FORM I, IA AND CONCEPTUAL PLAN FOR THE PROPOSED...
Transcript of FORM I, IA AND CONCEPTUAL PLAN FOR THE PROPOSED...
FORM I, IA AND CONCEPTUAL PLAN FOR THE PROPOSED CONSTRUCTION OF RESIDENTIAL BUILDINGS
LOCATED AT SURVEY NOS.4279 & 4284 SANTHOME HIGHROAD, THANDAVARAYAN STREET, M.R.C. NAGAR,
MYLAPORE VILLAGE, MYLAPORE TRIPLICANE TALUK, CHENNAI DISTRICT, TAMIL NADU
PREPARED BY:- JUNE 2015
NABET Accreditation No. NABET/EIA/1316/RA001
8 (a), BUILDING AND CONSTRUCTION PROJECTS CATEGORY B2
INDEX
S.No DESCRIPTION PAGE NO
i. FORM I i - xiii
ii. FORM IA 1 -14
iii. CONCEPTUAL PLAN 15 - 62
1. INTRODUCTION 15 – 16
2. PROJECT DESCRIPTION 17 - 26
3. DESCRIPTION OF THE ENVIRONMENT 27 - 44
4. ENVIRONMENTAL MANAGEMENT PLAN 45 - 62
ANNEXURES
1. LAND OWNERSHIP DOCUMENTS 63 - 68
2. GENERAL POWER OF ATTORNEY 69 - 84
3. CMDA ACKNOWLEDGEMENT FOR PLANNING PERMISSION 85 – 86
4. CMDA LAND USE MAP 87 – 88
5. APPLICATION OF AIRPORT NOC 89 – 94
6. GEOTECHNICAL INVESTIGATION REPORT 95 – 120
7. AUTHENTICITY OF BASELINE MONITORING REPORT 121 – 130
8. SEWAGE TREATMENT PLANT REPORT 131 – 138
9. TRAFFIC CONGESTION STUDY REPORT 139 – 144
10. FIRST AID FACILITIES 145 – 148
11. FIRE SAFETY AND PROTECTION MEASURES 149 – 152
12. PERIOD OF COMPLETION BAR CHART 153 – 154
13. DATED SITE PHOTOGRAPHS 155 – 156
14. ACKNOWLEDGEMENT OF COMMITMENT LETTER FOR WATER SUPPLY
AND SEWAGE DISPOSAL
157 – 158
15. DECLARATION BY EXPERT 159 - 162
FORM I
FORM 1 FORM-I
I. BASIC INFORMATION
S. No
Item Details
1. Name of the project/s Proposed construction of residential buildings in R.S. No. 4279 and 4284 at new door nos. 78, 79, 80, 81, old door nos. 57, 58, 59, 60, Santhome High Road, Thandavarayan Street, Raja Annamalai Puram, M.R.C. Nagar of Mylapore village, Mylapore - Triplicane taluk, Chennai district, Tamil Nadu.
2. S.No. in the schedule The project is categorized under Schedule 8 (a) “Building and Construction projects” of EIA Notification 2006 and its subsequent amendment
3. Proposed capacity / area/length/tonnage to be handled/command area/lease area/number of wells to be drilled
Proposed Built-up area is 88,598.98 Sq.m. Building wise area details are given in the Conceptual Plan
4. New/Expansion/Modernization New 5. Existing Capacity/ Area etc. Nil 6. Category of Project i.e. ‘A’ or ‘B’ Category B 7. Dose it attract the general condition?
If yes, please specify. No
8. Dose it attract the specific condition? If yes, please specify.
No
9. Location Plot/survey/ Khasra. No R.S. No. 4279 and 4284 Village Mylapore Taluk Mylapore - Triplicane District Chennai State Tamil Nadu
10. Nearest railway station/airport along with distance in Km.
Railway Station Mandaveli - 1.4 km (NW) Greenways Road - 1.9 km (W) Airport Chennai International Airport - 12.1 km (SW)
11. Nearest town, city, district Chennai - 0 km
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FORM 1 headquarters along with distance in Km.
