11 19.5 48.1 0 115 1.6

01-02-2014 12 18.5 50.2 0 135 1.3

01-02-2014 13 18.5 52.1 0 Calm Calm

01-02-2014 14 18.3 52.3 0 Calm Calm

01-02-2014 15 17.4 56.1 0 Calm Calm


01-02-2014 17 15.6 61.2 0 320 3.4

01-02-2014 18 14.4 63 0 324 5.6

01-02-2014 19 13 65.4 0 326 2.3

01-02-2014 20 12.3 68 0 Calm Calm

01-02-2014 21 11.1 69.8 0 360 1.2

01-02-2014 22 11.1 72.6 0 Calm Calm

01-02-2014 23 9 74.7 0 Calm Calm

02-02-2014 24 10 74.1 0 20 2

02-02-2014 1 15.1 62.2 0 25 4.9

02-02-2014 2 21.2 51.4 0.2 28 5.5


32 5

02-02-2014 4 24.3 42.3 0.6 48 3.2

02-02-2014 5 26 36.3 0.2 56 3.6

02-02-2014 6 27.2 32.6 0.3 80 2.5

02-02-2014 7 28.1 31.1 0.2 89 1.2

02-02-2014 8 29 32 0 90 1.3

02-02-2014 9 29.2 33.7 0.4 Calm Calm

02-02-2014 10 28.2 36.2 0 Calm Calm

Annexure-IV

40

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

02-02-2014 11 26.1 37.9 0 Calm Calm

02-02-2014 12 24 39.8 0 315 2.5

02-02-2014 13 22 41.3 0 328 3.5

02-02-2014 14 20 43.3 0 330 2.4

02-02-2014 15 19.5 48.4 0 321 5.6

02-02-2014 16 18.4 51.1 0 315 6.9

02-02-2014 17 17.3 54.1 0 289 8.9


02-02-2014 19 16.2 60.2 0 325 2.5

02-02-2014 20 15.3 60.4 0 312 2.3

02-02-2014 21 14.1 60 0 Calm Calm

02-02-2014 22 13 62.6 0 Calm Calm

02-02-2014 23 12.3 66.2 0 270 1.2

03-02-2014 24 12.2 69 0 289 2.5

03-02-2014 1 11 69.6 0 Calm Calm

03-02-2014 2 11.2 67.5 0 Calm Calm

03-02-2014 3 16.1 60.6 0 256 2.5

03-02-2014 4 22.1 46.5 0.2 225 3.6


03-02-2014 6 26.1 37.2 0.6 Calm Calm

03-02-2014 7 28.4 34.1 0.1 320 1.3

03-02-2014 8 30 32.5 0.2 325 2.4

03-02-2014 9 30 30.8 0.2 312 7.4

03-02-2014 10 30.1 31 0 325 6.8

03-02-2014 11 30.2 30.7 0.4 270 7.6

03-02-2014 12 29.3 32.1 0 265 6.1

03-02-2014 13 27.1 34.2 0 240 9.4

03-02-2014 14 25.3 36.4 0 243 11

03-02-2014 15 23.4 41.1 0 235 10.2

03-02-2014 16 21.2 46.1 0 241 9.6

03-02-2014 17 20.3 50.1 0 243 8.6

03-02-2014 18 19 53.2 0 236 7.4

03-02-2014 19 18.4 57.2 0 289 6.2


03-02-2014 21 17.2 60.2 0 314 4.3

03-02-2014 22 17.3 64.8 0 321 2.1

03-02-2014 23 16.4 67.1 0 Calm Calm

04-02-2014 24 15.5 69.4 0 Calm Calm

04-02-2014 1 14.2 71.1 0 298 2.1

Annexure-IV

41

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

04-02-2014 2 14.3 71.8 0 270 3.2

04-02-2014 3 14 72.1 0 260 5.6

04-02-2014 4 14.1 72.6 0 265 4.6

04-02-2014 5 16.3 69 0 250 4.9

04-02-2014 6 21.3 54.3 0.1 245 5.5


04-02-2014 8 24 45 0.5 240 3.7

04-02-2014 9 28.2 37 0.2 258 3.7

04-02-2014 10 29.2 32.2 0.5 263 5.6

04-02-2014 11 28 33.5 0.2 268 10.3

04-02-2014 12 28.3 35.1 0.1 270 9.6

04-02-2014 13 27.1 39 0 270 8.1

04-02-2014 14 26.1 39.5 0 287 11.6

04-02-2014 15 25.6 47.2 0 298 10.2

04-02-2014 16 24 51.3 0 292 9.6

04-02-2014 17 22.5 54.4 0 310 6.5

04-02-2014 18 21 56.9 0 315 4.3

04-02-2014 19 19 57.6 0 320 2.1

04-02-2014 20 19.1 61.5 0 321 1.2

04-02-2014 21 18.5 63.2 0 Calm Calm


04-02-2014 23 17.2 66 0 Calm Calm

05-02-2014 24 17.6 68.3 0 360 4

05-02-2014 1 17.5 69.1 0 360 3.1

05-02-2014 2 17 70.6 0 8 1.9

05-02-2014 3 17.2 71.5 0 Calm Calm

05-02-2014 4 16.2 72.3 0 Calm Calm

05-02-2014 5 16.1 72.9 0 24 2

05-02-2014 6 16.1 73.2 0 35 1.9

05-02-2014 7 18.4 71.5 0 42 3.2

05-02-2014 8 22.4 66 0.2 53 5.4


05-02-2014 10 26.2 49.3 0.3 78 7.1

05-02-2014 11 28.1 42.6 0.4 90 7.1

05-02-2014 12 31 32.2 0.2 90 6.2

05-02-2014 13 33 29.5 0.5 72 5

05-02-2014 14 34.1 26.2 0.4 71 4.3

05-02-2014 15 33.2 29.5 0.2 65 2.1

05-02-2014 16 30.5 41.2 0 Calm Calm

Annexure-IV

42

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

05-02-2014 17 28.2 44.2 0 Calm Calm

05-02-2014 18 27 51 0 92 2.1

05-02-2014 19 25.1 57.2 0 90 2

05-02-2014 20 23.1 63.7 0 100 3.6

05-02-2014 21 22.1 66.3 0 115 4.5

