DELHI DEVELOPMENT AUTHORITY
FORM IA
For
Environmental Clearance Of
Prefab CAT II &EWS Housing For
Delhi Development Authority
At Pocket 5, Sector – 14, Dwarka, Delhi
SUBMITTED TO:SEIAA, Govt. Of NCT Delhi
Delhi Pollution Control Committee ,IVth Floor ISBT Building
Kashmiri Gate ,Delhi
SUBMITTED BY:
DELHI DEVELOPMENT AUTHORITY VIKAS MINAR, ITO, NEW DELHI – 110002
EIA Consultant:
DrA.K.Gupta of Shri Environmental Technology Institute, Delhi
FORM- IA
Land use
The proposed project site earmarked for development of CAT II &EWS Housing is located
at Pocket 5, Sector 14, Dwarka, New Delhi. Hence no land use change is anticipated as per
MPD
Project Site Location
The proposed project site is located at Pocket 5, Sector 14, Dwarka, Now under the
jurisdiction of Delhi Development Authority (DDA).
2 KM Radius
5 Km
10 KM Radius
Project Site
The proposed development has been planned in an area of 43100 SQM.
1.2. List out all the major project requirements in terms of the land area, built up area,
water consumption, power requirement, connectivity, community facilities, parking needs
etc.
Land area and Built-up area:
The site is almosteve in topography and possesses in the area of 43100 SQM. The Housing
Complex will be constructed as per the defined building by-laws of the Delhi Development
Authority The proposed Housing Complex will have total built-up area of 153313.81 SQ M
and the area statement for the proposed CAT II& EWS Housing Complex is as follows
Description Area in (SQM)
Gross total Site Area 43100
CAT II FAR 200%
Max Permissible Ground
13828.20
Proposed Ground Coverage @20.23% 8400.99
Permissible F.A.R. 83052.24 (200%).
Proposed Floor Area. ( cat-II) 51564.06
Proposed floor Area ,community needs
(SHOPS) 1318.73
Proposed part of EWS area under F A R 30140.34
TOTAL AREA under F A R 83023.03 sqm ( 199.93%)
Nos. of CAT-II Dwelling Units 632
Nos. of Blocks 6 Nos.
N0.of Floors (S+15)( S+14)
EWS
Proposed F.A.R. area (as given earlier ) 30140.34
Built-up Area under Community
permissible
502.69
Total Floor Area (EWS) incl under FAR 42598.08
Nos. of EWS Dwelling Units 1008
Nos. of Block 4
No of Floors (S+14)
Total Stilt Area (cat-II & EWS) 5945.87
No of Basements and area 2, 9915.115+9915.115=19830.23
SQM
Total built-up Area (CAT II& EWS
+STILT + Basements )
153313.81 SQM
Total Area under F A R 83023.03
Built up area not under F A R 70290.78
Total Nos. of Dwelling Units
(3BHK,2BHK & EWS )
1640 Nos.
Proposed Green Area @25.60 % 10631 SQM
Water perculating soft green area 5435 SQM
No of trees proposed 550 ( min reqd 520)
Proposed Vehicular Road Area 19100
Parking
Parking Required 1257 ECS
First & Second basement 585 ECS
Stilt 182 ECS
Open surface 501 ECS
Parking Proposed 1268 ECS
Water Consumption:
During the construction stage, water will be sourced primarily through tankers arranged by
the contractor and partly through bore wells only if D J B permits for the same. It is
estimated that water demand during the construction phase may vary from 10 to 15 KLD for
drinking purpose and toilets as the project is prefab based and prefab structure will be casted
in the casting yard.
During the project operational stage, water will be supplied by DJB and partly Ground
water only if DJB permits for the same (estimated to be 954.4 KLD, balance 227.2 KLD
shall be from STP). This would be supplied by DJB through command tanks. Each command
tank has its own command area / ground water will be used if DJB permits for this. The
water demand estimated for the proposed Housing Complex is shown in table below.
Table2: Water Requirement Details
S.No. Item Description Number of
inhabitants/
Population
Per Capita
water
Requirement
(L/D)
Total water
Requirement
(KLD)
A. Flushing Water 1640X5=8200 45 369
B Domestic Water (EWS) 1008X5=5040 90 453.6
C Domestic Water (Others) 632X5=3160 180 568.8
A+B Total Water Demand 1391.4
D Horticulture for
[email protected]/ SQM
11.4
Grand Total (A+B+C+D) 1402.8
Quantity of Sewage
disposal/day @80% of total
domestic demand
1113.12
Treated water available
@80% of sewage
generation
890.4
Requirement of Treated Waste Water From STP
(Flushing and Horticulture)
380.4
Treated water Extra to be used for sector road side green areas & plantation, Sector greens & Other DDA projects etc
510
Waste water:
During the Construction stage, For construction work total anticipated labour to be
employed will be 260 & labor camps will be made for site, Details of labor camp including all
facilities.
There will be temporary houses for the labors.
There will be temporary canteen facilities for construction labors.
All construction labors will be provided with Personal Protective Equipments like helmets, gum-boot, and hand gloves, etc.
There will be separate first aid box in project site office as well as in contractor site office.
There will be standby ambulance facility for whole construction schedule to deal with any emergency situations.
There will be tie-up with local nursing home for health screening purposes of the construction labors.
• Toilet with septic tank facilities/mobile toilets will be provided for construction labours during the whole construction period.
• Fuel for food cooking will be provided
• For recreation Common Room with TV and indoor games will be provided
During the operation stage, It has been estimated that approx. 1113.2 KLD of sewage will
be generated from the project. The entire sewage will be treated in STP of 1200 kld,. 890.4
KLD of water requirement will be met through recycling of STP treated water
The Developer will provide sewage treatment plant of following capacities base on FAB &
MBBR/SAFF process for treatment of sewage &sullage water The treated effluent shall be
of a quality suitable for flushing & horticulture for external areas.
SCHEMETIC DIAGRAM FOR PROPOSED STP
Parameters Inlet Water Characteristics Outlet water Characteristics
pH 7.5-8.5 6.0-8.0
BOD 5 day, 21OC 200-250 mg/l Less than 10 mg/l
Suspended Solids 200-400 mg/l Less than 5 mg/l
COD 500-600 mg/l Less than 30 mg/l
Oil & Grease 20 mg/l Less than 2 mg/l
Temperature Ambient
Power Requirement:
The total connected load as per BRPL is calculated to be around say, 16840 KW and
after considering diversity etc. the transformer rating shall be 11000 KVA for this Housing
Complex.
Power will be supplied by BRPL
The emergency purposes backup is provided with DG Sets of Total capacity of 1500 KvA
within which ,water supply pump backup is proposed by using DG set (1*125 KvA.)
HSD (low Sulphur variety) will be used for DG set .
Connectivity:
The Project site is located at Pocket 5, Sector 14, Dwarka having a Latitude 28O 36‟ 24.57” N
and longitude 77O 01‟48.30 ” E., adjacent to Delhi Metro (blue line).The site is within
Dwarka, which is one of the best planned new township of Delhi and is located in the South
West part of the State. Connected well with AIR, RAIL and ROAD to all major towns of
India
Community Facilities:
In order to fulfill the daily basic needs of resident population as well as step in population,
convenient shopping and community room-facility are planned for both categories.
For CAT II and EWS the community needs specifies the Senior Citizen Rm, Recreation
crèches & reading rm. is total of 529.05 SQ M. which is free from FAR.
Along with the community use, approx 1200 sqm area has been proposed for convenient
shopping etc. as per DDA requirement.
Parking needs:
For the Housing Complex ample parking space will be provided as per norms. For the EWS
category 213 ECS @ 0.5 ECS/100 sqm of floor area have been provided as open surface
parking. 1031 For CAT II @ 2 ECS/100 sqm of floor area have been provided under the stilt
area and basement.
1.3. What are the likely impacts of the proposed activity on the existing facilities adjacent to
the proposed site? (Such as open spaces, community facilities, details of the existing land
use, disturbance to the local ecology).
Impact on Land use pattern
The project will be established on designated area. And there will be no displacement or
resettlement of people from the acquired land. The land is not a forestland and no tree will be
uprooted. Therefore, the predicted impacts on the land use pattern of site will be
insignificant.
