Environmental Monitoring Report€¦ · JKUSDIP – Semi-Annual Environmental Monitoring Report...
Transcript of Environmental Monitoring Report€¦ · JKUSDIP – Semi-Annual Environmental Monitoring Report...
Environmental Monitoring Report
This report has been submitted to ADB by the Economic Reconstruction Agency, Government of Jammu and Kashmir, and is made publicly available in accordance with ADB’s Public Communications Policy (2011). It does not necessarily reflect the views of ADB.
This environmental monitoring report is a document of the borrower. The views expressed herein do not necessarily represent those of ADB's Board of Directors, Management, or staff, and may be preliminary in nature. In preparing any country program or strategy, financing any project, or by making any designation of or reference to a particular territory or geographic area in this document, the Asian Development Bank does not intend to make any judgments as to the legal or other status of any territory or area.
Project Number: 41116-023 December 2017 Period: January 2017 – June 2017
IND: Jammu and Kashmir Urban Sector Development Investment Program
Submitted by
Economic Reconstruction Agency, Government of Jammu and Kashmir
Semi-Annual Environmental Monitoring Report
Loan Number: 2331 IND
Period: January2017 to June 2017
IND: Jammu and Kashmir Urban Sector Development
Investment Program
Submitted By:
Economic Reconstruction Agency, Government of Jammu and Kashmir
Contents
1. INTRODUCTION ....................................................................................................................... 1
2. COMPLIANCE STATUS WITH NATIONAL /STATE /LOCAL STATUTORY
ENVIRONMENTAL REQUIREMENTS .................................................................................. 5
3. COMPLIANCE STATUS WITH THE ENVIRONMENTAL COVENANTS AS
STIPULATED IN THE LOAN AGREEMENT ........................................................................ 8
4. COMPLIANCE STATUS WITH ENVIRONMENTAL MANAGEMENT AND
MONITORING PLANS AS STIPULATED IN THE ENVIRONMENTAL
DOCUMENTATION AS AGREED WITH ADB. .................................................................... 9
5. APPROACH AND METHODOLOGY ENGAGED FOR ENVIRONMENTAL
MONITORING OF THE PROJECT ...................................................................................... 11
6. MONITORING OF ENVIRONMENTAL RECEPTORS/ ATTRIBUTES ............................. 11
7. ANY OTHER ENVIRONMENTAL ASPECTS, IMPACTS OBSERVED DURING
IMPLEMENTATION WHICH WERE NOT COVERED EARLIER ...................................... 28
8. DETAILS OF COMPLAINTS RECEIVED FROM PUBLIC AND ACTIONS TAKEN
THEREOF TO RESOLVE ..................................................................................................... 28
9. FOLLOW-UP ACTIONS AND CONCLUSION ..................................................................... 28
APPENDIX-1: PUBLIC CONSULTATION ATTENDANCE SHEET- TRANCHE 1 ............... 29
APPENDIX-2: SAMPLING LOCATIONS OF SANITARY LANDFILL SITE AT ACHAN,
SRINAGAR ............................................................................................................................ 30
APPENDIX-3: AIR AND NOISE SAMPLING SITE LOCATIONS IN JAMMU
SUBPROJECTS. ................................................................................................................... 31
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
1
1. INTRODUCTION
1.1 Overall Project Description
1. The State of Jammu and Kashmir lies in the northernmost part of the country and shares
international border with Pakistan and China. This physiographic situation attaches
strategic importance to the region as well as the infrastructural development in the state.
The state has three main geographical regions namely Jammu, Kashmir valley and
highlands of Ladakh. As per details from Census 2011, Jammu and Kashmir has
population of 1.25 Crores, an increase from figure of 1.01 Crore in 2001 census. The
population forms 1.04% of India in 2011, compared to 0.99% in 2001. As per census
2011, the Sex Ratio of female is 889 per 1000 male, which is below national average of
940. While, in 2001 the sex ratio of female was 900 per 1000 males. The literacy rate has
seen an upward trend at 67.16% as per 2011 census as compared to the national literacy
rate of 64.80%, while in 2001 literacy rate stood at 55.52%.
2. Jammu and Srinagar are the two major cities where majority of urban population is
concentrated while other smaller towns share the rest. Urban infrastructure in these
places for long has been neglected and hence, is subject to severe urban infrastructure
problems. Although, at least, majority of population in Jammu and Srinagar cities have
been provided with piped water supplies, the other urban amenities remain neglected.
This is mainly due to meager investments made in the urban infrastructure either by
private or by public sector.
3. The Government of Jammu and Kashmir (GoJK), apart from the ADB financed Multi-
Sector Project for Infrastructure Rehabilitation (MPIR) in Jammu and Kashmir, again
approached ADB for assistance in urban sector development for more development
works and studies so as to implement comprehensively the urban sector reforms. The
GoJK through Jammu and Kashmir Economic Reconstruction Agency has conceived the
Jammu and Kashmir Urban Sector Development Investment Program (JKUSDIP) in its
effort to boost economic growth in Jammu and Kashmir State. The primary objective of
JKUSDIP is to promote economic development in Jammu and Kashmir State through
expansion of basic services such as water supply, sewerage, sanitation, drainage, solid
waste management, urban transport and other municipal functions in Jammu, Srinagar
and other important urban centers of the State. JKUSDIP will also strengthen the service
delivery capacity of the responsible state urban agencies and urban local bodies through
management reforms, capacity building and training.
1.2 Project Objectives
4. The proposed JKUSDIP will foster the economic growth in Jammu and Kashmir State.
The long term Project objectives are to contribute to the economic development of
Jammu and Kashmir through enhanced and sustainable growth in the main urban areas
with emphasis on promoting commerce and on improvement of livelihood for the poor.
5. The urban sector sub-projects are aimed at expansion of basic services such as water
supply, sanitation, waste management, urban transport and other municipal functions in
Jammu and Srinagar cities and other urban centers in order to cater to the demands and
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
2
requirements of the increasing population. The overall program envisages the following
broad benefits:
i. Improved water supply system
ii. Improved sewerage/drainage systems
iii. Improved solid waste management
iv. Improved road and traffic (urban transport) conditions
v. Other municipal facilities
6. Besides the above mentioned outputs, the economic opportunity development plans
planned for five cities/towns (Kathua, Udhampur, Anantnag, Baramulla and Kargil) will
provide road map for future urban development in these towns. The investment program
will strengthen the service delivery capacity of the responsible state urban agencies and
urban local bodies (ULBs) through management reforms, capacity building and training
1.3 Environmental Category
7. The Project 1 under JKUSDIP was categorized as Environmental Category B, according to
ADB’s Environment Policy (2002). However, so far only one sub-project i.e., Procurement
of works at Sanitary landfill site Achan, Srinagar has been categorized as “B-sensitive”. All other subprojects under execution in Srinagar and Jammu have been categorized as
Category B.
1.4 Environmental Performance Indicators, if any
8. For effective monitoring, selected environmental parameters have been identified as
indicators which may be qualitatively and quantitatively measured and compared over a
period of time in order to assess/ensure the compliance to environmental management
plans (EMPs). The environmental performance indicators selected are physical, biological
and social characteristics identified as most important in affecting the environment at
critical locations all along the sub-project corridors. The parameters identified as
performance indicators are:
i. Compliance with environmental management and monitoring plans.
ii. Compliance to state/national environmental regulations.
iii. Monitoring of ambient air quality, water quality and noise levels and comparison with
baseline environmental quality and state/national standards.
iv. Biological parameters like survival success rate of plants and bio-indicators (like
frogs etc. as good indicator of environment) in case of Achan Landfill Site
1.5 Overall project progress, agreed milestones and implementation schedules
9. In Srinagar, overall project progress as on 30June 2017 is presented below for the followingsub-projects;
i. Construction of Approach Road to Achan Landfill Site at Srinagar. (Subproject
completed-100%)
ii. Procurement of Works at Sanitary Landfill Site (Cell-1) Achan, Srinagar (Subproject
progress- 100%).
iii. Providing, Laying, Jointing, Testing and Commissioning of Raw Water Transmission
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
3
Main from Harwan Reservoir to Nishat Water Treatment Plant in Srinagar City.