05-02-2014 22 21.2 67.8 0 120 3.4

05-02-2014 23 20.1 68.2 0 128 2.1


06-02-2014 1 19.2 70.4 0 Calm Calm

06-02-2014 2 19.3 71.1 0 Calm Calm

06-02-2014 3 18.4 72.4 0 95 2

06-02-2014 4 18 71.7 0 140 1.3

06-02-2014 5 17.2 71.3 0 165 2.6

06-02-2014 6 16 72 0 180 5.4

06-02-2014 7 15.2 72.4 0 180 2.8

06-02-2014 8 15.3 66.3 0 Calm Calm

06-02-2014 9 18.3 57.4 0 Calm Calm

06-02-2014 10 22.1 49.2 0.1 215 1.2


06-02-2014 12 25.1 41.7 0.4 223 4.8

06-02-2014 13 27 35.9 0 230 5

06-02-2014 14 28.3 33.4 0.1 245 5.3

06-02-2014 15 30.5 32.6 0.1 258 6.9

06-02-2014 16 31.4 32.1 0.5 270 6.4

06-02-2014 17 30.3 33.8 0.2 284 7

06-02-2014 18 28.3 35.3 0 315 5.4

06-02-2014 19 26 44.2 0 325 4.1

06-02-2014 20 24.2 47.5 0 324 3.1

06-02-2014 21 23.4 51.4 0 312 2.1

06-02-2014 22 22 53.7 0 Calm Calm

06-02-2014 23 20 54.2 0 Calm Calm

07-02-2014 24 19 55.5 0 Calm Calm

07-02-2014 1 18.3 56.9 0 315 1.9


07-02-2014 3 18 58.1 0 270 5.4

07-02-2014 4 17.2 59.4 0 275 6.4

07-02-2014 5 16.4 62.4 0 271 4.5

07-02-2014 6 15.3 64.5 0 324 3.5

07-02-2014 7 15.3 66.5 0 316 4

Annexure-IV

43

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

07-02-2014 8 14.3 67.6 0 278 5.5

07-02-2014 9 14 68.4 0 272 3.1

07-02-2014 10 14.5 68.3 0 321 4.8

07-02-2014 11 16.3 60.1 0 323 5.1

07-02-2014 12 21 40.5 0.2 326 6.9


07-02-2014 14 24.2 28.3 0.6 275 6

07-02-2014 15 27.4 26.4 0.1 270 5.7

07-02-2014 16 28.3 27.3 0.3 315 3.4

07-02-2014 17 29.6 26.2 0.2 320 4.4

07-02-2014 18 30 26.3 0 330 2.1

07-02-2014 19 30.3 27.4 0.4 Calm Calm

07-02-2014 20 29.6 29.3 0 Calm Calm

07-02-2014 21 27.1 33.3 0 Calm Calm

07-02-2014 22 24.1 37 0 341 2.5

07-02-2014 23 22.2 43 0 348 3.5

08-02-2014 24 21.4 48.1 0 358 6.3

08-02-2014 1 20.3 51.2 0 12 5.1

08-02-2014 2 18.1 55.5 0 5 5.5

08-02-2014 3 17.5 59 0 321 4


08-02-2014 5 16.1 62.5 0 334 2.1

08-02-2014 6 17 62.3 0 315 1.3

08-02-2014 7 16.4 65.4 0 Calm Calm

08-02-2014 8 15 67.1 0 Calm Calm

08-02-2014 9 15 68.4 0 345 1.3

08-02-2014 10 14.2 68 0 323 2.6

08-02-2014 11 14 68.5 0 334 3.6

08-02-2014 12 14.5 63.7 0 334 2

08-02-2014 13 17.4 57.4 0 343 1.9

08-02-2014 14 21 47.1 0.3 348 1.7


08-02-2014 16 23.6 39.1 0.6 2 2.5

08-02-2014 17 26.2 33.6 0.2 351 2.9

08-02-2014 18 27.4 31.7 0.3 348 3.1

08-02-2014 19 28.1 31 0.2 345 2.1

08-02-2014 20 28.2 30.2 0.1 Calm Calm

08-02-2014 21 28 30.4 0.4 Calm Calm

08-02-2014 22 27 31.6 0.1 340 1.4

Annexure-IV

44

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

08-02-2014 23 25 33.6 0 335 2.3

09-02-2014 24 23.4 35.1 0 Calm Calm

09-02-2014 1 21.3 37.1 0 Calm Calm

09-02-2014 2 19.1 41.3 0 315 3.1

09-02-2014 3 17.2 46.4 0 324 2.3

09-02-2014 4 16.2 51.2 0 Calm Calm

09-02-2014 5 16.1 58.2 0 Calm Calm


09-02-2014 7 16 59.9 0 35 3.5

09-02-2014 8 15 61.6 0 48 1.3

09-02-2014 9 14.2 62.5 0 Calm Calm

09-02-2014 10 13 63.1 0 Calm Calm

09-02-2014 11 13.2 65.1 0 100 2.1

09-02-2014 12 12.6 67.8 0 90 4.5

09-02-2014 13 12.2 69.3 0 92 6.2

09-02-2014 14 12.3 60.1 0 95 4.3

09-02-2014 15 17.3 45.5 0 89 1.8

09-02-2014 16 21 34 0.3 Calm Calm


09-02-2014 18 24.1 30.2 0 40 1.3

09-02-2014 19 26.2 28.9 0.3 45 3.4

09-02-2014 20 27.5 28.2 1 15 3.5

09-02-2014 21 28.1 27.6 1 314 2.1

09-02-2014 22 28.3 27.5 0.1 324 1.4

09-02-2014 23 28.2 28 0.5 Calm Calm

10-02-2014 24 27.6 29.7 0.1 Calm Calm

10-02-2014 1 26 31.5 0 270 1.6

10-02-2014 2 23.2 33.8 0 289 3.6

10-02-2014 3 21.5 34.7 0 279 2.3

10-02-2014 4 19.1 36.5 0 275 3.6

10-02-2014 5 18.4 41.5 0 265 2.3

10-02-2014 6 17 44.2 0 Calm Calm

10-02-2014 7 15.1 47.5 0 Calm Calm


10-02-2014 9 13.4 53.5 0 15 3.5

10-02-2014 10 12 57.6 0 25 2.6