Impact on ecological setting
The impact due to construction activities on the ecology of the area will be confined to the
construction site itself. There will be negligible impact on the ecology (flora & fauna) during
the construction phase. As there is no forest in and around the proposed site, no impact is
anticipated on the fauna. However, no adverse impact is anticipated on the ecology due to the
proposed Housing complex.
No significant air pollutants air emissions will be discharged from the project. Therefore,
there will be insignificant impacts on the flora and fauna due to the operation of the project.
There will be very little SP M, SO2 and NOX emission from the proposed Housing activity.
The entire project influenced area will be developed as per the Master Plan Delhi
Development Authority, thus no induced development is foreseen due to the proposed
project. Also the proposed development shall be carried out as per the defined building by-
laws; hence no impacts are envisaged due to proposed development.
Moreover, proposed project will be provide value addition to the existing infrastructure
facilities such as improve public transportation system, telecommunications, power lines,
better roads security etc.
Further, during the construction as well as operation stage of the project, will generate direct
and indirect employment opportunities for a large section of society. The employment will
have positive impact thereby increasing the quality of life.
1.4. Will there be any significant land disturbance resulting in erosion, subsidence &
instability? (Details of soil type, slope analysis, vulnerability to subsidence, seismicity etc
may be given).
Soil Type:
In order to understand the existing scenario of soil quality in the study area of project site,
Soil sample were collected from project site based on the collected Soil Map for the area,
Existing Land use of the Area, sources of pollution etc. Samples were taken from one
location based on the above said criteria. The baseline concentrations of important
parameters like organic matter, nitrogen content and phosphate etc. indicate that soil in the
study area has good productivity potential and sandy silt in texture.
Table 3: Physio-Chemical Characteristics of Soil
S. No. Parameter Unit Project Site
1 pH at 25°C - 7.97
2 Organic Matter % 0.684
3 Sodium Content % by mass 0.39
4 Potassium Content % by mass 0.24
5 Calcium Content % by mass 0.583
6 Magnesium Content % by mass 0.31
7 Conductivity (1:3)at 25˚C % by mass 1750
8 Phosphate (as P 04) % by mass 0.045
9 Nitrogen Content % by mass 0.69
10 Sand % by mass 2.67
11 Silt % by mass 57.76
12 Clay % by mass 16.57
Slope Analysis: The project area possesses fairy plain terrain with drainage slope towards South-Eastern side
of the project site.
Total Station Survey was carried out not only for project site but also surrounding area.
Erosion / Subsidence:
Proper greening & paving of area will not cause any soil erosion problem and subsidence.
Seismicity:
The area under study falls in Zone-IV according to the Indian standard Seismic Zoning Map.
Suitable seismic coefficients in horizontal and vertical directions respectively, have to be
adopted while designing the structures.
1.5. Will the proposal involve alteration of natural drainage systems? (Give details on a
contour map showing the natural drainage near the proposed project site)
The proposed project activities will not cause any alteration of natural drainage system.
1.6. What are the quantities of earthwork involved in the construction activity-cutting, filling
reclamation etc. (Give details of the quantities of earthwork involved, transport of fill
materials from outside the site etc.)
During construction phase, some excavation is envisaged in order to provide foundations and
basement. This excavated soil (app. 79320.9 m3) will be properly stacked within the site
under tarpaulin cover; and will be reused for backfilling purpose, road construction etc. The
top-soil will be preserved separately and will be used for landscaping purpose only. Hence no
immediate adverse impacts on the land environment are envisaged.
1.7. Give details regarding water supply, waste handling etc during the construction period.
Water Supply
During the construction stage, water will be sourced primarily through tankers arranged by
the contractor and partly through bore wells only if D J B permits for the same.
Waste Generation / Handling
Soil excavated will be reused for backfilling and the fertile top soil will be reused for
horticultural purpose. Spillage of oil from the machinery or cement residual from concrete
mixer plants will be properly collected and disposed off. For construction laborers, proper
sanitary facilities & wash areas will be constructed and good hygienic conditions will be
maintained.
1.8. Will the low lying areas & wetlands get altered? (Provide details of how low lying and
Wet lands are getting modified from the proposed activity)
No Low lying and wetlands areas are present in and around the project site.
1.9. Whether construction debris & waste during construction cause health hazard? (Give
quantities of various types of wastes generated during construction including the construction
labour and the means of disposal)
Construction and pre-operational cleaning of the proposed facility would generate limited
amounts of some waste solvents and flushing materials. A licensed contractor would remove
these materials for appropriate off-site disposal as discussed below The hazardous / non
hazardous waste shall be subjected to proper segregation, reuse / recycle, disposal and proper
documentation.
Solid waste and debris that cannot be recycled, reused, or salvaged would be stored in on site
dumpsters or similar containers for disposal. Potentially hazardous wastes would be
separated from normal waste including segregation of storage. All waste from the project site
would be removed in accordance with applicable regulatory requirements.
During construction, all chemical materials would be evaluated during the material receiving
process. Materials that are hazardous would be stored in identified storage areas that include
containment measures. Personal would be rained on the proper use, handling, protective
equipment, storage, and disposal of hazardous materials. A health and Safety Plan would be
developed and implemented to insure that the potential for exposure of construction workers,
workers on near by sites, and others in the area is minimized. The health and safety plan
would define worker safety training, monitoring procedures, and personal protective
measures. The construction phase would require use of various petroleum and chemical
products, including medium- weight oil, thinners, solvents, paint, gasoline and diesel.
The hazardous Waste is stored in leak proof container (s) and able to drain / remove liquids,
and the containers are duly marked with “Hazardous Waste “in red colouran with date of
beginning of storage on each containers. These Hazardous Waste containers are stored on
pucca floor in an isolated covered area in the unit in such a manner that it does not in any
way contaminate the environment or the ground water due to air/rain/ seepage/ leakage etc.
That storage facility is having appropriate containment system. Care will be taken
precautions to prevent any accidental ignition or reaction of ignitable or reactive waste.
The construction debris generated from the construction project will be common place in
nature and will not cause any health hazard to associate and nearby population. The
construction debris will be used for land leveling / backfilling and landscaping according to
its composition.. Waste concrete will be reused as aggregate in construction process. Total
construction waste general is estimated as following: -
Table 4: Details of Wastes Generated during Construction Phase
Particular Approx. Qt.(in MT)
Soil, Sand, Concrete & Gravel 15-20
Metals 3-5
Bitumen 1-3
Source: as per CPHEED manual of Municipal Solid Waste Management and TIFAC Report
Abstract on Construction Industry.
Approx. 260 labours will be used during the construction period. Proper sanitary facilities
will be provided to construction laborers through moveable Sulabh Souchalaya and treatment
will be done using septic tank. Wash areas will be constructed and good hygienic conditions
will be maintained.
2. WATER ENVIRONMENT
2.1. Give the total quantity of water requirement for the proposed project with the breakup of
requirements for various uses. How will the water requirement met? State the sources &
quantities and furnish a water balance statement.
Please refer to Clause no. 1.2 of Form IA for CAT-II &,EWS Housing Complex project
regarding details of water quantity, sources and wastewater generation. Kindly refer as given
below for water balance diagram of proposed project.
Water Storage:
Storage will be provided for one day‟s requirement. In order to ascertain the quantity of
water consumed, the supply will be through the water meter installed in the supply line. The
water main will be fed into Fire Fighting storage tanks with total capacity and from these
compartments the water will be allowed to overflow into Raw water Tanks, from the Raw
Water Tank, water will fed through a Water Treatment Plant and will be pumped into Treated
Domestic Water Tank. All the underground water tanks will be with adjacent pump room,
which will be located about 600 mm below tanks in order to ensure a positive suction to all
pumps. Half of the water storage will be done in overhead tanks in the proposed project.
1 No. of underground tank of 200 KL for proposed flushing water tank and 2 Nos. of 300 KL
for proposed domestic water tanks will be provided. All the buildings shall have bulk
overhead storage equivalent to half day consumption
The liquid effluent of 1113.12 KLD will be treated in 1200KLD STP
2.2. What is the capacity (dependable flow or yield) of the proposed source of water?
Daily water demand for the Housing Complex has been calculated to be about 1402.8 KLD (
including STP treated recycled water of 890.4KLD). Water demand will be met from DJB
and partly through bore wells only if D J B permits for the same.
2.3 What is the quality of water required, in case, the supply is not from a municipal source?
(Provide physical, chemical, biological characteristics with class of water quality):
Water will be supplied by DJB and partly Ground water only if DJB permits for the same.