(Subproject completed- 100%)
iv. Construction of Cell-2 at existing Landfill Site Achan, Srinagar (Subproject progress-
81.21%).
v. Construction of Cell-3 at existing Landfill Site Achan, Srinagar (Subproject
Progress- (Subproject progress- 27.38%)
10. In Jammu,overall project progress for the following sub-projects is as under:
i. Procurement of Sewage Treatment Plant of Capacity 30 MLD based on Aerobic
AttachedGrowth MBBR Technology on Design, Supply, Construction, Installation,
Testing & Commissioning, Trial run for 6 months and Operation and Maintenance
for 12 Months (Turnkey Basis) at Jammu Package No. : JKUSDIP Jammu / WW –
04. (Subproject Progress-100%, STP was commissioned on 22nd August, 2016.
ii. Laying of special sewers network through drain falling in areas of Bakshi Nagar,
Shakti Nagar, Shiv Nagar &Janipur in Jammu city. Package No. JKUSDIP Jammu /
WW – 05. (Subproject Progress-78.05%)
1.6 Any other information useful for assessing environmental performance of the project.
11. All the necessary information useful for assessing performance of the project like EMP implementation status, Monthly reports,Environmental monitoring- Air, Water and Noise quality analysis have been furnished in this report. Public consultation and grievance redressal:
12. Public consultation has evolved as a useful tool in addressing the issues and rectification of the same wherever possible.The public consultation is the ongoing and continuous process, which is conducted on regular basis in Jammu and Srinagar subprojects under execution, with local residents to ensure that they are fully engaged in the project and have the opportunity to participate in its implementation. Formal consultations as well as adhoc regular discussions with the local residents both form part of the public
consultation process. Attendance sheet of the participants attached as appendix 1.
13. Communication with the local residents is always open and views of the residents are taken into consideration during planning of the work programs under JKUSDIP so that the people suffer least disturbance and inconvenience as the work is executed.
14. Various issues were discussed during formal consultation which includes:-
a) Removal of surplus and waste material b) Restoration of damaged water supply connection c) Restoration of roads and lanes d) Inconvenience with regard to access disruption e) Dust and noise problems faced during execution of work f) Use of proper barricading to ensure the safety of public and workers.
15. Mitigation measures discussed during formal consultation includes:
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
4
i. Dust Issues: By proper dust suppression measures andassessment of noise/air monitoring and application of mitigation measures. Frequent water sprinkling and removal of left over soil arising due to the excavation/ different construction activities.
ii. Clearing passageways and roads of surplus waste material on priority iii. Speedy restoration of all the utilities iv. Simultaneous road restorations after execution of work v. Provision of alternate access routes till restoration is achieved vi. Barricading of the site under construction to ensure safety of pedestrians etc.
16. Refer section 6.4 under Air, Noise and Water Quality data, which shows airquality evaluation of primary/ gaseous pollutants throughout the environmental monitoringperiod shows values well within the permissible limits at all sampling locations. Similarly, RSPM (particulate matter PM10 and 2.5) values were also on lower side and in-line with the baseline monitoring in most cases and permissible standards. The Water quality results shows in-line with standards and baseline monitoring data largely which shows the effective implementation of various mitigation measures as per Environmental Management Plan (EMP) of each subprojects under execution.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
5
2. COMPLIANCE STATUS WITH NATIONAL /STATE /LOCAL STATUTORY ENVIRONMENTAL REQUIREMENTS
17. Table 1: Status of statutory environmental requirements is summarized below;
S. N. Name of Sub-project Statutory Environmental Requirements
Status of Compliance Actions Required
Srinagar 1 Construction of Approach Road
to Achan Landfill Site at Srinagar. Package No.: URBAN/SGR/SWM/02
Subproject Completed (100%).
2 Procurement of Works at Sanitary Landfill Site (Cell-1) Achan Srinagar. Package No. : JKUSDIP/SWM/01
Subproject Completed (100%).
3 Procurement of works of construction of sanitary Landfill Cell-2 and Leachate Treatment Plant’sat existing SLF site at Achan, Srinagar. Package No. : JKUSDIP/SWM/03
Environmental clearance under EIA notification, 2006
Not Required. SMC has been instructed to apply and obtain renewed consent to operate SLF cell 2 & 3 vide No ERA /DK/12/2582 Dated 6/05//2017 and Vide No GKW 4587-4590 Dated 26-05-2017. SMC has submitted all requisite documents to SPCB and case is still under process with SMC/SPCB.
Approval for tree cutting Not Required.
Consent to establish/ operate sanitary landfill from SPCB as per MSW 2000 Rules
Consent to establish Landfill from JKSPCB obtained by SMC: 281 of 2015 Dated 25-04-2015 validity upto September 2015
Consent to establish & operate D.G Set
Old consent details: Consent to Operate vide consent no. 112 of 2015 Dated: 14-07-2015 (validity till 23-06-2016).
Fresh and renewed Consent to operate: Obtained and submitted by contractor vide consent no. 42/OF RDH of 2017 Dated 03/05/2017 Valid till 03/05/2018
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
6
Consent to operate Stone Crusher Plant
Not required at present
PUC certificates for contractor’s vehicles.
Obtained and submitted by Contractor
4 Providing, Laying, Jointing, Testing and Commissioning of Raw Water Transmission Main from Harwan Reservoir to Nishat Water Treatment Plant in Srinagar City. Package No. : (JKUSDIP/SRINAGAR/WS/01)
Subproject Completed (100%).
5 Procurement of works of Construction of Sanitary Landfill Cell-3 at existing Landfill Site at Achan
Environmental clearance under EIA notification, 2006
Not required SMC has been instructed to apply and obtain renewed consent to operate SLF cell 2 & 3 vide No ERA /DK/12/2582 Dated 6/05//2017 and Vide No GKW 4587-4590 Dated 26-05-2017. SMC has submitted all requisite documents to SPCB and case is still under process with SMC/SPCB.
Approval for tree cutting Not required
Consent to establish/ operate sanitary landfill from SPCB as per MSW 2000 Rules
Case is under process with SPCB
Consent to establish & operate D.G Set
Consent to Operate: Consent no. 42/OF RDH of 2017 Dated 03/05/2017 Valid till 03/05/2018
Consent to operate Stone Crusher Plant
Not required at present
PUC certificates for the contractor’s vehicles
Submitted by the Contractor.
Jammu.
6 Procurement of Sewage Approval for Tree Cutting Cutting of trees not required. Subproject Completed
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
7
Treatment Plant of Capacity 30 MLD based on Aerobic Attached Growth MBBR Technology on Design, Supply, Construction, Installation, Testing & Commissioning, Trial run for 6 months and Operation and Maintenance for 12 Months (Turnkey Basis) at Jammu Package No. : JKUSDIP Jammu / WW – 04
Consent to Establish and Operate STP from SPCB
Consent to establish obtained from SPCB vide Consent No: 167 of 2016 Dated: 16-03-2016 valid upto Nov 2016
Consent to operate: SPCB is in the process of granting consent to operate
Consent to establish and operate Stone Crusher
Not required
PUC Certificates for contractor’s vehicles
Not Required
7 Laying of special sewers network through drain falling in areas of Bakshi Nagar, Shakti Nagar, Shiv Nagar &Janipur in Jammu city. Package No. : JKUSDIP Jammu / WW – 05
Approval for Tree Cutting Cutting of trees not required.
Consent to establish and operate for Stone Crusher
Contractor procuring stone aggregate material from approved Stone Crusher Plant
Consent to Operate (New Consent) Consent No.: 14 of 2016 Dated: 04/04/2016 Valid upto: March 2017
PUC Certificates for contractor’s vehicles
Obtained and submitted by the contractor
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
8
3. COMPLIANCE STATUS WITH THE ENVIRONMENTAL COVENANTS AS STIPULATED
IN THE LOAN AGREEMENT
18. Table 2: The status of compliance with environmental loan covenantsis summarized below;
Loan covenants Compliance status
A. The State and ERA shall ensure that:
The project is carried out and all project facilities are designed, constructed, operated, maintained and monitored in compliance with the environmental laws and regulations of the borrower, State, ADB’s environment policy and EARF.