10-02-2014 11 11.5 60.2 0 48 3.3

10-02-2014 12 11 61.4 0 69 2.1

10-02-2014 13 10.5 64.3 0 90 1.6

Annexure-IV

45

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

10-02-2014 14 10.5 66.3 0 120 9.1

10-02-2014 15 11.3 64.1 0 126 6.5

10-02-2014 16 13.4 57 0 130 7.4

10-02-2014 17 18.3 45.2 0 125 8.2

10-02-2014 18 21.2 36.2 0.3 115 5


10-02-2014 20 24.1 36.3 0 90 5.1

10-02-2014 21 27.4 33.3 0.3 89 2.1

10-02-2014 22 28.2 31.4 1.1 Calm Calm

10-02-2014 23 29.2 31.1 1 Calm Calm

11-02-2014 24 29 31.4 0.2 Calm Calm

11-02-2014 1 29.1 32 0.5 32 1.1

11-02-2014 2 29.1 32.4 0.1 15 2.4

11-02-2014 3 28.3 34.9 0 12 2

11-02-2014 4 25.4 39 0 Calm Calm

11-02-2014 5 22.1 44.1 0 Calm Calm

11-02-2014 6 20 47.1 0 49 1.6

11-02-2014 7 18.5 50.3 0 41 2.6

11-02-2014 8 16.1 53.2 0 32 2.4

11-02-2014 9 15 56.1 0 20 3.3


11-02-2014 11 14.1 56.5 0 16 3.6

11-02-2014 12 14 59.2 0 340 5.9

11-02-2014 13 13.1 59 0 314 8.4

11-02-2014 14 12.5 61.3 0 320 7

11-02-2014 15 11.2 64.2 0 325 6.5

11-02-2014 16 11.3 66 0 289 7.1

11-02-2014 17 11.2 66.4 0 270 6.2

11-02-2014 18 12 64.2 0 268 3.1

11-02-2014 19 15.3 57 0 261 1.5

11-02-2014 20 20.1 47.2 0.1 Calm Calm


11-02-2014 22 -Transfer Error-

-Transfer Error-

-Transfer Error-

11-02-2014 23 29.2 33.5 0.1 350 3.2

12-02-2014 24 30.3 29.4 0.2 360 5.6

12-02-2014 1 31.3 27.5 0.2 356 8.5

12-02-2014 2 32.4 26.1 0 5 4.3

12-02-2014 3 32.1 27 0.3 12 2.6

12-02-2014 4 31.2 29 0 Calm Calm

Annexure-IV

46

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

12-02-2014 5 30.3 31.4 0 Calm Calm

12-02-2014 6 27 36.3 0 5 2.1

12-02-2014 7 25.4 39.4 0 8 3.6

12-02-2014 8 23.1 41.2 0 15 4.5

12-02-2014 9 22.5 44.3 0 32 8.5

12-02-2014 10 20.1 46.7 0 35 4.6

12-02-2014 11 19 51 0 39 6.5


12-02-2014 13 18.4 52.1 0 49 6.1

12-02-2014 14 17.2 54.1 0 12 2

12-02-2014 15 16 56.1 0 15 3.2

12-02-2014 16 15.5 59.5 0 32 4.6

12-02-2014 17 15 59 0 35 7.1

12-02-2014 18 15.3 60.3 0 40 6.5

12-02-2014 19 15 62.3 0 45 2.5

12-02-2014 20 15.1 63.3 0 52 2.6

12-02-2014 21 18 52.4 0 35 1.6

12-02-2014 22 23.2 43.1 0.2 Calm Calm


13-02-2014 24 28 37.3 0.6 360 2

13-02-2014 1 32.3 33.3 0.1 5 1.6

13-02-2014 2 32.1 32 0.2 Calm Calm

13-02-2014 3 32.1 32.4 0.2 Calm Calm

13-02-2014 4 33.1 32 0 26 1.9

13-02-2014 5 32 31 0.3 34 3

13-02-2014 6 31.3 31.3 0 90 4.5

13-02-2014 7 31 34.3 0 95 6.5

13-02-2014 8 28 41 0 90 2.1

13-02-2014 9 25 42.3 0 75 3.9

13-02-2014 10 23.2 45.1 0 70 4.1

13-02-2014 11 23.1 46 0 65 2.8

13-02-2014 12 22 47.1 0 60 1.2

13-02-2014 13 21.1 51.3 0 Calm Calm


13-02-2014 15 20.2 54.1 0 52 2.1

13-02-2014 16 18.4 59.1 0 55 3.5

13-02-2014 17 17.2 62.6 0 56 4.1

13-02-2014 18 15.1 68.2 0 48 5.1

13-02-2014 19 14.5 71.2 0 43 6.2

Annexure-IV

47

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

13-02-2014 20 13 72 0 43 4.7

13-02-2014 21 12.1 73.2 0 46 2.7

13-02-2014 22 13.4 67.1 0 Calm Calm

13-02-2014 23 18.4 58.9 0 Calm Calm

14-02-2014 24 24 50.4 0.3 52 1.3


14-02-2014 2 27.2 43.5 0 54 3.2

14-02-2014 3 30 35 0.3 Calm Calm

14-02-2014 4 32.3 30.1 1.1 Calm Calm

14-02-2014 5 34.2 27.4 1 31 2.6

14-02-2014 6 34.1 27.1 0.2 30 1.8

14-02-2014 7 34.1 27.1 0.5 28 3.5

14-02-2014 8 34.4 27.3 0.1 26 1.5

14-02-2014 9 33.4 28.5 0 21 3

14-02-2014 10 29.4 41.2 0 5 5.1

14-02-2014 11 26 43.3 0 8 2.4

14-02-2014 12 24 48.5 0 3 3.4

14-02-2014 13 22.1 49.1 0 360 2.4

14-02-2014 14 21.3 49 0 345 1.3

14-02-2014 15 21.1 50.3 0 Calm Calm


14-02-2014 17 20 49.3 0 315 1.2

14-02-2014 18 20 50.2 0 324 1.6

14-02-2014 19 18 56.3 0 286 5

14-02-2014 20 17 59.3 0 Calm Calm

14-02-2014 21 16.5 64.3 0 Calm Calm

14-02-2014 22 15.1 68.5 0 325 2.1