Status of water quality in project-influenced area has been shown below in Table 5:
Table: Water Quality in Project Influenced Area
S. No. Parameter Bore well near Project site (Dwarka)
1 Colour (in hazen unit) 02
2 Odour Unobjectionable
3 pH 7.2
4 Total. Hardness, mg/l 248
5 Chlorides, mg/l 17
6 Fluorides, mg/ 0.4
7 TDS, mg/l 570
8 Calcium, mg/l 51
9 Magnesium, mg/l 26
10 Sulphate mg/l 9.5
11 Nitrate, mg/l 0.5
12 Total. Alkalinity, mg/l 183
13 Arsenic, mg/l <0.005
14 Iron, mg/l 0.11
15 Zinc, mg/l 0.21
16 Total Coliform, 3
17 E- Coli Absent
2.4. How much of the water requirement can be met from the recycling of treated
wastewater? (Give the details of quantities, sources and usage):
80%
Freshwater
Required 1022.4 KLD
INI
Initial Water
Requirement
1402.8 KLD
Flushing
369
KLD
Horticult
ure
11.4KLD
Treated
Effluent
890.4
KLD
(~510 KLD) Treated
water Extra to be used for sector road side green areas & plantation, Sector greens & Other DDA
projects etc
Domestic
1022.4
KLD
1113.12
KLD
Please refer Clause No. 1.2 & 2.1 of Form IA for Dwarka Housing project regarding details
of water quantities, sources and usage).
2.5. Will there be diversion of water from other users? (Please assess the impacts of the
project on other existing uses and quantities of consumption):
There will not be any substantial effect on water demand of this region due to proposed
project activity development will be as per the master plan and the peripheral services at the
sector level are already approved by DJB / MCD
2.6. What is the incremental pollution load from wastewater generated from the proposed
activity? (Give details of the quantities and composition of wastewater generated from the
proposed activity):
The liquid effluent of 1113.12KLD will be treated in STP of 1200KLD capacity .
Table 6 below shows the expected characteristics of wastewater.
Table 6: Characteristics of Domestic Wastewater
Parameter Expected Wastewater
Characteristics
Treated Wastewater
Characteristics
pH 7.5-8.5 6.0-8.0
BOD 5 day, 21OC 200-250 mg/l Less than 10 mg/l
Suspended Solids 200-400 mg/l Less than 5 mg/l
COD 500-600 mg/l Less than 30 mg/l
Oil & Grease 20 mg/l Less than 2 mg/l
Temperature Ambient
2.7. Give details of the water requirements met from water harvesting? Furnish details of the
facilities created.
Water Harvesting will be done as per design enclosed for recharging the ground water level.
The entire site is provided with planned underground drainage system with final disposal to a
natural drainage system of the area providing protection of the site from flooding,
water logging and preventing soil erosion.
1. Rainwater from the entire complex is proposed to be harvested from Roof and from
surface and landscape areas.
a) Rainwater harvested from surface areas, roads and driveways and landscape will be
first filtered in filter chambers having gravel and coarse sand as filter media .The RW
will be connected to twelve recharge wells constructed as per the specifications of the
central ground water board.
2. Rainfall data (Refer Sheet 1 of 2)
RAIN WATER HARVESTING CALCULATION FOR THE CAT II & EWS
HOUSING DWARKA, NEW DELHI
Run Off Calculation
(Q = 10 x C x I x A) cum/hr
Total runoff for roof area, Q1
Q1 = 10 x 0.90 x 35 x 0.840099
= 264.631185 cum / hr
Total runoff for Green area, Q2
Q2 = 10 x 0.10 x 35 x 1.9060
= 31.71 cum / hr
.
Total runoff for paved/Road area, Q3
Q3 = 10 x 0.80 x 35 x1.9100
= 534.8 cum / hr
Total Run Off to be recharged = Q1 + Q2 + Q3
= 836.631185 cum / hr.
Total Run Off to be harvested for 15 Minutes, i.e. 209.1577 cum
Volume of 1No. Harvesting pit of size 3.0M diameter and 3.5 M water depth
=24.75 cum / hr
.
No. of Pits =8.39
Total No. of Harvesting pits required =8 Nos.
storm water from terraces and other open areas will be collected through rainwater down take
pipes and connected to nearest deep drain with 100-200 mmdia pipes. The rain water will be
collected by catch manholes with minimum depth of 600 mm and slope of 1:350 towards
main drain with 300 mmdia PVC pipes and PCC cover. Open drains with perforated RCC
cover will be places at every 3 m interval. The channels will lead to approx. 13 nos. rain
water harvesting pits, located at different locations around the premises. The size of rain
water harvesting pits is 5x53m with desilting chamber 1.5x3m with 5 m effective depth. The
pits will be laid with 500 mm thick layer of 1.5-2.0 mm average dia coarse sand, over 500
mm thick layer of 5-10 mm dia gravels, which, in turn will be laid on 500 mm thick layer of
10-30 mmdia loose boulders. A perforated PVC pipe, laid inside bore; will transfer the
excess rain water to sandy layer. Casing will be provided with cleansed pea gravel of 3-6 mm
average dia. The run-off from roads and parking area is provided with oil & grease trap
system.
For collecting storm water, storm water drainage network has been provided during the
design stage as per the guidelines defined in Master Plan of Delhi City. In the project design,
it shall be ensured that no mixing of the storm water with waste effluent takes place. All the
storm water will be diverted to rain water – harvesting pits proposed in the complex. Roof
rain water harvesting potential for the proposed project site is 264.63m3/hr. The excess rain
water is disposed to the municipal storm water line as per the site condition. Diagram of
typical rainy well is shown below:
2.8. What would be the impact of the land use changes occurring due to the proposed project
on the runoff characteristics (quantitative as well as qualitative) of the area in the post
construction phase on a long term basis? Would it aggravate the problems of flooding or
water logging in any way?
No adverse impacts are envisaged due to proposed project on the runoff characteristics of the
area as adequate arrangements will be made to trap & treat the rainwater and suitable storm
water drainage system will be provided.
During the post-construction phase, runoff from the project shall not be allowed to stand or
enter into the roadside or nearby drain. Adequate measures (as discussed in Clause 2.7) shall
be take to collect such runoff and either shall be reused or stored in recharging pits suitable
garlanding drain as per the existing contours of the pot will be developed.
2.9. What are the impacts of the proposal on the ground water? (Will there be tapping of
ground water; give the details of ground water table, recharging capacity, and approvals
obtained from competent authority, if any):
As detailed out in Clauses 2.2, 2.3 and 2.5.
2.10. What precautions/measures are taken to prevent the run-off from construction activities
polluting land & aquifers? (Give details of quantities and the measures taken to avoid the
adverse impacts)
The best way of minimizing sediment loss from a construction site is to control the erosion in
the first place. Sediment control measures that capture eroded soil (for example, hay bales
and silt fences) are frequently limited in their effectiveness.
Erosion will be controlled by the following steps.
Clean 'run-on' water will be diverted from upslope around the disturbed area. Care
will be taken to ensure that such diversion of storm water above the disturbed area
does not itself cause flooding, erosion or scour.
Vehicle will be restricted to access to one stable entry and exit point.
Preserving grassed areas and retains the maximum cover of natural vegetation by
minimizing the amount of land disturbed by shaping. Mulch or revegetate disturbed
areas as soon as possible.
It will be ensured that stockpiles of sand, gravel, soil and similar materials are
located so that material:
- does not spill on to the road or pavement
- is not placed in drainage lines, depressions or watercourses
- cannot be washed into roadways, drainage lines, depressions or watercourses.
Accidental spills of soil or other materials on the roadway or gutter will be removed
daily.
Excess materials and water from cleaning tools and equipment down storm water
drains will be avoided.
Minimize on-site vehicle activity during wet weather or when the site is muddy.
Sediment control measures
Sediment control structures aim to capture sediment or other pollutants washed from the land
surface, thereby stopping them getting into receiving waters. As previously mentioned, it is
far better to prevent erosion in the first place than to rely on sediment control.
However, construction activities inevitably involve some land disturbance. Sediment control
measures are therefore an essential part of construction site management.
Sediment can be controlled by sediment basins, sediment traps or sediment filters.