Being complied with.
Subprojects encroaching any national park or its buffer zone shall not be included in the project.
No subproject is encroaching upon any National Park or its buffer zone.
Each PMU shall prepare an IEE or EIA report as required, including an EMP, with adequate public consultation for each Subproject, in accordance with the EARF and submit it to ADB for review and approval before award of any contract. The EIA or IEE for “B sensitive” subprojects shall be subject to the 120 day requirement of public disclosure.
The IEE reports for all sub projects were prepared in accordance with EARF and submitted to ADB. Except construction of Sanitary landfill sites at Srinagar, no other subproject is so far categorized as ‘B sensitive’.
B. Each PIU shall ensure that:
All mitigation measures identified in the IEEs/ EIAs and the EMPs, prepared for the subprojects, as applicable, are incorporated in subproject designs, and are carried out during their construction, O&M, and are disclosed to stakeholders.
Being complied with
If there are any changes in specific locations or alignments of any infrastructure or project facilities after completion of the process of IEE/EIA or any new information is made available during detailed design and or implementation that has an impact on the environmental assessment process, then additional environmental assessment shall be carried out by ERA and the ERA shall take prior approval of ADB before further physical implementation of the subproject.
In case of any changes in specific location or alignments of infrastructure or project facilities after the process of IEE, additional environmental assessment shall be done and a process similar to IEE, acceptable to ADB, shall be undertaken.
All environmental clearances required by all laws, acts, and regulations at national, state and local levels are obtained in a timely manner and prior to commencement of civil works for the relevant subproject.
All required clearances have been obtained.
The ERA shall submit to ADB semi-annual progress reports on the implementation of the EMPs, and measures under the IEE/EIA, for review and disclosure in accordance with ADB’s Public Communications Policy
Semi-annual reports are prepared and submitted to ADB as per the guidelines.
Appropriate budgetary allocation is provided to PMUs to fulfill their responsibilities for implementation of mitigation measures and monitoring requirements as outlined in the IEEs/ EIAs and the EMPs. ERA shall design and conduct training programs for environment specialists and project staff.
Environmental monitoring and mitigation costs allocated/ incorporated in contract agreements/ bidding documents. ERA has conducted environmental training programs for project staff.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
9
4. COMPLIANCE STATUS WITH ENVIRONMENTAL MANAGEMENT AND MONITORING PLANS AS STIPULATED IN THE ENVIRONMENTAL DOCUMENTATION AS AGREED WITH ADB.
19. Table 3: The compliance status with environmental management and monitoring planis summarized below;
S.# Sub-Project Name EMP Part of Contract Documents
EMP Being Implemented
Status of EMP Implementation
Actions Proposed/ Additional Corrective Measures Required (Yes/No) (Yes/No) (Excellent/ Satisfactory/
Partially Satisfactory/ Below Satisfaction)
Srinagar
1. Construction of Approach Road to Achan Landfill Site at Srinagar. URBAN/SGR/SWM/02
Subproject Completed.
2. Procurement of Works at Sanitary Landfill Site (Cell-1) Achan Srinagar. (JKUSDIP/SWM/01)
Subproject completed
3. Providing, Laying, Jointing Testing and Commissioning of Raw Water Transmission Main from Harwan Reservoir to Nishat Water Treatment Plant in Srinagar City.(JKUSDIP/SGR/WS/01)
Subproject Completed
Procurement of works of construction of sanitary Landfill Cell-2 and Leachate Treatment Plant at existing SLF site at Achan, Srinagar (JKUSDIP/SWM/03)
Yes
Yes Satisfactory
5. Procurement of works of construction of Sanitary Landfill Cell-3
Yes
Yes Satisfactory
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017 – June 2017)
10
Jammu.
6. Procurement of Sewage Treatment Plant of Capacity 30 MLD based on Aerobic Attached Growth MBBR Technology on Design, Supply, Construction, Installation, Testing & Commissioning, Trial run for 6 months and Operation and Maintenance for 12 Months (Turnkey Basis) at Jammu Package No. : JKUSDIP Jammu / WW – 04.
Yes Yes Satisfactory Subproject completed.
7. Laying of special sewers network through drain falling in areas of Bakshi Nagar, Shakti Nagar,Shiv Nagar &Janipur in Jammu city. Package No. : JKUSDIP Jammu/ WW – 05
Yes Yes Satisfactory Contractor to further ensure that all safeguard measures are diligently applied.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
11
5. APPROACH AND METHODOLOGY ENGAGED FOR ENVIRONMENTALMONITORING OF THE PROJECT
20. In Srinagar, operation of Sanitary Landfill Site (Procurement of works of Cell-2 with an over-all
progress of 81.21%) is in progress and the construction of Cell-3 (over all progress of 27.38%)at
the existing landfill facility at Achan.Whereas, three subprojects (construction of approach road to
SLF site Achan, Procurement of Works at SLF Cell-1 and Raw Water Transmission Main from
Harwan Reservoir to Nishat Water Treatment Plant stands completed successfully. The
construction of Cell-3 is in progress. The Cell-2 original date of completion was November 2015
with a design capacity of 242,000 MT. However, the SMC requested for extension in the
operation Cell-2 and has reached a capacity of >450,000 MT till date.
21. In Jammu, twosubprojects viz., 30 MLD Sewerage Treatment Package (WW-04) and laying of
Special Sewers (WW-5) are under progress. The balance work of WW-01 & WW-02
alreadyallocated in Tranche-3 under single package of WW-07.
22. Allcontracting firmshave nominated and mobilized Environmental Safety Officers for ensuring
EMP implementation at each site and reporting thereof for the subprojects under execution.
Monthly environmental reports are being submitted at the end of each month by the respective
Contractors.
23. Site visit/ inspections are being carried out on regular basis to assess the EMP implementation of
thesubprojects under execution.
24. The safeguards staff conducts frequent site visits to monitor the implementation of safeguard
measures on sites and report to concerned official about issues/problems related to
environmental non-compliance. Necessary directions in the form of corrective action measures, in
case of non-compliances, are being issued to the contractors on the site and through letters
about the procedures to resolve problems/issues or requirements.
25. Apart from this, regular meetings on environmental issues are being taken by CEO, J&K ERA
and Director Safeguards, J&K ERA with consultants and environmental staff of ERA.
6. MONITORING OF ENVIRONMENTAL RECEPTORS/ ATTRIBUTES
6.1 Monitoring basis:
26. Ambient air quality, water quality and noise levels are being monitored to check if any adverse
impact is being caused by the construction activities. The monitoring of these variables is to be
carried out in construction areas at sensitive locations within 100m impact zone of the subproject.
The monitoring of environmental variables is being carried out as per the agreed Environmental
Monitoring Plan (EMP).
6.2 Type of environmental receptor/attribute to be monitored (for each type):
27. The environmental attributes monitored include the air, noise and water quality parameters at the
construction sites in sub-project corridors. The air quality parameters monitored include RSPM
(PM10) and (PM2.5), SO2 and NO2.The water quality parameters include temperature, pH,
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
12
Electrical Conductivity (EC), Dissolved Oxygen (DO), Biochemical Oxygen Demand (BOD5), Total
Suspended Solids (TSS), Total Dissolved Solids (TDS), Turbidity, Total Alkalinity, Total
Hardness, Calcium Hardness and Magnesium Hardness. In case of noise, the day time Leqvalues
are monitored.
6.3 Methodology, Regulatory Standards of monitoring and equipment’s adopted for
Environmental Monitoring Laboratory (EML):
28. Table 4:The Assessment Methodology, Acceptable Standards and Equipment’s adopted for monitoring under Tranche-1 subprojects are tabulated below;
S. # Parameters Assessment Methodology
1 Acceptable Standards
Cause for rejection
Equipment’s in Use
A. Ambient Air Quality (2NAAQ Standards, 2009)- Time weighted average
1. RSPM–particulate matter PM10
PM2.5
Gravimetric High VolumeSampler method (attached with cyclone).