14-02-2014 23 15.4 70.2 0 315 4.5

15-02-2014 24 15.3 70 0 320 3.6

15-02-2014 1 19.4 60.1 0 315 4

15-02-2014 2 24.1 45.3 0.3 312 2.3


15-02-2014 4 27.1 37.2 0 Calm Calm

15-02-2014 5 32.1 32.1 0.2 315 1.3

15-02-2014 6 35.1 30.3 1 324 1.5

15-02-2014 7 36.5 29.4 0.3 316 1.9

15-02-2014 8 35 32 0.1 320 1.2

15-02-2014 9 34.5 34.1 0.4 Calm Calm

15-02-2014 10 32.6 36.3 0 Calm Calm

Annexure-IV

48

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

15-02-2014 11 30.2 47.5 0 320 1.5

15-02-2014 12 28.2 47.1 0 324 3.5

15-02-2014 13 26.2 52 0 314 4.1

15-02-2014 14 24 57.5 0 289 4

15-02-2014 15 23.6 63.2 0 280 3.5

15-02-2014 16 22 64.1 0 274 3.8

15-02-2014 17 21.1 65 0 263 6.9


15-02-2014 19 21.1 64.8 0 251 4.1

15-02-2014 20 20.2 65.2 0 225 2.3

15-02-2014 21 19.4 66.5 0 231 1.2

15-02-2014 22 18 67.2 0 Calm Calm

15-02-2014 23 17.3 68.2 0 Calm Calm

16-02-2014 24 17.3 68.5 0 243 1.2

16-02-2014 1 16.4 69 0 251 2.6

16-02-2014 2 16.5 69.3 0 265 1.3

16-02-2014 3 21 68.1 0 Calm Calm

16-02-2014 4 25 59.5 0.3 Calm Calm


16-02-2014 6 29.2 45.1 0 278 3.9

16-02-2014 7 32.4 35.2 0.2 280 2.5

16-02-2014 8 34.3 29.4 1 Calm Calm

16-02-2014 9 35.4 28.3 1 Calm Calm

16-02-2014 10 36.1 27.1 0.1 230 2

16-02-2014 11 35 29.1 0.4 235 1.6

16-02-2014 12 33.2 32.3 0.1 239 2

16-02-2014 13 31.4 37.4 0 241 3.4

16-02-2014 14 29.1 38 0 265 4.5

16-02-2014 15 26.1 44 0 269 6.3

16-02-2014 16 25 45 0 271 7.1

16-02-2014 17 23.5 46.2 0 315 9.3

16-02-2014 18 22.2 52 0 321 12.5

16-02-2014 19 21 59.5 0 329 6.5


16-02-2014 21 20 63.2 0 310 3.4

16-02-2014 22 19 63.1 0 282 1.2

16-02-2014 23 19.2 65.4 0 Calm Calm


-Transfer Error-

-Transfer Error-

Calm Calm

17-02-2014 1 17.5 65 0 Calm Calm

Annexure-IV

49

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

17-02-2014 2 17 67.3 0 234 2

17-02-2014 3 16.6 66.2 0 231 1.6

17-02-2014 4 17.2 66.3 0 243 2.5

17-02-2014 5 21.1 57 0 258 1.8

17-02-2014 6 25.6 45 0.2 269 1.4


17-02-2014 8 30 39.1 0.6 Calm Calm

17-02-2014 9 33.3 32.4 0.1 Calm Calm

17-02-2014 10 35.2 30.4 0.2 189 2.3

17-02-2014 11 36 29.6 0.2 196 4

17-02-2014 12 37.1 29.2 0 214 3.7

17-02-2014 13 37.2 29.4 0.4 216 2.6

17-02-2014 14 36.1 31 0 Calm Calm

17-02-2014 15 33 34.1 0 Calm Calm

17-02-2014 16 29.2 38.2 0 225 1.5

17-02-2014 17 28.1 45 0 231 2.6

17-02-2014 18 27 49.2 0 234 3.5

17-02-2014 19 26.3 56.2 0 236 1.7

17-02-2014 20 25.3 58 0 Calm Calm

17-02-2014 21 24.3 61 0 Calm Calm


17-02-2014 23 24 62.3 0 236 1.3

18-02-2014 24 23.4 63 0 Calm Calm

18-02-2014 1 23 64.5 0 Calm Calm

18-02-2014 2 23.2 63.1 0 270 1.3

18-02-2014 3 23.5 62.2 0 294 2.4

18-02-2014 4 23.4 60 0 306 3.6

18-02-2014 5 22 61.5 0 301 6.2

18-02-2014 6 22 64.3 0 281 2.9

18-02-2014 7 25.2 62.4 0 270 2.4

18-02-2014 8 29 51.2 0.2 Calm Calm


18-02-2014 10 31.2 43 0.5 278 2.6

18-02-2014 11 33.3 38.3 0 310 5.5

18-02-2014 12 35.2 33.5 0.1 316 4.6

18-02-2014 13 37.3 30.2 0.1 326 5.2

18-02-2014 14 38.5 27.1 0 330 6

18-02-2014 15 38.2 25 0.3 355 2.9

18-02-2014 16 38.3 26.2 0 360 3.7

Annexure-IV

50

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

18-02-2014 17 37.1 26.5 0 351 4

18-02-2014 18 36.3 33.1 0 335 5.6

18-02-2014 19 35.5 39.2 0 321 4.2

18-02-2014 20 36.4 43.2 0 325 2.1

18-02-2014 21 35.4 43.3 0 Calm Calm

18-02-2014 22 33.5 47.1 0 Calm Calm

18-02-2014 23 33.2 47.1 0 310 1.6


19-02-2014 1 31.1 50 0 Calm Calm

19-02-2014 2 31.2 54 0 Calm Calm

19-02-2014 3 30.1 56.1 0 281 2.4

19-02-2014 4 29 59.2 0 270 3.4

19-02-2014 5 28.4 60.2 0 278 5.5

19-02-2014 6 28.3 60.2 0 265 4.6

19-02-2014 7 27.3 61.2 0 263 2.2

19-02-2014 8 27.6 64 0 Calm Calm

19-02-2014 9 28 53.1 0 Calm Calm