Sediment basins and/or the smaller sediment traps are excavations with a barrier or bank that
may be constructed from a broad range of materials, including earth, gabions and rock, lined
with geotextile material . Sediment basins and traps are generally used to treat channelised
flow, generally by a combination of settling and filtration.
It is imperative that sediment controls, whether basin, traps or filters ,be regularly ,inspected
and maintained to ensure effective operation.
During the construction phase, runoff from the construction site shall not be allowed to stand
or enter into the roadside or nearby drain. Adequate measures shall be taken to collect such
run off and either shall be reused (if possible) or disposed at the designed construction waste
disposal location. Suitable garlanding drain as per the existing contours of the plot will be
developed.
2.11. How is the storm water from within the site managed?(State the provisions made to
avoid flooding of the area, details of the drainage facilities provided along with a site layout
indication contour levels):
As detailed out in Clause 2.7.
2.12. Will the deployment of construction labourers particularly in the peak period lead to
Unsanitary conditions around the project site (Justify with proper collection explanation):
Proper sanitary facilities like common bath place, temporary toilets etc. will be provided to
laborers and treatment will be done using septic tank.
2.13. What on-site facilities are provided for the, treatment & safe disposal of sewage? (Give
details of the quantities of wastewater generation, treatment capacities with technology &
facilities for recycling and disposal)
Domestic Wastewater Disposal:
The liquid effluent of 1113.12 KLD will be treated in 1200 KLD STP .
2.14. Give details of dual plumbing system if treated waste used is used for flushing of toilets
or any other use.
All the buildings shall have domestic and flushing water OH tanks separate, and separate
down take stacks, the flushing water line shall supply to the WC flushing cisterns only,
where as the domestic water shall be supplied through a separate down take system to all
other outlet points.
3. VEGETATION
3.1. Is there any threat of the project to the biodiversity? (Give a description of the local
ecosystem with it‟s unique features, if any):
There are no major wild life sanctuaries/parks within 10 km radius of the project site. Neither
any rare or endangered species have been recorded in the project influence area. There is no
notified natural/ Reserve forest area in the North West District. The Delhi NCR region falls
under a transition zone between the North Western Thorn Scrub Forest(IM1303) ecoregion
and Upper Gangetic Plains moist deciduous forests (IM0166) ecoregion, as delineated by
World Wildlife Fund for Nature (WWF). This transition zone bears characteristics of both
the ecoregions, and varies gradually from east to west. The study area represents the thorn
scrub forests in north western region of the Indian subcontinent. Many ecologists consider
this thorn scrub to represent a degraded state of tropical dry forests (Champion and
Seth,1968; Puri et al. 1989).
Babool (Acacia spp.), Eucalyptus (Eucalyptus hybrid), Shahtoot (Morus alba), Neem
(Azadirachtaindica), Seemal (BombaxCeibs),Aswath (Ficusbengaensis), Bel
(Aeglemarmelos) Amaltash (Cassia fistua), Sahjan (Moringaoleifera), Peepal (FicusreCAT-
IIiosa), Gulmohar (Delonixregia) are among the common dominant tree species found in the
study area.
Other than the large trees, some shrubs could also be located in the study area,dominated by
Thevetianerifolia, Langerostomiaspeciosa, Lantana camara etc. Lower no flowering plant
forms and cryptogamous vegetation are absent during the time of study. Climbers and lionels
were fewer in number.
The ecology of the study area is not very rich in diversity or high in endemism which may be
primarily accounted for the scattered distribution of poor quality and quantity of fodder. The
major mammalian fauna of the project influenced area involve common languor, Rhesus
macaques (macaquamulata) mongoose (Herpestrisedwardii) etc. Avifauna is primarily
represented by Common crow (Corvusspendens), House sparrow (Passer domesticus), bue
rock pigion(Columba livia), Rose ring paraqeet (Piteculacramerii),spotted doves
(Streptopeliachinensis) and finches. Common peacock (Pavocristatus), are known to be
present in the area. Small reptiles; primariysquamateslikeizards,chameleons, poisionous&
non-poisionous snakes are also found in the study area.
Amphibians and fishes are primarily restricted to the water logged and marshy areas. This
might account for their significant absence in the project influenced area. However the study
area represents densely distributed human habitation. Lack of suitable habitat and proper
food & fodder has lead away most of the faunal variety away from human habitations.
No endangered or endemic species (as notified in IUCN Red Data Book) are located within
the study area. No migratory birds breed in the study area. No Tiger reserve/ elephant reserve
/ turtle breeding place is located within 15 km radius of the study area.
3.2. Will the construction involve extensive clearing or modification of vegetation? (Provide
a detailed account of the trees & vegetation affected by the project):
The proposed site is an open land which has been earmarked under Residential Landuse in
Master Plan of Delhi.
3.3. What are the measures proposed to be taken to minimize the likely impacts on important
site features (Give details of proposal for tree plantation, landscaping, creation of water
bodies etc along with a layout plan to an appropriate scale):
There will not be any kind of impact of this project on site features. The Green Belt for the
proposed project has been planned in an area of 9060 SQM to provide a clean, healthy and
beautiful green environment for the people to live in and work in. Within the proposed
project site green bet area has been designed to achieve a blend between modern building and
various species of plants shrubs to create a clean, healthy and aesthetic environment that
provides a visual retreat and relaxation to the occupants of these buildings. A combination of
evergreen trees and deciduous species is used I these complexes. Some of the species are as
follows: -
Table 7: Generally Used Pant Species for landscaping
A) Evergreen Species
Scientific Name Common name
1) Alstoniascholaris Devil‟s tree
2) Callistemon sp. Bottle brush
3) Micheliachampaca Sita Ashok
4) Pumeria aba Champa
5) Roystoearegia Royal Bottle plant
6) Washngtoniafilifera Petticoat palm
B) Deciduous Species
1) Bauchiniavaregata Kachnar
2) Cassia fistula Amaltas
3) Cassia nodosa Pink cassia
4) Erythrinablackii Tota
5) Schleicheratrijuga Kusum
6) Tabebuiarosa Pink tabebuia
The planting arrangement should be based on optimal use of available land and quantum of
irrigation water and treated wastewater. It is recommended that tree plantation (large size
species) should be undertaken at the time of preparation of the site so that they would grow
to considerable size by the time of commissioning of the proposed project.
Kindly refer for landscaping plan of proposed CAT II & EWS Housing Complex.
4. FAUNA
4.1. Is there likely to be any displacement of fauna- both terrestrial and aquatic or creation of
barriers for their movement? Provide the details.
The proposed site is an open land and devoid of forestation, so in existing conditions, this
pace is not the habitat for local fauna. There will not be any type of displacement or any
other effect on the local fauna due to proposed project activities.
4.2. Any direct or indirect impacts on the avifauna of the area? Provide details.
Within the proposed project site, proper landscaping has been panned to provide a clean,
healthy and beautiful green environment for the people to live in and work in. Common
native variety of trees and ornamental flowering species will be planted in the green space.
Landscaping can have direct positive impact on the local avifauna, as this will provide shelter
to local birds.
4.3. Prescribe measures such as corridors, fish ladders etc to mitigate adverse impacts on
fauna:
These measures are applicable for this project.
5. AIR ENVIRONMENT
5.1. Will the project increase atmospheric concentration of gases & result in heat islands?
(Give details of background air quality levels with predicted values based on dispersion
models taking into account the increased traffic generation as a result of the proposed
constructions):
Increased traffic generation 1268 no. of vehicles due to project is not going to cause
significant increase in atmospheric concentration of gases and will not result in heat island
formation.
5.2. What are the impacts on generation of dust, smoke, odorous fumes or other hazardous
gases? Give details in relation to all the meteorological parameters.
Air Pollution Dispersion Relationship with Meteorology
The measurements of wind speed and direction, temperature, humidity, rainfall and solar
radiation are important parameters used in the study of air quality monitoring results and to
further understand the chemical reactions that occur in the atmosphere. Meteorological
monitoring is used to protect air pollution events such as inversions, high pollutant
concentration days and to simulate and predict air quality using computer models.
Wind Speed and Direction
The region has a semi-arid climate with extreme seasons, hot summers, and heavy rainfall in
the monsoon months and very cold winters. The mean monthly temperature ranges from
14.3OC in January (minimum 3
OC) to 34.5
OC in June (Maximum 47
OC). The annual mean
temperature is 25.3OC (WMO 1971)
Dust storms occur frequently during the summer months, leading to a build-up of particulate
matter in the atmosphere.