Beta Attenuation
100 µg/m3
60 µg/m3
RespirableDustSampler, Envirotech-APM 460 BL Digital Balance, Schimadzu– BL-220H RSPM2.5 sampler, Instrumex, Model No. IPM-FDS 2.5/10µ
2. SO2 Modified West and Geake Method.
80 µg/m3 High Volume Air Sampler, Envirotech –APM 460BL. Thermo-electrically cooled gaseous sampling attachment, Envirotech –APM 411TE DigitalSpectrophotometer, EI 305.
3. NO2 Jacob &Hochheiser Modified (Sodium Arsenide) Method.
80 µg/m3 High Volume Air Sampler, Envirotech –APM 460BL. Thermo-electrically cooled gaseous sampling attachment, Envirotech –APM 411TEDigitalSpectrophotometer, EI-305.
B. 3Ambient Noise Level
1. Residential Area
Direct Reading in Decibel Sound Level Meter.
55dB(A) Leq
(Day time) Digital Sound Level Meter,
AZ-8928
2. Commercial Area
Direct Reading in Decibel Sound Level Meter.
65 dB(A) Leq
(Day time)) Digital Sound Level Meter,
AZ-8928
S.# Parameters Assessment Acceptable Cause for Equipment’s in use
1CPHEEO Manual,MoUD, GOI, May 1999; and MoEF, Act and Rules, 1986& Amendments 2000 2National Ambient Air Quality Standards (NAAQS) 3Standards specified in the schedule of Noise Pollution (Regulation and Control) Rules, 2000 of Government of India. The
Principal Rules were published in the Gazette of India, vide S.O. 123(E), dated 14.2.2000 and subsequently amended vide S.O.
1046(E), dated 22.11.2000, S.O. 1088(E), dated 11.10.2002, S.O. 1569 (E), dated 19.09.2006 and S.O. 50 (E) dated 11.01.2010
under the Environment (Protection) Act, 1986.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
13
Methodology Standards rejection
C. 4Ambient Water Quality (For Drinking / Ground Water)
1. Temp (in ºC)
Digital/Mercury Thermometer Method.
>20 ºC Digital/Mercury Thermometer
2. Color (Hazen units)
Hazen Method 5 Platinum cobalt scale
25 -
3. Taste and Odour
Un-objectionable
Objectionable
-
4. pH value Electrometric Method. 6.5-8.5 >8.5 Digital pH Meter, HANNA – HI98127,
5. Electrical Conductivity (EC) µs/cm
Electrometric Method. ≤ 500 µs/cm 1000 µs/cm Digital TDS/EC Meter, HANNA – HI-96311
6. Dissolved Oxygen (DO) mg/l
Winkler's Method Using Azide Modification
> 6 mg/l Winkler's Method
7. Total Suspended Solids (TSS) mg/l
Gravimetric (Filtration and Drying at 105°C)
<120 mg/L Hot Air Oven, Digital Balance, Schimadzu-BL-220H
8. Total Dissolved Solids (TDS) mg/l
Digital Meter Method. ≤ 500 mg/l 2000 mg/l BOD Incubator
9. Turbidity (NTU)
Nephelo Turbidity Method.
1mg/l 10 mg/l Nephelo Turbidity Meter, Systronics – 132
10. Total Hardness (as CaCO3) mg/l
EDTA Titrimetric 300 mg/l 600 mg/l -
11. Total Alkalinity (as CaCO3) mg/l
Titrimetric (Methyl Orange)
200 mg/l 600 mg/l -
12. Calcium Hardness (Ca) mg/l
EDTA Titrimetric 75 mg/l 200 mg/l -
13. Magnesium Hardness (Mg) mg/l
Calculation from total Hardness and Calcium
30 mg/l 150 mg/l -
D.5Bacteriological Parameters (For Drinking Water)
1. Escherichia coli (All water intended for drinking).
Most Probable number Method
Must not be detected in any 100 ml sample
E. 6Waste Water Quality (Leachate- from Solid waste landfill, Storm/ drain water, dry weather flow)
1. Temp (in ºC)
Digital/Mercury Thermometer Method.
75oC
Digital/Mercury Thermometer
4 Drinking water Specifications, IS-10500 5 Bacteriological Quality/ Standards of Drinking water, IS-10500 6 Standards for Discharge of Environmental Pollutants, IS-10500 7Shall not exceed 5°C above receiving water body temperature.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
14
2. Color (Hazen units) Platinum cobalt scale
- 5
25 -
3. Odour Objectionable/ Non-objectionable
Non-objectionable
-
4. pH value Electrometric Method. 5.5-9.2 Digital pH Meter, HANNA – HI98127,
5. Electrical Conductivity (EC) µs/cm
Electrometric Method. < 2000 Digital TDS/EC Meter, HANNA – HI-96311
6. Dissolved Oxygen (DO) mg/l
Winkler's Method Using Azide Modification
> 6 mg/L Winkler's Method
7. Biochemical Oxygen Demand (BOD5) mg/l
Five Days BOD as per APHA 2005
30 mg/l BOD Incubator
8. Chemical Oxygen Demand (COD) m/l
Dichromate Method (APHA 2005)
250 mg/l
9. Total Dissolved Solids (TDS) mg/l
Digital Meter Method. ≤500 mg/L 2100 mg/L Digital TDS/EC Meter, HANNA – HI-96311
10. Total Suspended Solids (TSS) mg/l
Gravimetric (Filtration and Drying at 105°C)
<120 mg/L Hot Air Oven, Digital Balance, Schimadzu-BL-220H
11. Turbidity (NTU)
Nephelo Turbidity Method.
5 mg/L 10 mg/L Nephelo Turbidity Meter, Systronics – 132
12. Total Alkalinity (as CaCO3) mg/l
Titrimetric (Methyl Orange)
200 600
Annotation: BOD= Biochemical Oxygen Demand; DO= Dissolved Oxygen; EC= Electrical Conductivity; NO2= Nitrogen Dioxide; PM10= Particulate Matter with particle size less than 10μ; PM2.5= Particulate Matter with particle size less than 2.5μ; RSPM= Respirable suspended particulate matter; SO2=Sulphur dioxide; TDS= total dissolved solids; TSS= total suspended solids.
29. Monitoring results and comparison with statutory requirements at National/State/Local levels.
30. The environmental monitoring data of Ambient Air quality, Water quality and Noise qualityof Srinagar
and Jammusubprojects under Tranche-1for the periodJanuary 2017 to June 2017 is presented below
in tabulated form.Discussion and graphical illustrations with comparative analysisprovided for each site
is provided herewith. All sampling, analysis and data generation is performedby the
EnvironmentalMonitoring Laboratory, J&K ERA under the supervision of PMC-JKUSDIP.
A. Air Quality
31. The results of air quality monitoring conducted on various sampling locations (Srinagar and Jammu) of
the subprojects under Tranche-1 are represented below;
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
15
32. Table 5: 8Air QualityMonitoringData of Sanitary landfill Site at Achan, Srinagar
Air Quality-Srinagar Subprojects
Site Code
Quarter Month of Sampling with date
Sampling Site/ Location
Site Type RSPM10 (µg/m3)
RSPM2.5 SO2
(µg/m3) NO2
(µg/m3) Permissible Limits/ Standards
100 60 80 80
Sanitary Landfill Site at Achan (Cell-2)
S-A2 9Baseline Data
March 29-03-2012
Inside Landfill Site
Residential 91.81 - 7.01 8.12
Q1 (Jan-March 2017)
March 07-03-2017
Inside landfill Site
Residential 37.3 32.4 8.5 19.3
Q2 (Apr-June 2017)
April 17-04-2017
Inside Landfill Site
Residential 186.1 26.6 12.4 23.3
May 18-05-2017
Inside Landfill Site
Residential 140.3 26.4 14.7 14.8
S-A3
Baseline Data
March 22-03-2012
Outside Landfill Site
Residential 66.05 - 6.07 5.67
Q1 (Jan-March 2017)
February 23-02-2017
Outside Landfill Site
Residential 70.2 43.6 14.5 23.4
Q2 (April-June 2017)
April 26-04-2017
Outside Landfill Site
Residential 78.6 26.6 13.6 17.8
33. Ambient air quality monitoring was conducted at designated site locations atAchan Landfill Site over
the period of six months and covers both Cell-2 and Cell-3 above attributes. During Q2 monitoring at
site S-A2, particulate matter (PM10) values were recorded at 186µg/m3 and 140.3µg/m3which is higher
than applicable standards and baseline characteristics. Main reason for higher values was attributed to
frequent movement of dumping vehicles of SMC and ongoing construction of SMC segregation units
of SMC near Cell-3. At all sites, particulate matter (PM10) results were within the permissible limits and
baseline characteristics.