Mylapore - 1.9 km (N) Adyar - 1.2 km (S)
12. Village panchayats, Zilla parished, municipal corporation, local body(complete postal address with telephone nos. to be given)
Corporation of Chennai Address: 1131, EVR Periyar Salai, Park Town, Ripon Building, Chennai - 600 003. Telephone No: 044 25619555
13. Name of the applicant Mr. Sunil Khetpalia Mr. Manish Kumar Jain
14. Registered address No.27, Saravana Street, T.Nagar, Chennai - 600 017.
15. Address for correspondence Name SUNIL KHETPALIA & MANISH KUMAR
JAIN Designation (Owner/Partner/CEO) Power of Attorney holder Address No.27, Saravana Street, T.Nagar,
Chennai Pin Code 600 017 E-Mail [email protected] Telephone/ Mobile No 044-43438282 Fax No 044-43438283
16. Details of Alternative Sites Examined, if any, location of these sites should be shown on a topo sheet.
No alternative sites examined
17. Interlinked Projects Not Applicable 18. Whether separate application of
interlinked project has been submitted?
Not Applicable
19. If yes, date of submission Not Applicable 20. If no, reason Not Applicable 21. Whether the proposal involves
approval / Clearance under the following acts: if yes, details of the same and their status to be given. (a)The Forest (Conservation) Act, 1980 (b)The Wildlife (Protection) Act, 1972? (c)The C.R.Z Notification, 1991?
No
22. Whether there is any government order/ Police relevant/ relating to the site?
No
23. Forest land involved (hectares) No 24. Whether there is any litigation pending No
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FORM 1 against the land/ or land in which the Project is proposed to be set up? (a) Name of the Court (b) Case No. (c) Order/ directions of the Court, if an And its relevance with the proposed Project
(I) ACTIVITY
1. Construction, operation or decommissioning of the Project involving actions, which
will cause physical changes in the locality (topography, land use, changes in water
bodies, and the like)
S.No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
1.1 Permanent or temporary change in land use, land cover or topography including increase intensity of land use (with respect to local land use plan)
No There will be no change in the land use as the area is categorized as Primary Residential Zone as per the Development control rules of CMDA.
1.2 Clearance of existing land, vegetation and Buildings?
Yes Since the existing land has residential house. It will be demolished.
1.3 Creation of new land uses?
No There will be no change in the land use as the area is categorized as Primary Residential Zone as per the Development control rules of CMDA.
1.4 Pre-construction investigations e.g. Bore Houses, Soil testing?
Yes Geo technical investigation has been done to find the suitability of soil for providing for adequate foundations for the proposed structure.
1.5 Construction works?
Yes Construction of various buildings will be done systematically, with economy of materials and with due care on environmental protection.
1.6 Demolition works? Yes Demolition works will be carried out. Since the existing land is having a residential house.
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FORM 1 1.7 Temporary sites used for
construction works or housing of construction workers?
Yes Inside the proposed site, a small area will be utilized temporarily for construction of sheds for the migrated workers and materials. But most of the workers will be deployed from local area only.
1.8 Above ground buildings, structures or earthworks including linear structures, cut and fill or excavations
Yes Excavation works will be carried out for foundation of the structures. Later on, the cut and fill process will be required.
1.9 Underground works mining or tunneling?
No No underground works will be required as the proposed project is the construction of Residential buildings.
1.10 Reclamation works? No Not envisaged.
1.11 Dredging? No Not envisaged.
1.12 Off shore structures? No Not envisaged. 1.13 Production and manufacturing
processes? No Not applicable as the project is
construction of residential buildings.
1.14
Facilities for storage of goods or materials?
No Temporary sheds will be constructed for the storage of cement and other materials during construction phase.
1.15 Facilities for treatment or disposal of solid waste or liquid effluents?
Yes Sewage generated shall be treated in STP of capacity 280 KLD. The treated wastewater will be reused for toilet flushing, greenbelt development and excess treated water will be disposed through existing sewer line. Municipal Solid Waste will be collected, Segregated, treated and disposed to Chennai Corporation by garbage vehicle.
1.16 Facilities for long term housing of operational workers?
No There is no residential facility for operational workers as they will be deployed from local area.
1.17 New road, rail or sea traffic during Construction or operation?
No The existing road network is sufficient for connectivity of the site with other parts of the city.
1.18 New road, rail, air, waterborne or other transport infrastructure
No There will be no change to the existing transport infrastructure.