The monsoon period is favorable from the pollution point of view due to the frequent
washout of pollutants along with rain. Mixing height is an important parameter that
influences the dilution of pollutants. It varies diurnally as well as seasonally.
During the construction and operation phase of proposed project, air pollution causing agents
can be vehicular movement and occasional use of DG sets.
Stacks for DG Sets will be provided with proper height as per CPCB Guidelines and
emissions from DG sets will meet the stipulated norms as per NAAQM.
5.3. Will the proposal create shortage of parking space for vehicles? Furnish details of the
present level of transport infrastructure and measures proposed for improvement including
the traffic management at the entry & exit to the project site.
For the Housing Complex ample parking space in the open area has been provided. With the
consideration of surface parking, provision for parking will be provided for 213ECS FOR
EWS and 1031 ECS for CAT-II in open area at ground surface 2 level basements.
.
5.4. Provide details of the movement patterns with internal roads, bicycle tracks, pedestrian
pathways, footpaths etc., with areas under each category.
The total area is dedicated to roads, i.e. proposed vehicular road Area is 19100SQM. In the
project provision, wide service road is made for the smooth traffic movement. Internal roads
with suitable width have also been provided. Adequate CAT-II arrangement has been
provided covering al corners.
5.5. Will there be significant increase in traffic noise & vibrations? Give details of the
sources and the measures proposed for mitigation of the above.
The prime sources of noise levels during the construction phase are the construction
machinery and the vehicular noise. The effect of noise would be significant during day time,
the residential area located in the near vicinity of the construction site may increase in the
day time as well as night time ambient noise levels.
Mitigation Measures
The main stationary noise producing sources such as generators should be provided with
noise shield around them.
For protection of construction workers, earplugs should be provided to those working very
close to the noise generating machinery.
(a) Suitable damping the air compressor noise
(b) Silencers/mufflers in the air compressor and DG sets should be provided
(c) Regular preventive maintenance of pumps and other rotating equipments
will reduce the noise levels.
During the operation stage, there would be a minor increase in ambient noise levels in and
around the site due to Housing activities there will be quiet large no of population.
Mitigating Measures
Development of Greenbelt around the CAT II& EWS Residential complex can bring a
considerable reduction in noise levels;
During night & day time use of horns should be restricted
The noise generation levels will be confined within the surrounding area of construction site
and unlikely to affect the area 100 m away form the site. Construction period is only for
about two years, hence there will be short term, localized and reversible impact on ambient
noise levels during the construction activity.
Acoustic barriers should be placed near construction sites.
The maximum noise levels near the construction site should be limited to 75dB (A) Leq (5
min.) in industrial areas and to 65 dB (A) Leq (5 min.) in other areas.
There should be fencing around the construction site to prevent people coming near the
site.
Materials need not be stockpiled and unused equipment to be placed between noisy
operating equipments and other areas.
Constructing temporary earth bund around the site using soil etc, this normally is hauled
away from the construction site.
It is envisaged that there shall be maximum movement of CAT-IIht motor vehicles and 2-
wheelers inside the Residential Complex, hence this will have insignificant rise in noise
level. Moreover, this will be further minimized by plantation on the sides of internal roads,
on the open spaces inside and around the periphery of whole Residential Complex. Proper
maintenance of the internal roads will be carried out and informatory signboards shall be
provided to encourage vehicle owners to maintain their vehicle, not to bow horns and follow
the emission standards fixed by Government Authorities.
5.6. What will be the impact of DG sets & other equipment on noise levels & vibration in &
ambient air quality around the project site? Provide details.
Stacks for DG sets will be provided with proper height as per CPCB Guidelines and
emissions from DG sets will meet the stipulated norms as per NAAQM. Noise emission from
DG sets will meet the noise levels as per CPCB Guidelines.
6. AESTHETICS
6.1. Will the proposed constructions in any way result in the obstruction of a view, scenic
amenity or landscapes? Are these considerations taken into account by the proponents?
The land allocate for proposed project has been earmarked for the development of Housing
Complex, hence no such adverse impacts are envisaged.
6.2. Will there be any adverse impacts from new constructions on the existing structures?
What are the considerations taken into account?
The development in the entire project influenced area is as per the approved master plan of
Delhi and will be as per the provisions of Delhi Development Authority. Hence no adverse
impacts are anticipated from new constructions on the existing structures in this area.
6.3. Whether there are any local considerations of urban form & urban design influencing the
design criteria? They may be explicitly spelt out.
There are no local considerations of urban forms & urban design influencing the design
criteria. The proposed site falls under the area of approved Master Plan of Delhi. The housing
Complex project will be constructed within the designated as per the defined building by-
laws of Delhi Development Authority.
6.4. Are there any anthropological or archaeological sites or artifacts nearby? State if any
other significant features in the vicinity of the proposed site have been considered.
Within the project influence area, there are no significant archeological properties. Since all
the activities whether during the construction or operation stage, will be carried out in the
project premises, hence no impacts on any type of archeological monuments are envisaged.
7. SOCIO-ECONOMIC ASPECTS
7.1. Will the proposal result in any changes to the demographic structure of local population?
Provide the details.
Establishment of any residential project leads to socio-economic changes. Influx of
population leads to change in economic status of the community. The peak labour force will
be about 260 during the construction period.
Employment potential
For the proposed activity, the proposed activity is required to employ over 260 persons and
number of manpower, is also required to increase indirectly in various other activities during
the construction phases. Thus increasing the employment opportunities for local population.
Other activities also help the local population in terms of employment.
Significant number of permanent employees shall also be required during the operation phase
of the mall. Some of the areas, which directly offer the job potential, are, parking attendants,
sanitation workers, venders and hawkers.
Economy of the region
The increasing facilities in the transportation help to improve the economy of the area. Many
people are involved in various unit related activities directly or indirectly and help to improve
the general economic base of the region as a whole.
The operation of the project shall provide value addition to the existing infrastructure, as due
to development of the Housing Complex, facilities such as public transport, water supply,
telecommunications, power lines, road maintenance etc. shall be upgraded in and around the
project premises.
The operation of project and other allied facilities, will improve the employment
opportunities. During construction about 260 total skilled, unskilled and professional work
force including temporary and permanent employees will be required per day. This work
force will be hired locally in order to generate the employment to the local people. While
during the project operation stage for the purposes of day-to-day maintenance works about
40 persons will be employed.
Due to operation of proposed project, there will be enhancement in pubic health and safety.
All fire and safety measures suggested by Government Authorities will be taken and regular
mock drills will be conducted at the project site. Regular health check up will be carried for
persons working near DG sets and security guards.
Infrastructure Services in the Region:
Schools
The study area has adequate facility of education; there are several primary and secondary
schools located in the area. The educational facilities are provided in stages i.e. junior basic
school, senior basic school, higher secondary school, degree colleges, Polytechnic. Pre-
primary and primary educations are mainly the responsibility of local bodies. Middle,
secondary and senior secondary education is primarily looked after by Directorate of
educationNirmalBharetiya School -0.25 Km, National Law University -1 Km, Presidium
School -1.1 Km , Guru Gobind Singh Indraprasta University -1.5 KmEiglewings School of
Language Studies -1.15 Km
Tele-Communication
Three Telephone exchange is provided at District level, Telecommunication facility in the
study area is adequate; electronic telephone exchange is working in the study area, and
mobile facility is also available. Delhi is connected with one of the best telecommunication
networks in India.
Roads and Transportation System
The project area is having high road density. It is connected by a network of state level and
internal roads to the entire region. There are more roads which link Punjab, HARYANA, UP,
RAJASTHAN, i.e. GT Road, NH-8 connecting Delhi To Jaipur ,Outer Ring road, Ring
Road etc within 10 km distance
Post-Office
Postal facility is available at town.
Banks The study Area is having branches and ATMs of al major nationalized as well as privatized
banks. In addition to leading international banks, almost all nationalized and private sector
banks have branches in Delhi many with ATM centers. Financial Institutions are equally well
represented, as is the insurance sector with every nationalized company operating a branch
here.
Hospital The Health & Family Welfare Department of Govt. of Delhi.caters to health needs of this
region and also has to share the burden of migratory as well as floating population from
neighboring districts .