34. The monitoring results of PM2.5 were within the permissible limits at site S-A2 and S-A3. Similarly, the
primary pollutants SO2 and NO2at all sampling siteswere well within the permissible limits as specified
in NAAQStandards and in line with baseline characteristics.Comparative analysis is illustrated in
Figure1 and 2.
8 Air Quality monitoring at Sanitary Landfill Site, Achan covers Cell-2 as well as Cell-3. Construction of Cell-3 is in process
and monitoring is applicable for the new cell. 9 Baseline monitoring of Air quality was carried in the month of March 2012 for Cell-2 (SLF site at Achan) and rains usually
remain common phenomenon hencethe values are on lower side for the evaluation or comparative analysis with present
monitoring.
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
16
Figure 1: Concentration of RSPM (PM10&PM2.5), SO2 and NO2 at monitoring site (S-A2) with NAAQ standards at Achan,Srinagar.
Figure 2:Concentration of RSPM (PM10&PM2.5), SO2 and NO2 at monitoring site (S-A3) with NAAQ
standards at Achan, Srinagar. 35. Table 6: Air Quality Monitoring Data of subprojects in Jammu
0
20
40
60
80
100
120
140
160
180
200
March April May Baseline Standard
RSPM µg/m³ 37.3 186.1 140.3 91.81 100
RSPM .₅ µg/m³ 32.4 26.6 26.4 60
SO µg/m³ 8.5 12.4 14.7 7.01 80
NO µg/m³ 19.3 23.3 14.8 8.12 80
Air Q
ualit
y(µ
g/m
³)
Air Quality Monitoring: Inside Landfill Site at S-A2, Achan
0
10
20
30
40
50
60
70
80
90
100
RSPM µg/m³ RSPM .₅ µg/m³ SO µg/m³ NO µg/m³Feb 70.2 43.6 14.5 23.4
April 78.6 26.6 13.6 17.8
Baseline 66.05 6.07 5.67
Standard 100 60 80 80
Air Q
ualit
y(µ
g/m
³)
Air Quality Monitoring: Outside Landfill Site at S-A3, Achan
Air Quality- Jammu Subprojects
Site Code
Quarter Month of Sampling with date
Sampling Site/ Location
Site Type PM10 (µg/m3)
RSPM2.5 (µg/m3)
SO2 (µg/m3)
NO2 (µg/m3)
Permissible Limits
100 60 80 80 Construction of 30 MLD STP at Jammu (JKUSDIP/WW/04)
S-4 Q1 09-02-2017 At 30 MLD STP, Bhagwati Nagar
Residential, Rural and other areas
88.7 41.7 11.7 21.5
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
17
36. At S-4 and S-7, air quality monitoring was conducted for 30 MLD STP and Sewerage Package (WW-05)
subprojects. The monitoring resultsshows particulate matter (PM10) values within the permissible limits at
the both locations and in line with the baseline characteristics. Similarly, particulate matter (PM2.5) shows
resultant values within the permissible level at site S-4 and slightly higher at site S-7.
37. Contractor instructed to ensure the follow-up of mitigation measures as per EMP like water sprinkling,
removal of spill-over excavated soil etc in order to reduce dust generation.
38. Thegaseous pollutants ofSO2 and NO2remain within the permissible limits as per NAAQ standards
throughout the monitoring period.The comparative analysis of air quality monitoring results of sub-projects
in Jammu isillustratedbelowin Figure 3& 4.
v
Figure 3:Concentration of RSPM (PM10&PM2.5), SO2 and NO2 at monitoring site (S-4) with NAAQ standards for a subproject in Jammu.
0
10
20
30
40
50
60
70
80
90
100
RSPM µg/m³ RSPM .₅ µg/m³ SO µg/m³ NO µg/m³Q1 88.7 41.7 11.7 21.5
Standard 100 60 80 80
Air
Qu
alit
y
(µg
/m³)
Air Quality Monitoring: Sewerage treatment Plant (30 MLD) at site S-4, Bhagwati
Nagar
S-7
Laying of Special Sewerage Package at Jammu(JKUSDIP/WW/05)
Baseline Data of Air Quality
Near Vishal Mega Mart, (Bakshi Nagar)
Residential, Rural and other areas
144.23 - 13.15 18.72
Q1
16-03-2017
Vikas Nagar, Sarwal
Residential, Rural and other areas
96.4 74.9 16.7 29.2
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
18
Figure 4: Comparison of concentration of RSPM2.5, SO2 and NO2 at monitoring site atS-7 with NAAQ standards for a subproject in Jammu.
B. Noise Quality
39. The measured noise quality data at various locations of Tranche-1 subprojects in Srinagar and Jammu is given below:
40. Table 7: 10Noise Quality Monitoring Data of Sanitary Landfill Site at Achan, Srinagar
Noise Quality- Srinagar Subprojects
Site Code
Quarter Month of Sampling with date
Sampling Site/ Location
Site Type Day Time Noise Levels dB (A) Leq
Day Time Noise Quality Standards dB (A) Leq
Procurement of Works at Landfill Site, Srinagar
S-N2
Baseline Monitoring
March 29-03-2012
Inside Landfill Site
Residential 55.4 55
Q1 (Jan-March 2017)
March 07-03-2017
Inside landfill Site
Residential
62.7 55
Q2 (Apr-June 2017)
April 17-04-2017
Inside Landfill Site
Residential 59.9 55
May 18-05-2017
Inside Landfill Site
Residential
59.7 55
S-N3 Baseline Monitoring
March 22-03-2012
Outside Landfill Site
Residential 58.6 55
Q1 (Jan-March 2017)
February 23-02-2017
Outside Landfill Site
Residential 55.4 55
Q2 (April-June 2017)
April 26-04-2017
Outside Landfill Site
Residential 58.6 55
41. Noise quality monitoring was conducted for Cell-2 and Cell-3in both Q1 and Q2 quarters of 2017. The
recorded noise level parameter at each location of S-N2 shows an average increase of 5.7 dB within
landfill site whereas, S-N3 site shows average increase at 3 dB outside landfill site. This is a marginal
increase and site specific, and mainly attributed to constant movement of SMC vehicles (average 80
10 Noise Quality monitoring covers both Cell-2 and Cell-3
0
20
40
60
80
100
120
140
160
RSPM µg/m³ RSPM .₅ µg/m³ SO µg/m³ NO µg/m³Q1 96.4 74.9 16.7 29.2
Standard 100 60 80 80
Baseline 144.33 13.15 18.72
Air Q
ualit
y(µ
g/m
³)Air Quality Monitoring: Special Sewerage Package in Jammu at site S-7, Vikas
Nagar Sarwal
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
19
vehicles) carrying MS waste at landfill site. The monitoring was done during day time. Comparative
analysis of noise quality/ levels at site S-N2 and S-N3 is illustrated in Figure 5.
Figure 5: Noise quality levels recorded at S-N2 monitoring site of Achan Landfill, Srinagar.
42. Table 8: Noise Quality Data of Jammu Subprojects
43. The monitoring of noise quality levels was conducted for site S-4of 30 MLD STP and S-7 of Sewerage
package (WW-05) which records at 59.48 dBand 58.91 dB and in line with baseline characteristics.
The monitoring was done during day time. Main source of noise at these sites was the movement of
vehicles and STP operation and construction works at S-7. Contractor wasinstructedto
maintainmitigation measures as mentioned in EMP so as not to allow any increase in present noise
levels.