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FORM 1 including new or altered routes and stations, ports, airports etc?
1.19 Closure or diversion of existing transport routes or infrastructure leading to changes in Traffic movements?
No As construction works will be within a specified area, there is no need for closure or diversion of existing transport routes.
1.20 New or diverted transmission lines or pipelines?
No No new or diversion transmission lines & pipelines are required for this project.
1.21 Impoundment, damming, culverting, realignment or other changes to the hydrology of watercourses or aquifers?
No There will not be any alteration in the hydrology of the watercourses or aquifers due to the proposed project.
1.22 Stream crossings? No There is no stream crossing in the project site.
1.23 Abstraction or transfers of water form ground or surface waters?
No
No Ground water shall be abstracted. Water requirement will be sourced from Chennai Metro Water Supply and Sewage Board.
1.24 Changes in water bodies or land surface affecting drainage or runoff?
No There is no change in the water bodies or land surface which affects the drainage or runoff.
1.25 Transport of personnel or materials for construction, operation or decommissioning?
No Transport of personnel & construction materials during construction phase will be through existing roads.
1.26 Long-term dismantling or decommissioning or restoration works?
No No long-term dismantling or decommissioning or restoration works would be involved.
1.27 Ongoing activity during decommissioning which could have an impact on the environment?
No Only temporary thatched sheds will be built for storing cement and other materials. So there will be no decommissioning works.
1.28 Influx of people to an area either temporarily or permanently?
Yes During construction period few workers will be stationed temporarily and others will be deployed locally. Significant no of influx of people envisaged during operational phase also.
1.29 Introduction of alien species? No No introduction of alien species
1.30 Loss of native species or genetic diversity?
No No loss will take place, as the site is plain and there is no significant species.
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FORM 1 1.31 Any other actions? No ---
2. Use of Natural resources for construction or operation of the Project (such as land,
water, materials or energy, especially any resources which are non-renewable or in
short supply):
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
2.1 Land especially undeveloped or agricultural land (ha)
No The proposed project will be established in residential land of 17,598.98 sq.m.
2.2 Water (expected source & competing users) unit: KLD
Yes Fresh water requirement of 214 KLD shall be met by Chennai Metro Water Supply and Sewage Board.
2.3 Minerals (MT) No No usage of mineral is envisaged.
2.4 Construction material - stone, aggregates, sand/soil (expected source – MT)
Yes The approximate consumption of cement, steel, concrete, sand, etc. are given below. Cement - 6000 bags Steel - 400 MT Aggregates 40 mm BM - 45,000 cum 20 mm BM – 6500 cum 12 mm BM – 8000 cum Sand - 14000 cum Brick - 1,50,000 Nos
2.5 Forests and timber (source - MT)
No Usage of timber will be minimal
2.6 Energy including electricity and fuels (source, competing users) Unit: fuel (MT), energy (MW)
Yes Total power requirement 4172 KVA Source TANGEDCO. 3 x 64 KVA capacity DG Sets shall be utilized as backup power. HSD of approximately 25 liters/day will be used.
2.7 Any other natural resources (use appropriate standard units)
No There is no need for other natural resources
3. Use, storage, transport, handling or production of substances or materials, which
could be harmful to human health or the environment or raise concerns about actual
or perceived risks to human health
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FORM 1
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
3.1 Use of substances or materials, which are hazardous (as per MSIHC rules) to human health or the environment (flora, fauna, and water supplies)
No No such materials will be required
3.2 Changes in occurrence of disease or affect disease vectors (e.g. insect or water borne diseases)
No There will not be any occurrence of diseases as activities are confined to construction.
3.3 Affect the welfare of people e.g. by changing living conditions?
Yes Employment will be given to local people thus the living standards of the people will get improved.
3.4 Vulnerable groups of people who could be affected by the project e.g. hospital patients, children, the elderly etc.,
No There is no vulnerable group of people who could be affected by the project.
3.5 Any other causes No Nil
4. Production of solid wastes during construction or operation or decommissioning
(MT/month)
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
4.1 Spoil, overburden or mine wastes
No There will not be any spoil, overburden or mine waste.
4.2 Municipal waste (domestic and or commercial wastes)
Yes The quantity of municipal solid waste generated from the proposed Residential Complex will be 948 Kg/day.