Medical facilities abound with multi-speciality hospitals, nursing homes and other health-
care centers all over Delhi . Catering to the citizens` health needs are: Artemis Hospital -8
Km ,VPS Rockland Hospital -2.2 Km ,Maharaja Agrasen Hospital 6 Km , Ayushmann
Hospital -2.2 Km
7.3. Will the project cause adverse effects on local communities, disturbance to sacred sites
or other cultural values? What are the safeguards proposed?
The CAT-II & EWS Housing Complex project will be constructed within the designated site
as per the defined building by-laws of Delhi Development Authority. There is no sacred site
or cultural heritage site in nearby vicinity of proposed project; hence no adverse impacts are
envisaged.
8. BUILDING MATERIALS
8.1. May involve the use of building materials with high-embodied energy. Are the
construction materials produced with energy efficient processes? (Give details of energy
conservation measures in the selection of building materials and their energy efficiency)
The major materials required for construction of the proposed project will be steel, cement,
bricks, metal, flooring tiles/stones, sanitary and hardware items, electrical fittings, water, etc.
PREFAB CONSTRUCTION TECHNOLOGY:
The construction is proposed to be in pre fab concrete structure. The technology adopted
shall be „3S‟ system.
The System is with Precast hollow core R.C.C column, once erected and plumbed, Precast
concrete beams are placed over with poring concrete in the hollow column and sealing
column-beam joint. After the portal is ready, precast slabs are placed over beams with a
further 40mm reinforced concrete screeding over them.
The walling system shall be with autoclaved aerated concrete blocks, which are having
higher thermal resistance than concrete.
ECOLOGICAL BENEFITS:
The columns, beams and slabs are all precast in factory or temporary fabrication yard, which
helps in
- Use of optimum quantity of water
- Use of optimum quantity of material ( say, cement & steel)
- Use of only steel shuttering for precast components - no requirement of wood, ply or
other formwork.
- Very less requirement of water at construction site.
- Less carbon emission at site
- Almost no shuttering is required.
- Much less noise and air pollution at site.
- Faster construction method reduces the project duration.
- Less number of work force requirement at site
- Minimise the construction waste.
The walling material is autoclaved aerated concrete blocks which has again lot of benefits
like
- AAC blocks are made of cement, sand and fly ash, which reduces the natural clay
consumption from fertile land, as in case of conventional bricks.
- Requires much less energy than the requirement in clay bricks.
- Optimum use of water
- Less volume of material requirement to cover constructed volume, considering 1 cum
of material in concrete covers 1.1 cum of constructed volume, in brick it covers
approx 1.5 cum, where as AAC covers approx 3.5 cum of volume.
- Low thermal conductivity.
- Because of larger block size, it requires less time, less water and jointing materials.
-
The Precast column beam and slab technology as explained above has been executed in
various housing projects in Maharashtra, Karnataka, and Andhra Pradesh. Some photographs
of the executed buildings are being submitted for perusal.
Table given below shows estimated quantities of construction material required for the
proposed Residential project.
Table 8: Estimated Quantities of Construction Material Required for Proposed Project
Construction Material Qty. Construction Material in MT
Cement 19500
Sand 38900
Aggregate 58400
Steel 3800
All the items to be used in the proposed project will be as per the national building code
specification. If the building materials with high-embodied energy are locally available, it
will be used in construction.
8.2. Transport and handling of materials during construction may result in pollution, noise &
public nuisance. What measures are taken to minimize the impacts?
Mitigation Measures for Air Pollution during Construction Stage
To minimize such impact following measures shall be taken:
All the loose material either stacked or transported shall be provided with suitable covering
such as tarpaulin, etc. Water sprinkling shall be done at the location where dust generation is
anticipated. To minimize the occupational health hazard, proper personal protective gears i.e.
mask shall be provided to the workers who are engaged in dust generation activity.
Mitigation Measures for Noise Pollution during Construction Stage
During the construction stage, expected noise levels shall be in the range of 80-85 dB(A)
which will decrease with increase in distance as per the Inverse Square Law. Administrative
as well as engineering control of noise will be implemented. Isolation of noise generation
sources and temporal differentiation of noise generating activities will ensure minimum noise
at receiver‟s end. To prevent any occupational hazard, ear muff / ear plug shall be given to
the workers working around or operating plant and machinery emitting high noise levels. Use
of such plant or machinery shall not be allowed during night hour. Careful planning of
machinery operation and scheduling of operation shall be done to minimize such impact.
8.3. Are recycled materials used in roads and structures? State the extent of savings
achieved?
It will be prefab structure as per the design in the casting yard and shall be installed at the site
as per the DDA specification.
The walling material is autoclaved aerated concrete blocks which has again lot of benefits
like
- AAC blocks are made of cement, sand and fly ash, which reduces the natural clay
consumption from fertile land, as in case of conventional bricks.
- Requires much less energy than the requirement in clay bricks.
- Optimum use of water
- Less volume of material requirement to cover constructed volume, considering 1 cum
of material in concrete covers 1.1 cum of constructed volume, in brick it covers
approx 1.5 cum, where as AAC covers approx 3.5 cum of volume.
- Low thermal conductivity.
- Because of larger block size, it requires less time, less water and jointing materials.
Wherever possible Fly Ash will use as filling material
8.4. Give details of the methods of collection, segregation & disposal of the garbage
generated during the operation phases of the project.
As per the manual or municipal solid waste prescribe my Central Pubic Health and
Environmental Engineering Organization (CPHEEO), the quantity of solid waste generated
varies between 0.3 – 0.6-kg/capita/ day. The solid waste will comprise biodegradable waste
e.g. domestic waste, food waste, horticultural waste etc. and recyclable waste, like plastic,
paper, tin, glass etc. For estimating the quantum of waste following assumption are taken into
consideration:
Table 9; Estimated Quantities of Solid Waste Generated during Operational Phase
Description Population Per capita Solid
Waste generation
(Kg/capita/day)
Total Solid Waste (Kg/Day)
Residents
8200
0.6
4920
Construction Phase
During the construction, considerable amount of construction waste such as earth, debris,
malba, etc will be generated. However the construction waste here shall be approx 30% less
than the regular construction sites as the entire structural work shall be done with pre fab
technology which will have almost no in-situ casting and no shuttering work.
Construction debris will be managed either within project site or they will be sent to
low lying areas owned by M/s Delhi Govt.
Operation Phase
During the operation only domestic waste is expected to be generated. It has been
estimated that approx.4920 kg/day of solid waste will be generated from the proposed
complex during commissioning of the project.
For Cat[II & EWS Housing Complex; There will be a Garbage collection point in
each tower, vertically connecting garbage rooms at all floors, segregating organic
and inorganic waste in separate bags will be implemented.
For EWS Housing Complex; Door to Door collection system, segregating organic
and inorganic waste in separate bags will be implemented
Disposal will be taken in separate centralized collection facility which shall be
provided at suitable distance in the complex.
This waste will be transferred to Municipal authority for final disposal.
Biodegradable/ compost able waste shall be composted by Municipal authorities
and non recyclable and non biodegradable shall be buried at waste management
sites of MCD two numbers are marked in Zonal plan of the Dwarka
A site of about 60 ha for solid waste has been earmarked near Narela – Bawana
industrial area phase– II.
9. ENERGY CONSERVATION
9.1. Give details of the power requirements, source of supply, backup source etc. What is the
energy consumption assumed per square foot of built-up area? How have you tried to
minimize energy consumption?
Power Requirement:
The total connected load as per BRPL is calculated to be around say, 16840 KW and
after considering diversity etc. the transformer rating shall be 11000 KVA for this Housing
Complex.
Power will be supplied by BRPL
The emergency purposes backup is provided with DG Sets of Total capacity of 1500 KvA
within which ,water supply pump backup is proposed by using DG set (1*125 KvA.)
HSD (low Sulphur variety) will be used for DG set.
Energy Consumption Assumed Per Square Foot of Built-UP Area:
Energy consumption per square meter of built-up area is approx. 35 WATT approximately.
CAT-II buildings, Energy saver shall be installed to save energy up to 20% in common area
Energy Conservation Measures & Management Plan:
In the Operational Phase, appropriate energy conservation measures & management plan will
be adopted in order to minimize the consumptions of non- renewable fuel. The following
measurs are suggested to be adopt
• Provision of window openings on recessed faces helps in reducing the heat gain in units.
•Arrangement of staggering balconies & louvers help in cutting of glare and heat gain.