19-02-2014 10 30 45.5 0.1 326 1.6


19-02-2014 12 31.3 40.2 0.4 320 5.1

19-02-2014 13 33.2 36.5 0.6 326 4.2

19-02-2014 14 33.3 32.1 0.6 360 3.5

19-02-2014 15 34 29.4 0.5 356 2.3

19-02-2014 16 34 29.6 0.3 Calm Calm

19-02-2014 17 33.2 31.2 0.1 345 2.3

19-02-2014 18 33.3 34.5 0 340 2

19-02-2014 19 32.1 39.4 0 335 1.7

19-02-2014 20 30 47.4 0 Calm Calm

19-02-2014 21 29.5 51.4 0 Calm Calm

19-02-2014 22 28.4 54.5 0 360 2.6

19-02-2014 23 27.4 56 0 356 1.3

20-02-2014 24 26 57.5 0 Calm Calm

20-02-2014 1 25.2 58 0 Calm Calm


20-02-2014 3 24.3 60.8 0 15 2.3

20-02-2014 4 24.3 61.5 0 10 3.6

20-02-2014 5 24.1 63.2 0 43 4

20-02-2014 6 23.2 64.1 0 49 5.6

20-02-2014 7 23.2 64.8 0 42 8.9

Annexure-IV

51

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

20-02-2014 8 22 66.2 0 16 12.1

20-02-2014 9 21.3 63.1 0 6 15.4

20-02-2014 10 21 58.4 0 4 8.6

20-02-2014 11 23.2 51.1 0 43 5.6

20-02-2014 12 27.1 42.1 0.3 41 2.1


20-02-2014 14 29 37 0 Calm Calm

20-02-2014 15 32.4 29.2 0.3 15 2.1

20-02-2014 16 33.5 29.2 1 20 1.6

20-02-2014 17 33.1 29.1 1 26 1.2

20-02-2014 18 34 27.5 0.1 32 2.9

20-02-2014 19 34 28.3 0.5 6 4.1

20-02-2014 20 33.3 29.5 0.1 26 3.2

20-02-2014 21 31.1 30.2 0 42 2.7

20-02-2014 22 29.3 35.1 0 Calm Calm

20-02-2014 23 26 42.3 0 Calm Calm

21-02-2014 24 24.1 47.2 0 61 2.3

21-02-2014 1 23.5 49.2 0 63 1.2

21-02-2014 2 21 54.3 0 Calm Calm

21-02-2014 3 20.4 56.1 0 Calm Calm


21-02-2014 5 19.1 59.3 0 59 2.6

21-02-2014 6 17.2 62 0 68 3.5

21-02-2014 7 17.5 63 0 62 2.9

21-02-2014 8 16.1 67.1 0 51 1.3

21-02-2014 9 16.4 66.1 0 Calm Calm

21-02-2014 10 16 68.6 0 85 2

21-02-2014 11 16 69.2 0 87 5.1

21-02-2014 12 16 64.5 0 91 2.3

21-02-2014 13 20.5 58.6 0 Calm Calm

21-02-2014 14 25.4 49.6 0.3 Calm Calm


21-02-2014 16 28.6 40.1 0 89 3.2

21-02-2014 17 31 34.2 0.3 95 4.9

21-02-2014 18 31.2 31.1 1 91 5.1

21-02-2014 19 32.1 30.2 1 74 5.4

21-02-2014 20 33.1 29.5 0.1 62 4.1

21-02-2014 21 33.1 30 0.4 63 2.6

21-02-2014 22 32.3 31.2 0 Calm Calm

Annexure-IV

52

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

21-02-2014 23 30.5 33 0 Calm Calm

22-02-2014 24 27.2 37.1 0 15 2.3

22-02-2014 1 25.6 42.2 0 10 3.3

22-02-2014 2 24.1 46.3 0 6 2

22-02-2014 3 23 48.6 0 345 4.1

22-02-2014 4 21.5 51.3 0 332 2.6

22-02-2014 5 20 54.6 0 359 1.8


22-02-2014 7 18.2 61.2 0 315 3.2

22-02-2014 8 18.1 63.2 0 321 3.4

22-02-2014 9 17.6 64.2 0 305 2.6

22-02-2014 10 17.3 66.4 0 274 2.9

22-02-2014 11 16.5 67.5 0 279 3.3

22-02-2014 12 16.4 67.4 0 270 1.2

22-02-2014 13 16.3 66.3 0 Calm Calm

22-02-2014 14 16.5 66.5 0 Calm Calm

22-02-2014 15 19.5 55.2 0 356 1.6

22-02-2014 16 23 46.8 0.2 343 2.5


22-02-2014 18 27.3 38.9 0.6 12 1.2

22-02-2014 19 29 31.4 0.2 Calm Calm

22-02-2014 20 30.1 29.2 0.3 Calm Calm

22-02-2014 21 31.3 29 0.2 3 1.3

22-02-2014 22 32.5 28 0.1 16 1.6

22-02-2014 23 31.1 34 0.3 Calm Calm

23-02-2014 24 29.3 34.4 0 26 1.3

23-02-2014 1 28.2 36.5 0 45 1.6

23-02-2014 2 26 37.9 0 49 2.6

23-02-2014 3 25.1 39.2 0 90 4

23-02-2014 4 23 43 0 85 3.1

23-02-2014 5 22.2 47.1 0 89 1.2

23-02-2014 6 21.3 51 0 Calm Calm

23-02-2014 7 20.4 54.4 0 Calm Calm


23-02-2014 9 19 57.3 0 45 3.2

23-02-2014 10 18.1 58.1 0 43 2.6

23-02-2014 11 16.5 60.2 0 34 2.5

23-02-2014 12 15.1 64.1 0 5 3

23-02-2014 13 15.2 67.1 0 12 2.4

Annexure-IV

53

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

23-02-2014 14 15.3 68.2 0 16 1.7

23-02-2014 15 15.2 69.2 0 Calm Calm

23-02-2014 16 15.2 69 0 Calm Calm

23-02-2014 17 20.1 57 0 43 1.2

23-02-2014 18 24.2 50.4 0.2 56 3.6


23-02-2014 20 27.2 39.6 0.6 13 5.6

23-02-2014 21 30.4 30 0.2 16 4.5