4.3 Hazardous wastes (as per Hazardous Waste Management Rules)
No No hazardous wastes shall be generated.
4.4 Other industrial process wastes No Not envisaged 4.5 Surplus product No Not applicable since this is
construction project. 4.6 Sewage sludge or other sludge
from effluent treatment Yes STP sludge of 39 kg/day will be
used as manure for greenbelt development and landscape.
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FORM 1 4.7 Construction or demolition
wastes Yes Construction waste will be used
in land filling and in road pavements in the surrounding low lying areas.
4.8 Redundant machinery or equipment
No Most of the equipments used during construction phase will be hired
4.9 Contaminated soils or other materials
No There is no source for contamination of soils or other materials.
4.10 Agricultural wastes No Does not arise 4.11 Other solid wastes No No other waste generation
expected.
5. Release of pollutants or any hazardous, toxic or noxious substances to air (Kg/hr)
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
5.1 Emissions from combustion of fossil fuels from stationary or mobile sources
Yes The gaseous emissions are expected from transport vehicles moving inside the project site. The emissions are expected from Diesel Generator during operation phase. This will be minimized by controlling the speed of vehicles, hiring well maintained vehicles, planting trees and spraying water periodically. This will be minimized by controlling the speed of vehicles, hiring well maintained vehicles, planting trees and spraying water periodically.
5.2 Emissions from production processes
No Does not arise since the proposed project is a Residential Development
5.3 Emissions from materials handling including storage or transport
Yes Emissions like dust will arise during the transportation of materials and the dust will be controlled by slow movement of vehicles, covering the materials properly and by water spraying
5.4 Emissions from construction activities including plant and
No Marginal quantity of emission is expected from construction activities which will be
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FORM 1 equipment controlled by suitable control
measures like water spraying. 5.5 Dust or odours from handling of
materials including construction materials, sewage and waste
Yes Dust emission will be arrested by water spraying and covering the stored materials with tarpaulin cover. Septic tanks & soak pit will be provided for laborers during construction phase.
5.6 Emissions from incineration of waste
No There are no incineration activities
5.7 Emissions from burning of waste in open air (e.g. slash materials, construction debris)
No No such activities will be permitted
5.8 Emissions from any other sources
No No emissions from any other sources
6. Generation of Noise and Vibration, and Emissions of Light and Heat:
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
6.1 From operation of equipment e.g. engines, ventilation plant, crushers
Yes Workers will be given ear plugs in noisy area. Acoustic enclosures will be provided for the D.G. set
6.2 From industrial or similar processes
No Not Applicable
6.3 From construction or demolition Yes Noise levels in the range of 75-85 dB (A) will be generated occasionally during the construction activities. Workers in the noisy areas will be provided with earmuffs and earplugs.
6.4 From blasting or piling No Not applicable 6.5 From construction or
operational traffic Yes During construction phase
construction materials will be transported by road, through well maintained vehicles to control noise, vibration and emissions. During operational phase traffic noise and emissions will be increased slightly that will be minimized by paving roads with
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FORM 1 asphalt/concrete, well maintained vehicles, slow movement of vehicles and by planting trees
6.6 From lighting or cooling systems No Adequate enclosures, tree plantations will be provided
6.7 From any other sources No Not Applicable
7. Risks of contamination of land or water from releases of pollutants into the ground
or into sewers, surface waters, groundwater, coastal waters or the sea:
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
7.1 From handling, storage, use or spillage of hazardous materials
No There will be no handling of hazardous materials.
7.2 From discharge of sewage or other effluents to water or the land (expected mode and place of discharge)
No Sewage will be treated in the STP of capacity 280 KLD within the project site. The treated waste water will be reused for gardening & toilet flushing.
7.3 By deposition of pollutants emitted to air into the land or into water
No Emissions from operation of DG Sets will be within the prescribed limits and negligible.
7.4 From any other sources No No other polluting sources exist 7.5 Is there a risk of long term build
up of pollutants in the environment from these sources?
No There will not be any long term build up of pollutants in the environment from these sources
8. Risk of accidents during construction or operation of the Project, which could affect
human health or the environment
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
8.1 From explosions, spillages, fires etc from storage, handling, use or production of hazardous substances
No No hazardous substances will be required either during construction or operation phases. However adequate safety measures to mitigate all risks anticipated out of fire in diesel will be taken care of by installing suitable fire fighting system.