•Natural low level at west corner of site has been used to advantage by placing the service
areas there.
•Photovoltaic cells based devices will be used in housing complex for common area
lighting as per DDA policy
•Overall glazing area has been maintained at around 25% of the Façade area.
• Use of CFL in common areas.
• DG sets shall be PLC controlled to optimize their usage based on the actual loadrequirements.
• Use of fly ash made bricks and cement will be used in common area i.e. pathway &pavement area for whole Group Housing complex.
S.N. Material U-Value
(BTU/ft2/°F
W/M2/°C
1 Walls (4‟‟ ,9” Prefab) - 1.36/1.00
2 Normal glass 1.1 6.25
4 Internal ceiling/floor unexposed 0.41 2.33
5 Slab exposed to run and insulated with black brick corba 0.12 0.68
Compact fluorescent lamps will be used in place of incandescent and halogen lamps in al
common areas.
The water supply pumping system shall be provided with variable speed drive to conserve
energy at part load.
lighting and switching shall be designed by keeping in mind day light integration.
Roof insulation shall be planned to conserve energy.
Capacitor banks shall be panned for improving the power factor of the power supply.
After testing the viability, solar energy can also be used to meet electricity requirements as it
would reduce dependence on non-renewable sources of energy and make environment
cleaner.
These measures will effectively cut down the electricity/ diesel consumption.
9.2. What type of, and capacity of, power back-up to you plan to provide?
Please refer to Clause 9.1.
9.3. What are the characteristics of the glass you plan to use? Provide specifications of its
characteristics related to both short wave and long wave radiation?
No, ordinary glass is being used. The building materials is N-6 for maximum house, the
windows are recessed or with projection to solar passive.
9.4. What passive solar architectural features are being used in the building? Illustrate the
applications made in the proposed project.
Building design and envelope has been optimized through section of appropriate wall and
roof construction and through adoption of solar passive measures after studying the sun path
analysis to provide shading devices for windows and roof, which would reduce energy
demand. Sunshades will be used around windows in order to protect from direct sunCAT-
IIht. Use of recessed windows, which can be recessed 600 to 700 mm from the external wall,
will reduce the load due to solar radiation by 30% and it will effectively reduce the heat load
of the building envelope.
9.5. Does the layout of streets & buildings maximize the potential for solar energy devices?
Have you considered the use of street Lighting, emergency -Lighting and solar hot water
systems for use in the building complex? Substantiate with details.
This CAT II & EWS housing is having Electrical load of approx 31.0 KW for street Lighting
as against total connected load of approx 16840 KW.
Solar panels may be installed for street lighting , subject to policy decisions of DDA .
9.6. Is shading effectively used to reduce cooling/heating loads? What principles have been
used to maximize the shading of Walls on the East and the West and the Roof? How much
energy saving has been effected?
The East – west walls are mostly blank wall with minimum window fenestration. Otherwise ,
2 mt wide balcony projection along the longer sides of the building blocks creates a solar
passive envelope.
Passive solar architectural measures have been adopted to provide shading devices for
windows and roof, which would effectively reduce heating up of building envelope. Sun
shades will be used around widows in order to protect from direct sun light
9.7. Do the structures use energy-efficient space conditioning, -Lighting and mechanical
systems? Provide technical details. Provide details of the transformers and motor efficiencies,
Lighting intensity and air-conditioning load assumptions? Are you using CFC and HCFC
free chillers? Provide specifications.
Lighting –Following parameters has been adopted
-Installation of energy saver Lamps
-Use of Day light switches
Lighting design has been done as per draft- Energy conservation building code
Transformers are Low loss and high efficiency type. Equipped with harmonic
filters to suppress wave form distortion
Variable speed pumping system (Secondary loop) is proposed for energy
conservation
No AC system
9.8. What are the likely effects of the building activity in altering the micro-climates?
Provide a self-assessment on the likely impacts of the proposed construction on creation of
heat island & inversion effects?
The proposed project is the construction of Residential Complex due to which there will not
be any significant effects on the surrounding environment of proposed project, hence no heat
island effect is envisaged. The proposed project is a Housing Complex, which is intended to
use only for residential purpose and will be constructed within the designated site as per the
defined building by laws of Delhi Development Authority. Increased traffic generation and
occasional use of DG sets use due to project is not going to cause significant increase in
atmospheric concentration of gases and will not result in heat island formation.
The ratio between the hard surface and green surface (grass, shrubs and trees) on the
Plot shall be less than 0.4. The front Plaza is also interspersed with green areas and
flower beds. Therefore, there is neither creation of Heat Islands nor any inversion
effects
9.9. What are the thermal characteristics of the building envelope? (a) roof; (b) external
walls; and (c) fenestration? Give details of the material used and the U-values or the R values
of the individual components.
The construction is proposed to be in prefab concrete structure. The technology adopted shall
be „3S‟ system
The System is with Pre cast hollow core R.C.C column, once erected and plumbed, Precast
concrete beams are placed over with poring concrete in the hollow column and sealing
column-beam joint. After the portal is ready, precast slabs are placed over beams with a
further 40mm reinforced concrete screening over them.
The walling system shall be with autoclaved aerated concrete blocks, which are having
higher thermal resistance than concrete.
ECOLOGICAL BENEFITS:
The columns, beams and slabs are all precast in factory or temporary fabrication yard, which
helps in
- Use of optimum quantity of water
- Use of optimum quantity of material ( say, cement & steel)
- Use of only steel shuttering for precast components - no requirement of wood, ply or
other formwork.
- Very less requirement of water at construction site.
- Less carbon emission at site
- Almost no shuttering is required.
- Much less noise and air pollution at site.
- Faster construction method reduces the project duration.
- Less number of work force requirement at site
- Minimize the construction waste.
9.10. What precautions & safety measures are proposed against fire hazards? Furnish details
of emergency plans.
As the proposed project envisages setting up and operation of a residential complex, no
major emergency situation is anticipated except a fire hazard. Keeping in view, the scale of
operations and the number of people present at any point of time, there shall be adequate
arrangement to fight any potential fire hazard.
The project proposes to install adequate number of fire fighting equipment along with a full
fledgedfire fighting system to take care of any potential emergency.
Fire Fighting System
Fire fighting will be as per the provisions of the National Building Code (SP 7:983, Part IV,
2005). A static water tank of 250 KL has been proposed with each U.G reservoir for fire
fighting, the EFH have been placed on the main fire ring at every 45 mts as per building
code.
The complete proposal of fire fighting system has already been approved from the CFO –
Delhi Fire Service.
Fire Hydrant System
The FHCs are located at each floor of the buildings connected to the Fire main ring and wet
risers. The buildings above 45 mt of height, and the basements shall be equipped with
automatic sprinkler system as per codal provisions.
Ventilation and Smoke Extraction
The basements are completely designed with mechanical ventilation system with both fresh
air inlet and exhaust system. The Fire escape staircases, lift wells are pressurized as per NBC
norms.
Fire Safety
The entire fire protection system, detection system and the mechanical ventilation and
pressurization systems shall be carried out as per approval/NOC from Delhi Fire Service.
Police station and Police post, Hospitals and Fire stations are located within the District level
as per MPD 2021 provision.
9.11. If you are using glass as wall material provides details and specifications including
emissivity and thermal characteristics.
Not Applicable
9.12. What is the rate of air infiltration into the building? Provide details of how you are
mitigating the effects of infiltration.
Not Applicable
9.13. To what extent the non-conventional energy technologies are utilized in the overall
energy consumption? Provide details of the renewable energy technologies used.
After testing the viability, solar energy may also be used to meet electricity requirements.
10. Environment Management Plan
The Environment Management Plan would consist of all mitigation measures for each item
wise activity to be undertaken during the construction, operation and the entire life cycle to
minimize adverse environmental impacts as a result of the activities of the project. It would
also delineate the environmental monitoring plan for compliance of various environmental
regulations. It will state the steps to be taken in case of emergency such as accidents at the
site including fire.
Kindly refer : for environmental management and monitoring plan.
ENVIRONMENTAL MANAGEMENT AND MONITORING PLAN
(A) ENVIRONMENTAL MANAGEMENT PLAN:
The table is given below describes the generic measures that need to be undertaken during
project construction and operation stage.