44. Comparative analysis of noise quality/ levels at site S-4 and S-7 is illustrated in Figure 6.
50
52
54
56
58
60
62
64
Feb March April May Baseline
Data
Standard
S-N2 (Inside SLF site) 62.7 59.9 59.7 55.4 55.4
S-N3 (Outside SLF site) 55.4 58.6 58.6 55
No
ise
Le
vel
(dB
)
Noise Level: Measured at site S-N2 and S-N3 (Inside/ Outside SLF site)
Noise Quality- Jammu Subprojects Site Code
Quarter Month of Sampling with date
Sampling Site/ Location
Site Type Noise Levels (dB Leq)
Standards
Construction of 30 MLD STP at Jammu (JKUSDIP/WW/04)
S-4 Q1 09-02-2017 At 30 MLD STP,
Bhagwati Nagar Residential, Rural and other areas
59.48 55
Laying of Special Sewerage Package at Jammu(JKUSDIP/WW/05)
Baseline Data of Noise Quality Monitoring
S-7
Near Vishal Mega Mart
Residential, Rural and other areas
59.68 55
Q1
16-03-2017
Vikas Nagar, Sarwal
Residential, Rural and other areas
58.91 55
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
20
Figure 6: Noise quality levels recorded at monitoring site 30 MLD (S-4) and Sewerage Package WW-
07 (S-7)subproject in Jammu.
45. Synopsis of the Solid Waste Management subproject: Sanitary Landfill Site at Achan, Srinagar (Cell-2)
46. Under this sub project, a cell-2 having anexternal size of 215 m x 159 m and 195.36 m x 115.45 m internalsize has been proposed to suit site conditions for holding solid waste generated for two years in Srinagar city. The contract includes design, procurement, execution and operation of Leachate Treatment Plants of 60 KLD (1 no.) &30 KLD (2 nos.) having a total capacity of 120 KLD.Total dumping capacity of the Cell-2 is 242,000 MT. However, with the request from SMC for extension in operation of Cell-2 beyond original design capacity. Extended operation was carried on since November 2015 to present capacity achieved at >400,000 MT which is beyond the carrying capacity of design parameters of Cell-2.
47. Overall progress of this package is about 81.21%
Preparation of surface and earth filling has been completed.
Geogrid laying completed.
GCL laying completed.
HDPE Liner laying completed.
Laying of filter media completed.
Laying of Geo textile completed.
Construction of Ramp completed.
R.C.C Leachate collection sump completed.
Up gradation of approach road completed except Toe wall.
O&M work started in December 2013 and completed in November 2015. However, with a request from Srinagar Municipal Corporation (SMC) Cell-2 was further utilized.
48. Operation and Maintenance:The O&M of Cell-1 concluded on 30th November, 2015 and Cell-2 has
been commissioned on 1st December, 2013.
49. Leachate Treatment Plants: The RO (Reverse Osmosis) Leachate Treatment Plant LTP-30KL
(Unit-1) was commissioned on 13.06.2013, LTP-60KL (Unit-2) commissioned on 14.10.2013 and
LTP-30KL (Unit-3) commissioned on 08.02.2014.
52
53
54
55
56
57
58
59
60
Results Baseline Data Standard
S-4 59.48 55
S-7 58.91 59.68
No
ise
Le
vel
(dB
)
Noise Level: Measured at site S-4 and S-7 in Jammu Sewerage Packages
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
21
C. Water Quality
50. Water quality monitoring results conducted by Environmental Monitoring Lab at MSW, Landfill Site at
Achanalong with ancillary sites in Srinagar are presented below;
51. Table 9: Physio-Chemical characteristics of Raw Leachate (Influent) of Cell-2, Achan
Site Code
Quarter Month of Sampling with date
Sampling Site Temp ºC
pH E.C µs/cm
B.O.D mg/l
TDS mg/l
TSS mg/l
Turbidity NTU
Total Alkalinity
Influent/ Sludge pond Raw Leachate (Collection Sump)
S-W1
Q1 (Jan-Mar 2017)
January 30-01-2017
13 7.9 49520 5000 25320 2450 420 19500
Sludge Pond 12 8.1 61340 20000 30460 3000 610 20300
February 23-02-2017
Raw Leachate (Collection Sump)
21 8.3 44920 4500 23160 2300 400 16400
Sludge Pond 17 8.6 55860 19000 28020 3000 550 34900
March 18-03-2017
Raw Leachate (Collection Sump)
22 8.2 45380 4500 22520 2200 390 15100
Sludge Pond 20 8.5 51760 18000 28740 3400 530 16800
Q2 (Apr-June) 2017
April 21-04-2017
Raw Leachate (Collection Sump)
24 8.5 58680 4800 25880 2300 400 16800
Sludge Pond 25 8.6 109320 17600 53640 3300 550 22300
May 16-05-2017
Raw Leachate (Collection Sump)
25 8.6 59020 6000 29540 3500 450 17500
Sludge Pond 24 8.8 75720 18200 37700 5600 610 21900
June 29-06-2017
Raw Leachate (Collection Sump)
25 8.5 51700 5800 25280 3000 200 6700
Sludge Pond 24 8.8 115480 18000 60000 5000 520 20600
52. Monthly samples of raw leachate were collected from the leachate collection points of Cell-2 along
with leachate sludge samples of LTP’s from sludge pond at landfill site Achan. The colour of the raw
leachate usually remained blackish brown as a characteristic feature with pungent odour throughout
this sampling period. The parameters remained higher side as a distinctive feature of raw leachate
which indicates progressive and activeacidogenic phase in Cell-2. Leachate sludge sample shows
exceedingly higher values with an average 20% to 70% higher concentration than the raw fresh
leachate.
53. Comparative analysis of raw leachate characteristics is illustrated in Figures 7
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
22
Figure 7: Monthly Waste Water characteristics of Influent (Raw leachate)at Landfill site in Srinagar
54. Table10: Physio-Chemical characteristics of Treated Leachate from LTP’s of Cell-2 , Achan
Site Code
Quarter Month of Sampling with date
Sampling Site
Temp ºC
pH E.C µs/cm
D.O mg/l
B.O.D mg/l
TDS mg/l
TSS mg/l
Turbidity NTU
Total Alkalinity
Effluent (Treated Leachate)
Permissible Limits
11≤5oC
5.5-9.0
<2000 >6 30 2100 100 ≤5-10 200-600
S-W2
Q1 (Jan-March 2017)
January 30.01.2017
LTP 1 (Outlet Tap -1)
8 7.6 3940 1.5 150 1633 200 4.0 944
LTP 3 (Outlet Tap -2)
7 7.4 1926 2.5 56 875 190 3.0 440
February 23.02.2017
LTP 1 & 2 (Outlet Tap -1)
18 8.0 3048 1.5 150 1640 220 4.0 960
LTP 3(Outlet
Tap -2) 19 7.9 2958 1.5 150 1601 200 3.0 944
March 18.03.2017
LTP 1 & 2 (Outlet Tap -1)
21 7.9 2957 1.5 150 1486 210 3.8 720
LTP 3(Outlet
Tap -2) 21 7.8 2826 1.6 150 1426 220 4.0 728
Q2 (Apr-June) 2017
April 21.04.2017
LTP 1 & 2 (Outlet Tap -1)
24 7.7 7370 1.2 330 3940 320 5.0 1392
LTP 3(Outlet
Tap -2) 22 7.5 3487 1.5 200 1684 230 4.3 916
May 16.05.2017
LTP 1 & 2 (Outlet Tap -1)
24 7.9 5605 1.2 320 2820 330 5.0 1200
LTP 3(Outlet
Tap -2) 23 8.1 5655 1.2 325 2835 370 5.5 1228
June 29.06.2017
LTP 1 & 2 (Outlet Tap -1)
24 7.9 5900 1.2 310 3085 300 2.5 1480
LTP 3(Outlet
Tap -2) 24 7.8 5050 1.2 300 2550 280 2.2 1208
55. Treated leachate/ effluent samples were collected from the Leachate Treatment Plants (LTP’s) 1, 2 and 3. LTP 1 (having capacity of 30KLD) was non-functional since July 2015 to January 2017 due to
the technical issues and LTP 1 was operational since 1 February 2017.All effluent samples observed
11 Shall not exceed 5˚C above the receiving water temperature
Raw Leachate Sludge Pond Raw Leachate Sludge Pond Raw Leachate Sludge Pond Raw Leachate Sludge Pond Raw Leachate Sludge Pond Raw Leachate Sludge Pond
Temp. ˚C 13 12 21 17 22 20 24 25 25 24 25 24
pH 7.9 8.1 8.3 8.6 8.2 8.5 8.5 8.6 8.6 8.8 8.5 8.8
E.C (µs/cm) 49520 61340 44920 55860 45380 51760 58680 109320 59020 75720 51700 115480
B.O.D (mg/l) 5000 20000 4500 19000 4500 18000 4800 17600 6000 18200 5800 18000
TDS (mg/l) 25320 30460 23160 28020 22520 28740 25880 53640 29540 37700 25280 60000
TSS (mg/l) 2450 3000 2300 3000 2200 3400 2300 3300 3500 5600 3000 5000
Turbidity NTU 420 610 400 550 390 530 400 550 450 610 200 520
T. A (mg/l) 19500 20300 16400 34900 15100 16800 16800 22300 17500 21900 6700 20600
0
20000
40000
60000
80000
100000
120000
140000
Raw Leachate and Sludge Pond Analysis
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
23
were colorless and odourless as recorded in the previous samples. Normally Dissolved Oxygen of the
effluent sample is found on lower side mainly attributed to theleast atmospheric interaction in LTP
process. Higher DO can be achieved through physical means like cascading effect (by way of non-
streamline flow through drainage channel) from LTP to disposal point at Achan Stream. However, DO
of treated leachate is naturally raised on disposal into receiving water body of Achan Stream and DO
is raised on mixing. (since stream is a large water body and dilution factor will take place on
mixing).pH, Temperature and Turbidity were at recorded within optimum levels. Leachate effluent is
discharged in the Achan Stream (inland surface water) and the temperature difference isonly average
2-4°C against ≤5°C.