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FORM 1 8.2 From any other causes No No risks from any other
sources 8.3 Could the project be affected by
natural disasters causing environmental damage (e.g., floods, earthquakes, landslides, cloudburst etc)?
No The area under study falls in Zone-III according to the Indian Standard Seismic Zoning Map. The structure was designed to be earthquake resistant. The proposed project will not be affected by natural disasters causing environmental damage.
9. Factors which should be considered (such as consequential development) which
could lead to environmental effects or the potential for cumulative impacts with
other existing or planned activities in the locality
S. No. Information/Checklist confirmation Yes/No
Details thereof (with approximate quantities /rates, wherever possible) with source of information data
9.1 Lead to development of supporting. Utilities, ancillary development or development stimulated by the project which could have impact on the environment e.g.
o Supporting infrastructure (roads, power supply, waste or waste water treatment, etc.)
o Housing development o Extractive industry o Supply industry
Yes Supporting and ancillary development will take place which in turn will improve environment. (e.g.,) Plantation of trees, rainwater harvesting, and Storm water drains etc., Basic infrastructure will be developed in the proposed area.
9.2 Lead to after-use of the site, which could have an impact on the environment
No Not Applicable
9.3 Set a precedent for later developments
No Developmental activity may take place complying statutory requirements.
9.4 Have cumulative effects due to proximity to other existing or planned projects with similar effects
No Not Applicable
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FORM 1
(II) Environmental Sensitivity
S. No.
Areas Name/
Identity
Aerial distance (within 15 km.) Proposed project location boundary
1. Areas protected under international conventions, national or local legislation for their ecological, landscape, cultural or other related value
Yes Guindy National Park - 4 km (SW) Tholkappiar Ecological Park - 0.5 km (NW)
2. Areas which are important or sensitive for ecological reasons - Wetlands, watercourses or other water bodies, coastal zone, biospheres, mountains, forests
Yes Adyar River Estuary - 0.5 km (S) Adyar Creek - 0.5 km (N) Bay of Bengal - 0.9 km (E)
3. Areas used by protected, important or sensitive species of flora or fauna for breeding, nesting, foraging, resting, over wintering, migration
No No significant species
4. Inland, coastal, marine or underground waters
Yes Adyar River Estuary - 0.5 km (S) Adyar Creek - 0.5 km (N) Bay of Bengal - 0.9 km (E)
5. State, National boundaries No Not Applicable 6. Routes or facilities used by the
public for access to recreation or other tourist, pilgrim areas
No Not Applicable
7. Defense installations No No such areas within 15 Km radius
8. Densely populated or built-up area Yes
Chennai, Project site itself is located within the Chennai city
9. Areas occupied by sensitive man-made land uses (hospitals, schools, places of worship, community
Yes Billroth Hospital - 1.7 km Apollo hospital – 2 km Chettinad Vidyasharam - 0.15 km Iyyapan Temple - 0.14 km
10. Areas containing important, high quality or scarce resources (ground water resources, surface resources, forestry, agriculture, fisheries, tourism, minerals)
No No such areas within 15 Km radius
11. Areas already subjected to pollution or environmental
No Not Applicable
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FORM 1 damage. (those where existing legal environmental standards are exceeded)
12. Areas susceptible to natural hazard which could cause the project to present environmental problems (earthquakes, subsidence, landslides, erosion, flooding or extreme or adverse climatic conditions)
No The area under study falls in Zone III, according to the Indian Standard Seismic Zoning Map.
“I hereby given undertaking that data and information given in the application and
enclosures are true to the best of the knowledge and belief and I am aware that if any
part of the data and information submitted is found to be false or misleading at any
stage, the project will be rejected and clearance given, if any to the project will be
revoked at our risk and cost.”