23-02-2014 22 30.5 28.2 0.3 5 2.6


-Transfer Error-

-Transfer Error-

24-02-2014 24 31 27.1 0.1 Calm Calm

24-02-2014 1 31.2 27.6 0.4 25 1.3

24-02-2014 2 30.1 30.6 0.1 36 3.6

24-02-2014 3 28 32.2 0 43 2.6

24-02-2014 4 26 34.5 0 Calm Calm

24-02-2014 5 24.6 35.5 0 Calm Calm

24-02-2014 6 23.6 34.6 0 89 2.1

24-02-2014 7 22 35.2 0 90 3.4

24-02-2014 8 20.2 40 0 96 4.5

24-02-2014 9 19 45.1 0 135 5.4


24-02-2014 11 18.1 50.3 0 168 8.5

24-02-2014 12 17 52.2 0 178 11.3

24-02-2014 13 16.6 54 0 198 12.5

24-02-2014 14 15.5 59.2 0 189 13.5

24-02-2014 15 14.6 59.5 0 213 5.6

24-02-2014 16 14 67 0 225 2.3

24-02-2014 17 14 68 0 231 1.2

24-02-2014 18 15.3 66.1 0 Calm Calm

24-02-2014 19 19.5 50.6 0 Calm Calm

24-02-2014 20 24.1 37.2 0.3 245 2


24-02-2014 22 27.1 30.5 0 254 2.9

24-02-2014 23 30.4 26 0.3 270 1.5

25-02-2014 24 32 24.8 1 Calm Calm

25-02-2014 1 32.1 24.4 1 Calm Calm

25-02-2014 2 33.5 24.2 0.2 281 1.3

25-02-2014 3 33.3 24.5 0.5 275 2.6

25-02-2014 4 33 26.5 0.1 271 3.6

Annexure-IV

54

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

25-02-2014 5 30.1 28.2 0 265 5.4

25-02-2014 6 27.3 32 0 241 5.1

25-02-2014 7 25.4 34.6 0 231 6.2

25-02-2014 8 23.1 39.5 0 226 8.6

25-02-2014 9 22.3 44.6 0 234 4.2

25-02-2014 10 21.2 48.1 0 271 3.1

25-02-2014 11 20.2 52.2 0 276 2.1


25-02-2014 13 19.5 55.1 0 225 5.1

25-02-2014 14 18 59.1 0 214 3.2

25-02-2014 15 17 61.4 0 231 4.1

25-02-2014 16 16.1 63.3 0 236 3.9

25-02-2014 17 16 67.1 0 242 8.5

25-02-2014 18 15.4 68.5 0 256 5.6

25-02-2014 19 14.2 71.1 0 270 3.2

25-02-2014 20 16.2 69 0 275 2.1

25-02-2014 21 21.2 51.2 0 Calm Calm

25-02-2014 22 25.2 39.4 0.3 Calm Calm


26-02-2014 24 30.1 30.4 0 360 2.6

26-02-2014 1 32.4 26.4 0.3 356 1.2

26-02-2014 2 33.1 25.5 1 Calm Calm

26-02-2014 3 34.2 24 1 Calm Calm

26-02-2014 4 34.3 24 0.1 24 1.2

26-02-2014 5 34.2 24.6 0.5 41 5.2

26-02-2014 6 33.1 27 0.1 45 4.3

26-02-2014 7 31.3 34 0 52 3.6

26-02-2014 8 28.2 36.3 0 91 4.6

26-02-2014 9 26.2 38.6 0 92 2.6

26-02-2014 10 25.2 37.6 0 93 2.1

26-02-2014 11 24 42.3 0 Calm Calm

26-02-2014 12 22.3 50 0 Calm Calm

26-02-2014 13 22.1 54.1 0 24 2.6


26-02-2014 15 21.1 57.1 0 3 4.6

26-02-2014 16 20.1 61 0 330 3.2

26-02-2014 17 19.4 63.5 0 315 4.1

26-02-2014 18 18 65.2 0 320 2.1

26-02-2014 19 18.2 67 0 324 2.9

Annexure-IV

55

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

26-02-2014 20 17 69.2 0 Calm Calm

26-02-2014 21 16.4 71 0 Calm Calm

26-02-2014 22 17.1 71.1 0 360 1.2

26-02-2014 23 21.2 63.2 0 358 2.1

27-02-2014 24 26.1 52.5 0.3 Calm Calm


27-02-2014 2 30 43.5 0 23 2.4

27-02-2014 3 33.5 33.2 0.2 35 3.4

27-02-2014 4 35.1 26.1 0.3 36 5.3

27-02-2014 5 36.1 25.5 0.2 49 5.6


-Transfer Error-

-Transfer Error-

27-02-2014 7 35.1 27 0.1 86 9.2

27-02-2014 8 35.1 28 0 93 10.1

27-02-2014 9 34.4 28 0 115 15.1

27-02-2014 10 33.2 28.3 0 125 13.1

27-02-2014 11 32.2 32.5 0 135 8.1

27-02-2014 12 29.3 42.6 0 110 6.3

27-02-2014 13 28.1 45.6 0 95 4.1

27-02-2014 14 26 48.3 0 90 3.2

27-02-2014 15 25.4 54.5 0 89 2.9


27-02-2014 17 24.2 55.3 0 35 2

27-02-2014 18 22.3 57 0 Calm Calm

27-02-2014 19 21.3 62.4 0 Calm Calm

27-02-2014 20 20.1 66.3 0 360 1.5

27-02-2014 21 19.1 68 0 5 1.3

27-02-2014 22 18.2 69.2 0 25 1.4

27-02-2014 23 17.3 69.6 0 36 2

28-02-2014 24 18.2 69.6 0 48 2

28-02-2014 1 20.2 60.2 0 51 1.6

28-02-2014 2 24 52.2 0.3 Calm Calm


28-02-2014 4 27.4 45.2 0 89 2.1

28-02-2014 5 29.6 34.2 0.3 90 2.9

28-02-2014 6 30.4 28.3 1.1 91 3.4

28-02-2014 7 30 24.3 1 95 1.9

28-02-2014 8 30.1 26.6 0.1 Calm Calm

28-02-2014 9 30.3 27 0.4 45 2.6

28-02-2014 10 30 24.6 0.1 43 1.8

Annexure-IV

56

Date (dd/mm/yy)