56. In reference to previous reports, same observations were recorded during this period forElectrical
Conductivity, BOD, TSS, TDS and Alkalinitywhich have been observed on higher side as recorded in
the previous reporting period.This is mainly attributed to the presence of high organic load of raw
leachate, incomplete bio-degradation process due to the non-segregated waste brought to Cell-
2andhuge unexpected load on LTP’s directly. Huge influx of high concentrated base parameters as
evident (refer Table 10and Fig 10 and 11 for comparative analysis) may not cater by the LTP’s in a longer run as reported in the previous reports. The average efficiency of LTP’s till date is only 20% (average). Inefficiency of LTP’s is directly correlated to lack of primary and secondary treatment. In
view of this, corrective measures are instructed by way of regular and proper O&M of LTP’s and change in membrane filters and servicing of LTP’s. More importantly, to increase the efficiency of
LTP’s primary and secondary treatment process is recommended to treat leachate (in terms of daily leachate generation) for Cell-3 including higher back-log leachate in Cell-3.
57. The present characteristics of higher values of Cell-2 shows active extended acidogenic phase. Phase extension is mainly attributed to 100% non-segregated waste received from SMC. This is an indication of active disintegration or degradation process of lower strata under complete anaerobic state and will be continuous process and resulting into high load on LTP’s. The non-segregated waste shows incomplete degradation process happening in Cell-2 resulting into deterioration of RO based LTP’s. This has resulted into continuous inflow of rich leachate to LTP’s.
58. Comparative analysis of treated leachate characteristics is illustrated in Figures-8is providedbelow;
Figure 8: Monthly trend of physio-chemical parameters of effluent (treated leachate) from LTP’s
LTP 1 LTP 3LTP 1 & 2
(Outlet Tap -1)
LTP 3 (Outlet
Tap -2)
LTP 1 & 2
(Outlet Tap -1)
LTP 3 (Outlet
Tap -2)
LTP 1 & 2
(Outlet Tap -1)
LTP 3 (Outlet
Tap -2)
LTP 1 & 2
(Outlet Tap -1)
LTP 3 (Outlet
Tap -2)
LTP 1 & 2
(Outlet Tap -1)
LTP 3 (Outlet
Tap -2)
Temp ˚C 8 7 18 19 21 21 24 22 24 23 24 24
pH 7.6 7.4 8 7.9 7.9 7.8 7.7 7.5 7.9 8.1 7.9 7.8
E.C (µs/cm) 3940 1926 3048 2958 2957 2826 7370 3487 5605 5655 5900 5050
D.O (mg/l) 1.5 2.5 1.5 1.5 1.5 1.6 1.2 1.5 1.2 1.2 1.2 1.2
B.O.D (mg/l) 150 56 150 150 150 150 330 200 320 325 310 300
TDS (mg/l) 1633 875 1640 1601 1486 1426 3940 1684 2820 2835 3085 2550
TSS (mg/l) 200 190 220 200 210 220 320 230 330 370 300 280
Turbidity NTU 4 3 4 3 3.8 4 5 4.3 5 5.5 2.5 2.2
T. A (mg/l) 944 440 960 944 720 728 1392 916 1200 1228 1480 1208
Effluent (Treated Leachate) characteristics of LTP's
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
24
59. Table 11: Ground Water AnalysisInside Landfill site (Tube well with average depth of 62 mtrs.)
Site Code
Quarter
Month of Sampling with date
Sampling Site
Temp ºC
pH
E.Cµs/cm
D.O mg/l
B.O.D mg/l
TDS mg/l
TSS mg/l
Turb. NTU
T.A
T.H
C.H
M.H
Inside SLF
Permissible Limits
- 6.5-8.5
≤500 >6
2-5 ≤500 ≤120
10 200 - 600
300 - 600
75-200
30-75
Baseline Data
March 27-03-2012
10.6 8 1005 BDL 18 512 248 35.2
The above 4 parameters were not part of the baseline monitoring. These additional parameters included into monitoring in November, 2013
S-W3
Q1 (Jan-March 2017)
January 30.01.2017
Tube Well (62 meter depth) near site office at SLF
- - - - - - - - - - - -
February 23.02.2017
12 8.3 1142 0.5 8 547 180 10 484 218
.4 104 28
March 18.03.2017
19 8.1 955 BDL 8 449 200 10 364 400 286 28
Q2 (Apr-June 2017)
April 21.04.2017
20 7.7 979 0.4 10 463 210 11 352 484 319 40
May 16.05.2017
20 7.3 1139 BDL 12 576 330 14 420 556 294 64
June 29.06.2017
19 7.3 1203 BDL 15 592 365 30 500 636 281 86.2
60. Monthly ground water samples were collected from the tube well at a depth of 62 meters which is motor driven and is located within the premises of the Sanitary Landfill at Achan near the site office. The ground water was found odourless and cloudy (turbid).Ground water analysis shows more or less similar physio-chemical characteristics as recorded in previous reports.