DATE: 09.07.2015
PLACE: CHENNAI
NAME:
DESIGNATION:
ADDRESS:
Mr. Sunil Khetpalia Mr. Manish Kumar Jain Power of Attorney Holder of Chennai Properties & Investments Ltd No.27, Saravana Street, T.Nagar, Chennai 600017
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FORM I A
FORM 1A
FORM - I A
I. LAND ENVIRONMENT
S. No.
Information Details with source of Information
data 1.1 Will the existing land use get
significantly altered from the project that is not consistent with the surroundings? (Proposed land use must conform to the approved Master Plan / Development Plan of the area. Change of land use if any and the statutory approval from the competent authority are submitted). Attach Maps of (i) site location, (ii) surrounding features of the proposed site (within 500 meters) and (iii) the site (indicating levels & contours) to appropriate scales. If not available attach only conceptual plans.
The proposed project site is categorized as Primary residential as per the land use map of CMDA. The CMDA Land use map for the proposed project has been shown in Conceptual Plan (Annexure IV). The land use map of 10 km radius is shown in Figure 2.5 of the Conceptual Plan. The proposed site is a vacant land. The topo plan showing all the features, road connectivity and drainage map are shown in Figure 2.6, 2.8 & 2.7 of the Conceptual Plan.
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,
Residential buildings (Basement + Ground + 16 floors + Terrace) comprising of 2 blocks and other amenities like Club house (Ground + 3 Floors)
• 17,655.05 Sq.m. • 88,598.98 Sq.m. • Fresh Water Consumption - 214 KLD • 4172 KVA • The project site is well connected by road, rail and airways. An access road of Santhome High Road is located adjacent on the West direction. • Community facilities like club house which includes Creche, Children’s play area, Pantry, Dining, Multipurpose hall, Conference hall,
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FORM 1A
Parking needs etc.
Spa, Aerobics, Yoga, Gym, Badminton, Table Tennis, Billiards, Squash, Video games, Indoor games, swimming pool. • Parking facilities for the project site is incorporated in the Conceptual Plan.
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)
The proposed project is the construction of Residential buildings. Necessary Mitigation measures will be taken to reduce the impacts created due to the project during the Construction and Operation phase. Proposed project will be provided with open space, provisions for parking which will be easier for the people to access. Greeneries will be developed for aesthetic appearance and recreational activities. Adequate mitigation measures will be adapted to reduce the negative impacts.
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).
Vulnerability to subsidence and erosion will be less. The proposed site has good load bearing capacity. The site receives only moderate amount of rainfall. Rainwater will be captured through rainwater harvesting pits, trenches and parks that have been proposed within the site premises. Excess runoff will be diverted away from the site via Storm Water Drains to replenish nearby Adayar creek. There will not be any erosion, subsidence or instability generated due to this project. The proposed site falls under Zone III of seismic zone classification. However the proposed building will be an earthquake resistant structure. Geo-technical investigation report is enclosed in Conceptual Plan (Annexure VI)
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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 site is a flat terrain and the storm water network has been planned inside the proposed project. Rain water will be collected during monsoon period through storm water drain and will be recharged though recharge pits. There will not be any alteration of natural drainage system.
The drainage showing the natural drainage of the project site is shown in Figure 2.7
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.)
All the topsoil excavated during construction phase shall be stored for use in landscape development within the project site.
The lower strata earth excavated from pile foundation is either used for filling the plinths, road substructure and leveling.
1.7 Give details regarding water supply, waste handling etc. during the construction period.
The quantity of water required during construction phase will be 20 KLD which will be met from nearby water supplier through tankers.
The concrete debris will be used for site grading and road filling.
1.8 Will the low lying areas & wetlands get altered? (Provide details of how low lying and wetlands are getting modified from the proposed activity)
No, there is no low lying area or wetlands within 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)
No, the waste does not contribute to any health hazards. Construction Waste: The construction debris such as the
waste mortar and sand etc will be used in secondary concrete or in landscaping.
Mild Steel scrap, empty gunny bags, packing materials will be sold to vendors.
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II. WATER ENVIRONMENT
S. No.
Information Details with source of Information
data 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.
During operation phase water requirement will be met through CMWSSB. Fresh water demand is 214 KLD. The Water Balance Chart (Figure 3.4) is given in the Conceptual Plan
2.2 What is the capacity (dependable flow or yield) of the proposed source of water?
The quantity of water required during construction phase will be 20 KLD which will be met from locally through water tankers. Total quantity of water required during the operation phase also will be 273 KLD. The quantity of fresh water required during operation phase will be 214 KLD and shall be sourced through CMWSSB.