Hour Temp (Deg C)

R Humidity(%)

Solar (CCM)

Wind Direction

(Deg)

Wind Speed

(Km/hr)

28-02-2014 11 29.1 25 0 32 2.6

28-02-2014 12 27.6 30 0 51 1.4

28-02-2014 13 25.2 35.1 0 Calm Calm

28-02-2014 14 24.3 38 0 12 2.1

28-02-2014 15 22.4 42.3 0 19 2.6

28-02-2014 16 21.1 45 0 2 3.5


-Transfer Error-

-Transfer Error-


28-02-2014 19 18.4 50.1 0 359 3.4

28-02-2014 20 17.6 54.4 0 24 4.5

28-02-2014 21 16.2 53.2 0 35 3.2

28-02-2014 22 15.6 57 0 48 2.1

28-02-2014 23 15.1 61.5 0 Calm Calm

28-02-2014 24 14 63.2 0 Calm Calm

ANNEXURE-V

TOR Compliances

S.

No.

TOR Action Taken

1. Year-wise production details since 1994 onwards and clearly stating

the highest production achieved in any one year prior to 1994. It may

also be categorically informed whether there had been any increase in

production after the EIA notification, 1994 coming into force w.r.t. the

highest production achieved prior to 1994.

Earlier the mine was sanctioned to e-RSMDC as working

permission for an area of 625 Hectare in the year 1986 and

operated under EC dated 1996. The old working permission

in favour of e-RSMDC was withdrawn by the Mines

Department, Government of Rajasthan and granted fresh

mining lease for reduced area of 336.18 Hectare in favour

of RSMML for the period from 11.09.2007 (date of

Registration of Mining Lease to 10.09.2027. The mines

have not been operated by RSMML after the grant of

mining lease. The validity of mining lease was discussed in

the 6th EAC Meeting held during April 16th -18th, 2013 and it

was considered as new project.

2. The study area will comprise of 10 km zone around the mine lease

from lease periphery and the data contained in the EIA such as waste

generation etc. should be for the life of the mine/lease period

The revised EIA as directed in the 6th EAC meeting is

enclosed. About 1.92 lakh cubic meter of overburden is

expected to be generated, which will be backfilled and

leveled in mined out area concurrently.

3. Land use of the study area delineating forest area, agricultural land,

grazing land, wildlife sanctuary and national park, migratory routes of

fauna, water bodies, human settlements and other ecological features.

Covered in Sections-3.11,4.5 & 5.5 of the revised EIA

report.

4. Land use plan of the mine lease area should be prepared to

encompass pre-operational, operational and post operational phases.

Covered in Section-3.11,4.5 & 5.5 of the EIA report.

S.

No.

TOR Action Taken

5. A confirmation duly authenticated by the competent authority in the

State Government to the effect whether the project falls in Aravalli and

whether it is covered by the order of the Hon’ble Supreme Court dated

8.4.2005 in the contempt petition (c) 412/2004 in writ petition 202 of

1995 in the matter of Godavarman vs Union of India.

The area does not falls in Aravalli and it is the part of

desert.

6. Location of National Parks, sanctuaries, Biosphere Reserves, Wildlife

corridors, Tiger/Elephant reserves (existing as well as proposed), if

any, within 10 km of the mine lease should be clearly indicated. A

location map duly authenticated by Chief Wildlife Warden should also

be provided in this regard. Necessary clearance, if any, as may be

applicable to such projects due to proximity of the ecologically

sensitive areas as mentioned above should be obtained from the State

Wildlife Department/Chief Wildlife Warden under the Wildlife

(Protection) Act, 1972 and copy furnished.

There is no National Park, Sanctuary, Biosphere Reserve,

Wildlife corridor, Tiger/Elephant reserves (existing as well

as proposed) in the mine lease area and the buffer zone.

7. A detailed biological study for the study area (core zone and buffer

zone (10 km radius of the periphery of the mine lease)) shall be

carried out. Details of flora and fauna, duly authenticated, separately

for core and buffer zone should be furnished based on the field survey

clearly indicating the schedule of the fauna present. In case of any

schedule-I fauna found in the study area, the necessary plan for their

conservation should be prepared in consultation with and Wildlife

Department and details furnished. Necessary allocation of funds for

implementing the same should be made as part of the project cost.

The list of Commonly observed floral species in the mine

lease area and buffer zones is given in Tables-3.14 and

3.15 respectively.

The list of commonly observed faunal species in the mine

lease area is given in Tables 3.16 and 3.17 respectively.

8. Impact of change of land use particularly agriculture land and

gaucher/grazing land, if any.

Covered in Section-5.5 of the EIA report.

S.

No.

TOR Action Taken

9. R&R Plan/compensation details for the project affected people. While

preparing the R&R Plan, the National Rehabilitation & Resettlement

Policy should be kept in view.

No land is to be acquired for the mine. The total area to be

leased for Jakharda gypsum mine is 336.18 ha. No

pasture or forest land is to be acquired. After excavation of

gypsum, the area will be backfilled. Private land from few

families is likely to be acquired for a period of 4 to 5 months

on mutual consent basis with payment of land and crop

compensation @ Rs.70 per metric ton gypsum produced

and commitment that area after backfilling and levelling will

be returned back to the farmers.

10. Collection of one season (non-monsoon) primary baseline data on

ambient air quality, water quality, noise level, soil and flora and fauna.

Site-specific meteorological data should also be collected. The

location of the monitoring stations should be justified. Date wise

collected baseline AAQ data should form part of EIA and EMP report.

Baseline data collected for the period from December-2013

to February-2014 has been incorporated in revised EIA

Report (Reference- Chapter 4)

11. Air quality modeling should be carried out for prediction of impact of

the project on the air quality of the area. It should also take into

account the impact of movement of vehicles for transportation of

mineral. The details of the model used and input parameters used for

modeling should be provided. The air quality contours may be shown

on a location map clearly indicating the location of the site, location of

sensitive receptors, if any and the habitation. The wind roses showing

pre-dominant wind direction may also be indicated on the map.