ENVIRONMENTAL MANAGEMENTPLAN
S. No. Potential
Impact
Action Parameters for
Monitoring
Timing
1. Construction Phase
1. Air Emissions All equipments are operated
within specified design
parameters
Random checks of
equipment
logs/manuals
Construction
activities
Vehicle trip to be minimized to
the extent possible
Vehicle logs Site Clearance
and construction
activities
Any dry, dusty materials stored
in sealed containers or
prevented from bowing.
Absence of stockpiles
or open containers of
dusty materials.
Construction
activities
Compaction of soil during
various construction activities
Construction logs Construction
activities
Ambient air quality within the
premises of the proposed unit
to be monitored.
The ambient air quality
will conform to the
standards for PM2.5,
PM10, SO2 and NOX,
CO
As per DPCC
requirement
2. Noise List of all noise generating
machinery onsite along with
age to be prepared. Equipment
to be maintained in good
working order.
Equipment logs, noise
reading
During
construction
phase.
Night working is to be
minimized.
Working hour records Construction
activities
Generation of vehicular noise Maintenance records of
vehicles
During
construction
phase
Implement good working
practices (equipment selection
and sitting) to minimize noise
and reduce its-impacts on
human heath (ear muffs, safe
distances, and enclosures).
Site working practices
records, noise reading
During
construction
phase
No machinery running when
not required
Acoustic mufflers / enclosures
to be provided in large engines
Mufflers / enclosures in
place.
Prior to use of
equipment
S.
No.
Potential
Impact
Action Parameters for
Monitoring
Timing
2. Noise Noise to be monitored in
ambient air within the plant
premises.
Noise reading As per DPCC
requirement or on
quarterly basis
whichever is
earlier. The noise level will not exceed
the permissible limit both
during day and night times.
All equipments operated
within specified design
parameters.
Random checks of
equipment logs/
manuals
During
construction
phase
Vehicles trips to be minimized
to the extent possible
Vehicle logs During
construction
phase
3. Wastewater
Discharge
No untreated discharge to be
made to surface water,
groundwater or soil.
No discharge hoses in
vicinity of
watercourses
During
construction
phase
The discharge point should be
selected properly and sampling
and analysis should be
undertaken prior to discharge
Discharge norms for
effluents as given in
consent to operate by
DPCC
During
construction
phase
Take care in disposal of
wastewater generated such that
soil and groundwater resources
are protected
4. Soil Erosion Minimize area extent of site
clearance, by staying within
the defined boundaries
Site boundaries not
extended / breached as
per plan document.
During
construction
phase
Protect topsoil stockpile where
possible at edge of site.
Effective cover in
place.
During
construction
phase
5. Waste
Management
Implement waste management
plan that identifies and
characterizes every waste
arising associated with
proposed activities and which
identifies the procedures for
collection, handling & disposal
of each waste arising.
Comprehensive Waste
management Plan in
place and available for
inspection on-site.
Compliance with MSW
Rules, 1998
Prior to site
clearance.
6. Non-routine
events and
accidental
releases
Plan to be drawn up,
considering likely emergencies
and steps required to
prevent/limit consequences.
Mock drills and records
of the same
During
construction
phase
7. Environment
Management
Cell/Unit
The Environmental
Management Cell/Unit is to be
set up to ensure
implementation and
monitoring of environmental
safeguards.
A formal letter from
the management
indicating formation of
Environment
Management Cell
During
construction
phase
II. Operational Phase
8. Wastewater
Discharge
No untreated discharge to be
made to surface water,
groundwater or soil
No discharge hoses in
vicinity of
watercourses.
During operation
phase
Take care in disposal of
wastewater generated such that
soil and ground water
Discharge norms for
effluents
During operation
phase
9. Emergency
preparedness,
such as fire
fighting
Fire protection and safety
measures to take care of fire
hazards, to be assessed and
steps taken for their
Mock drill records, on
site emergency pan,
evacuation plan
During operation
phase
prevention.
(B) ENVIRONMENTAL MONITORING PLAN
The environmental monitoring programme is a vital process in the Management Plan for any
construction project. This helps in signaling the potential problems that would result from the
proposed project and will allow for prompt implementation of effective corrective measures.
The environmental monitoring will be required during construction & operational phases.
Water Quality and Public Health
Since water contamination leads to various water related disease, the project authorities shall
establish a procedure for water quality surveillance and ensure safe water for the consumers.
Detailed epidemiological study related water born disease shall be carried out and the data
shall be compiled for every year in the project area. This data would help the authority in
finding out the trends for incidence of water related diseases prevalent in the area, which
would help them to take suitable remedial measures for reducing or eradicating the
occurrence of these diseases in future.
Water quality parameters shall be monitored before and after the completion of the project.
Monitoring shall be carried out on quarterly basis to cover seasonal variations. Water quality
shall be analyzed by applying the standard techniques. The parameters recommended for
monitoring are as follows:
MONITORING PROGRAMME DURING CONSTRUCTION STAGE
S. No. Parameter
1 pH
2 Total. Hardness
3 Chlorides
4 Fluorides
5 TDS
6 Calcium
7 Magnesium
8 Sulphate
9 Nitrate
10 Total. Alkalinity
11 Arsenic
12 Iron
13 Zinc
14 Total Coliform,
15 E- Coli
Ambient Air Quality
Monitoring
1 Parameters to
be monitored
Particulate
Matter
(PM2.5)
Particulate
Matter
(PM10)
Sulphur
Dioxide
(SO2)
Oxides of
Nitrogen
(NOX)
Carbon
Monoxide
(CO)
2 Sampling
Methodology
The air
quality
monitoring
will be
monitored as
per
DPCC/CPCB
guidelines
3 No. of
Locations
One location
in vertical to
downwind
direction to
be
monitored.
4 Frequency of
Measurements
Once a week
5 Compliance The
monitoring
results will
be compared
with
National
Ambient Air-
Quality
Standards.
Noise Quality Monitoring
1 Parameters to
be monitored
Equivalent
noise levels
averaging for
24 hours
2 Sampling
Methodology
The noise
levels will be
recorded
using a
portable
hand held
noise level
meter.
3 No. of
Locations
One
locations at
boundary
4 Frequency of
Measurements
Once a week
5 Compliance The
monitoring
Water and Waste Water Quality Monitoring
Water and Wastewater sample shall be analyzed to meet
the drinking water standard and municipal sewer
discharge standards respectively.
Water and Waste Water Quality
Monitoring during Construction phase
Water Quality Monitoring:
1 Parameters to be
monitored
As per IS 10500:1991
and amendments as
enacted
2 No. of locations One locations each at
intake and after
treatment
3 Frequency of
Measurements
At least once in a
season
4 Compliance The monitoring results
will be compared with
the preferable and
permissible limits of IS
10500:1991
Wastewater Quality Monitoring:
For construction work total anticipated labour to be
employed will be around 260. All labour will come
from nearby area and will for day time only. No labor
camps exists for site, however moveable toilets will be
provided for labours during the whole construction
period.
Water and Waste Water Quality
Monitoring during Operation phase
Water Quality Monitoring:
Water will be Municipal supply, supplied from DJB. If Delhi Jal Board permits for
ground water use, water quality will be monitored as given below
1 Parameters to be monitored As per IS 10500:1991 and amendments
as enacted
2 No. of locations One locations each at intake and after
treatment
3 Frequency of Measurements At least once in a season
4 Compliance The monitoring results will be
compared with the preferable and
permissible limits of IS 10500:1991
results will
be compared
with the
National
Ambient
Noise
Quality
Standards.
EMP Budget
Revised EMP budget during construction,
S.
No.
Item Amount
1 Air pollution ,suppression of dust,air
monitoring
5 lacs
2 Water pollution Provision for Sewage
Treatment Plant
700 lacs
3 Provision of Storm Water Drainage
System
Included in project cost*
4 Provision of solid Waste Managemen,t 10 lacs
5 Health and Safety measures and other
,safety facilities toilet s to construction
workers
10lacs
6 Environmental quality Monitoring and six
monthly report submission
5lacs
7 Green Area Development 10 lacs
Total 740 lacs
EMP budget during operation,
S. No. Item Amount per year, Rs. In lacs
1 Provision for Rain Water Harvesting 0.5
3 Provision of Storm Water Drainage
System
0.5
4 Provision for Green Area Development 5.0
5 Provision of Waste Management 10.0
6 Health Environment and Safety measures
and maintenance of STP
2.0
7 Environmental Monitoring 1.0
Total 19
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