61. At this depth DO was anoxic and with low DO at 0.4 mg/lobserved due to the depth factor and least atmospheric interactions as direct impinging of oxygen is resisted due to deep underground condition. pH of the ground water meets the water quality criteria. The ground water study revealed high conductivity and may be due to the presence of wide variety of dissolved inorganic constituents, resulting from chemical and biochemical interactions between water and other geological constituents. High Turbidity of the water is mainly attributed to suction action of the submersible motor which is correlated to depth factor which leads to turbidity factor and may be due to the high values. The value of conductivity and Turbidity were higher than Water Quality standards. Values of BOD recorded on higher side than the permissible limits but in-line with baseline characteristics. Based on above results, this tube well (ground water) cannot be used as drinking water source but can be used for watering of plants and green turf in buffer zone. Comparative analysis of ground water characteristics is illustrated in Figure-9below
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
25
Figure 9: Water quality characteristics (Monthly basis) of Achan Stream near approach road to Landfill
site in Srinagar
62. Table 12: Physio-Chemical characteristics of Achan Stream (approach road at Landfill site)
Site Code
Quarter
Month of Sampling with dates
Sampling Site
Temp ºC
pH
E.C µs/cm
D.O mg/l
B.O.D mg/l
TDS mg/l
TSS mg/l
Turb. NTU
T.A
T.H
C.A
M.H
Achan Stream
Permissible Limits - 6.5-
8.5 ≤500 >6 2-5 ≤500 ≤120 5-10 200
- 600
300 - 600
75-200
30-75
Baseline Data March 24.03.2012
Upstream 10.4 7.5 562 1.2 16 479 230 10.3 The above 4 parameters were not part of the baseline monitoring. These additional parameters included into monitoring in November, 2013
Downstream 10.4 7.9 584 BDL 20 492 240 10.7
S-W4
Q1 (Jan-March 2017)
January 30.01.2017
Upstream 4 7.4 480 5.0 12.0 230 190 3.0 150 270 160 27
Downstream 4 7.5 485 4.8 12.5 235 205 3.5 155 272 157 28
February 23.02.2017
Upstream 9 7.8 512 5.2 12 257 200 3.0 160 252 206 11
Downstream 9 7.9 507 5.0 12 253 205 3.0 152 268 197 17
March 18.03.2017
Upstream 18 7.5 527 4.0 8 258 210 3.2 144 296 222 18
Downstream 19 7.5 520 3.9 9 245 220 3.3 142 296 215 19
Q2 (Apr-June 2017)
April 21.04.2017
Upstream 22 7.2 274 7.2 10 136 230 3.5 78 148 126 5.0
Downstream 23 7.3 276 7.0 10 136 240 3.7 64 140 120 5.0
May 16.05.2017
Upstream 21 6.7 277 7.2 12 138 220 3.4 80 116 90.2 6.3
Downstream 21 6.6 274 7.0 13 137 240 3.8 76 112 89.4 5.5
June 29.06.2017
Upstream 22 6.8 381 5.2 10 188 210 3.1 121 170 161 2.1
Downstream 22 6.9 376 5.0 11 187 220 3.2 116 164 159 1.2
63. Water samples were collected from this waterbody near the Achan landfill sitewhich usually have variable discharge. The Water was colourless with fishy odour. This stream is surrounded by human habitations and agricultural fields.
64. The flow regime of stream water usually remain low and its surface was found with macrophytes like Phragmites, Typha, Scirpus, Lemna, sp. with detritus activity which is the indicator of stagnant nature and high eutrophic load of water body.
Temp. ˚C pH E.C (µs/cm)D.O
(mg/l)
B.O.D
(mg/l)TDS (mg/l) TSS (mg/l)
Turbidity
NTUT. A (mg/l) T.H (mg/l) C.H (mg/l) M.H (mg/l)
Feb 12 8.3 1142 0.5 8 547 180 10 484 218.4 104 28
Mar 19 8.1 955 0 8 449 200 10 364 400 286 28
Apr 20 7.7 979 0.4 10 463 210 11 352 484 319 40
May 20 7.3 1139 0 12 576 330 14 420 556 294 64
Jun 19 7.3 1203 0 15 592 365 30 500 636 281 86.2
0
200
400
600
800
1000
1200
1400
Ground Water Characteristics of Tube Well at Landfill Site, Achan
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
26
65. Achan streamshows DO level at an average 5.5 mg/l with a minimum of 3.9 mg/l and 7.2 mg/l maximum throughout the reporting period. In most of the monitoring reports, month of March shows low values of DO andmainly due to the above characteristics of the water body but better than baseline monitoring in 2012. TheBOD of the stream due to the least winter flow and stagnant nature and higher values due to the presence of high organic load produced by the dumping of domestic and agricultural wastes by the locals. Conductivity and TDS are found well within the permissible limits. Total Suspended Solids of the stream was found on higher side and may be due to the presence of detritus and litter. The physio-chemical characteristics of Achan Stream/ Nallah show rest of the parameters in line with permissible standards and all the above parameters were within the baseline characteristics
66. In reference to previous reports and the above discussion, it is concluded that no impact is seen on the waterbody in relation to treated discharge from RO based LTP effluent. Comparative analysis of Achan Stream characteristics is illustrated in Figures- 10
Figure 10: Water quality characteristics (Quarterly basis) of Achan Stream near approach road to Landfill
site in Srinagar
0
100
200
300
400
500
600
Jan
Upstream
Jan
Downstream
Feb
Upstream
Feb
Downstream
Mar
Upstream
Mar
Downstream
Apr
Upstream
Apr
Downstream
May
Upstream
May
Downstream
Jun
Upstream
Jun
Downstream
Physio-Chemical Characteristics of Achan Stream near appraoch road of Landfill Site, Achan
Temp. ˚C pHE.C (µs/cm)D.O (mg/l)B.O.D (mg/l)TDS (mg/l)TSS (mg/l)Turbidity NTUT. A (mg/l)T.H (mg/l)C.H (mg/l)M.H (mg/l)
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
27
67. Table 13: Physio-Chemical characteristics of 30 MLD STP at Bhagwati Nagar, Jammu
Water sampling was done on clear and sunny weather conditions. The water quality of the inlet raw sewage was visually found to be polluted and the colour of water was very dark black with pungent odour due to the untreated raw water and the presence of high total suspended solids. But on the other hand in
the outlet, the water quality was visually fine and the colour of water was clear. The results of water samples collected from inlet revealed higher values of TSS, Turbidity, BOD5 and lower value of DO than the permissible limits. The variation of the parameter of TSS, Turbidity & BOD5 on higher side and DO value towards lower side can be attributed to the presence of high concentration of biodegradable organic substances and suspended solids from sewage coming out of households. In contrast to the inlet the treated discharged water depicts the values which are within the permissible limits except turbidity which was above the permissible limits. The total dissolved solid is related to aesthetic value of water as it is not the indicator of pollution therefore the TDS of treated effluent from STP can be ignored. The total suspended solids which are degraded anaerobically releases abnoxiousodour and restricts the light penetration thus reducing the growth of oxygen producing plants in the river/stream and it directly affects the turbidity.
Figure 11: Waste water characteristics of of Raw Sewage and Treated Sewage Waste Water.
12 Shall not exceed 5˚C above the receiving water temperature
Air Temp. ˚C Temp. ˚C E.C (µs/cm) TDS (mg/l) pHD.O
(mg/l)TSS (mg/l) B.O.D (mg/l) Turbidity NTU
Raw Sewage 34.8 25.4 878 583 7.1 0.3 209 119 178
Final Outlet 34.9 25.5 607 448 7.2 3.9 46.6 17 20.4
0
200
400
600
800
1000
Water Quality Monitoring: Comparative analysis between Raw Sewage and Treat ed
Sewage Waste Water of 30 MLD STP at Bagwati Nagar.
Sampling Point
Date Air-Temperature
Water- Temperature
Electrical Conductivity
Total Dissolved solids (TDS)
pH Dissolved Oxygen ( DO)
Total Suspended Solids (TSS)
Turbidity BOD5
Raw Sewage
20-06-2017
34.8 25.4 878 583 7.1 0.3 209 119 178
Final Outlet
20-06-2017
34.9 25.5 607 448 7.2 3.9 46.6 17 20.4
Standard for
discharge of Treated
Waste Water
12≤5oC
<2000 2100 5.5-
9.0
>6 100 30 ≤5-10
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
28
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
29
Appendix-1: Public Consultation Attendance
Sheet- Special Sewerage package WW-05, Jammu
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
30
Appendix-2: 13Sampling locations of Sanitary Landfill Site at Achan, Srinagar
13S-A: Air Quality Sampling Location; S-W: Water Quality Sampling locations; S-N: Noise Quality Sampling Locations,
S-W4
S-W1
S-W3
S-W2
S-A1
S-N1 S-A2
S-N2
JKUSDIP – Semi-Annual Environmental Monitoring Report (January 2017– June 2017)
31
Appendix-3: Air and Noise sampling site locations in Jammu Subprojects.