Covered under chapter 5.2 of this Revised EIA Report.

Windrose diagram is enclosed as Figure-4.1 of the Revised

EIA report.

12. The water requirement for the project, its availability and source to be

furnished. A detailed water balance should also be provided. Fresh

water requirement for the project should also be indicated.

Water requirement for the project, etc. are given in Section-

5.4 of the Revised EIA report.

S.

No.

TOR Action Taken

13. Necessary clearance from the Competent Authority for drawl of

requisite quantity of water for the project should be provided.

The mining process is completely dry. Water will be

required for dust suppression, greenbelt development and

meeting drinking water requirements for the personnel

involved in mining operations.

No ground water will be used for mining of gypsum. The

required water will be arranged through contractor on

payment basis.

14. Details of water conservation measures proposed to be adopted in the

project.

Not Applicable

15. Impact of the project on the water quality both surface and

groundwater should be assessed and necessary safeguard measures,

if any required should be provided.

No major impact on surface water resources is anticipated.

Impacts on ground water resources is given in Section -5.4.

of the Revised EIA report.

16. Based on actual monitored data, it may clearly be shown whether

working will intersect groundwater. Necessary data and documentation

in this regard may be provided. In case the working will intersect

groundwater table, a detailed hydro geological study should be

undertaken and report furnished.

Groundwater is at a depth of about 45 m in the mine lease

area. The depth of mining is only 2.95 m. Thus, ground

water shall not be intercepted.

17. Details of first order stream, if any passing through lease area and

modification/diversion proposed, if any and the impact of the same on

the hydrology should be brought out.

There is no first order stream passing through the mine

lease area.

S.

No.

TOR Action Taken

18. Details of rainwater harvesting proposed, if any, in the project to be

provided.

No rainwater harvesting structures are proposed. However,

as a part of Area Development Activities, water reservoir in

village Jakharda will be constructed.

19. Information on the site elevation, working depth, groundwater table

should be provided both in AMSL and bgl. A schematic diagram may

also be provided for the same.

The general elevation in the mine lease area varies from 38

m to 40 m above mean sea level. The working depth shall

be 35.05 to 37.05 m above mean sea level. The perched

water is about 5 m bgl .

20. Quantity of solid waste generation to be estimated and details for its

disposal and management be provided. Details of backfilling

proposed, if any, should also be given. It may be clearly indicated that

out of the total waste generation during the mine life, the quantity to be

backfilled and the quantity to be disposed off in the form of external

dump (number of dumps, their height, terraces etc.)

Quantity of solid waste generation has been estimated in

Table-6.5 of the EIA report. Details of backfilling are given

in Section 6.5 of the EIA report. As per Scheme of Mining

also 1, 92,242 cubic Meter of overburden shall be

generated, which shall be backfilled on completion of

extraction of gypsum.

21. The reclamation plan, post mine land use and progressive greenbelt

development plan shall be prepared in tabular form (prescribed format)

and submitted.

The reclamation plan and plantation programme is given in

Section-6.5 of the EIA report.

S.

No.

TOR Action Taken

22. Impact on local transport infrastructure due to the project. Projected

increase in truck traffic as a result of the project in the present road

network (including those outside the project area) and whether it is

capable of handling the increased load. Arrangement for improving the

infrastructure, if contemplated including action to be taken by other

agencies such as State Government, if any, should be covered.

The projected increase in truck traffic is given in Section-

4.2 (iii) of the EIA report. No new road is proposed to be

constructed as the existing network is sufficient.

Truck density will be increase by about 50 trucks/day.

23. Details of the infrastructure facilities to be provided for the mine

workers.

The necessary funds for construction of first-aid room Rest

Shelter, water reservoir, Bus stop shelter etc. with

adequate facilities will be made available in consultation

with Gram Panchayat.

24. Conceptual post mine land use and Reclamation and Rehabilitation of

mined out area (with plans and with adequate number of sections).

Enclosed as Figure-2.1 of the EIA report.

25. Phase-wise plan of greenbelt development, plantation and

compensatory afforestation clearly indicating the area to be covered

under plantation and the species to be planted. The details of

plantation already done should be given.

Compensatory afforestation is not envisaged as no forest

land is to be acquired.

Greenbelt Development Plan is given in Section-6.6 of EIA

Report.

26. Occupational health impact of the project. Details of pre-placement

medical examination and periodical medical examination schedules

should be incorporated in the EMP.

Periodical medical examination for occupational health

surveillance of the labour population involved in mining

activities shall be conducted.

S.

No.

TOR Action Taken

27. Measures of socio-economic influence of the local community

proposed to be provided by project proponent. As far as possible,

quantitative dimension to be given.

RSMML will provide 100% financial assistance to the local

gram panchayat for construction of school building,

community development center, bus stop shelters, surface

water reservoir, primary health center at village Jakharda

under the Area Developmental Activities Programme and

local community benefited by the infrastructure

development. Area development Activities at village

Jakharda and nearby areas shall be proposed in

consultation with the local gram panchayats.

For survey /alignment work of pipe line for drinking water

from nearby point, RSMML shall approach the Gram

panchayat.

28. Detailed environmental management plan to mitigate the

environmental impacts which should inter-alia also include the impact

due to change of landuse, due to loss of agricultural land and grazing

land, if any, besides other impacts of the projects.

Environmental Management Plan is enclosed as Chapter-6

of the EIA report.

29. Public hearing points raised and commitment of the project proponent

on the same along with time bound action plan to implement the same.

Will be conducted at the scheduled date as fixed by

RSPCB.

30. Any litigation pending against the project and/or any direction/order

passed by any Court of Law against the project, if so, details thereof.

Not Applicable

31. The cost of the project (capital cost and recurring cost) as well as the

cost towards implementation of EMP should clearly be spelt out.

Cost of the project is Rs.60 lacs + the cost of

Environmental Management and Monitoring Plan as given

in Chapter 10.

rvr

Text Box

ANNEEXURE-VI

rvr

Text Box

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