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)
Total quantity of water required during operation phase of the project will met through CMWSSB. The quality of water will be as per IS 10500-1991 (Drinking water standard)
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)
Quantity of sewage likely to be generated from the proposed project will be 269 KLD The Water Balance Chart is given in the Conceptual Plan
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 be no diversion of water from other users
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
There will be no incremental pollution loads due to wastewater generation within the compound. The quantity of sewage generated (269 KLD) will be discharged into CMWSSB
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proposed activity) underground Sewerage Network. The water balance diagram is shown in Figure 3.4 of the Conceptual Plan.
2.7 Give details of the water requirements met from water harvesting? Furnish details of the facilities created.
Rainwater Harvesting System will be provided and the details are given in the Conceptual Plan. The layout showing Rain water Harvesting structure and details are given in Figure 3.5 & 3.6
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?
There will be no major changes to the land use pattern of the project site. The storm water drains and rain water harvesting structures will be provided and also the residential compound will be constructed maintaining the site contours, in order to prevent water logging within the site during monsoon season.
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)
No ground water shall be abstracted. Water requirement during the Construction and Operation Phase will be met through nearby water suppliers and CMWSSB respectively. Rainwater harvesting system will be proposed for recharging of ground water to improve quality and quantity of ground water resources.
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 runoff from the construction activities will be collected separately and directed to storm water drains
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)
The storm water during the operation phase will be collected through the collection trench all along the boundary and the pits will be provided along the pathways of the road. The excess storm water will be let out into nearby public storm water drain.
2.12 Will the deployment of construction laborers particularly in the peak period lead to unsanitary conditions
Most of the laborers will be deployed locally and the adequate sanitary facilities will be provided for workers
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around the project site. Justify. residing there temporarily. 2.13 What on-site facilities are provided for
the collection, treatment & safe disposal of sewage? (Give details of the quantities of wastewater generation, treatment capacities with technology & facilities for recycling and disposal)
During construction phase, Septic tanks followed by soak pit will be provided to treat the sewage generated from construction laborer camp. During operational phase, Sewage Treatment Plant with a capacity of 280 KLD will be proposed to treat the sewage. Process Flow diagram and design details of STP are shown in Annexure VIII.
2.14 Give details of dual plumbing system if treated waste is used for flushing of toilets or any other use
The treated waste water will be pumped to separate overhead tanks from where it will be re-lifted to flush water tanks. From there the treated wastewater will be supplied to Water Closet and Urinals through separate flushing down take pipes. Flushing lines (using recycled treated effluent) shall be painted with a suitable demarcating color as per IS Codes to differentiate the pipeline for end usages.
III. VEGETATION
S. No.
Information Details with source of Information
data 3.1 Is there any threat of the project to the
biodiversity? (Give a description of the local ecosystem with its unique features, if any)
The project site is a vacant land. It has been observed that there is no ecologically important species of flora & fauna in the local ecosystem of the project site. Since the proposed project is construction, there will not be any threat to the biodiversity.
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 project will come up in the vacant land. So, there will not be any significant loss in trees or vegetation. Only minor clearing activities will take place to clear the thorny shrubs and trees around the Periphery of the project Site.
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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?)
Green belt/Landscaping in an area of about 2648.26 Sq.m. will be developed inside and around the periphery of the project site List of species proposed for green Belt development are given in Conceptual plan.
IV. FAUNA
S. No.
Information Details with source of Information
data 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 activity is neither displacing any terrestrial or aquatic fauna. The land does not fall in the migration route or does not intercept any corridor of fauna movement
4.2 Any direct or indirect impacts on the avifauna of the area? Provide details.
No, any direct or indirect impact on the avifauna of the area will not be envisaged
4.3 Prescribe measures such as corridors, fish ladders etc to mitigate adverse impacts on fauna
Not applicable
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 activity is neither displacing any terrestrial or aquatic fauna. The land does not fall in the migration route or does not intercept any corridor of fauna movement
V. AIR POLLUTION
S. No.
Information Details with source of Information
data 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)
Due to the operation of proposed Residential buildings, no significant increase in the load of atmospheric gases. DG set is the only possible source of emission. The emission will be dispersed with adequate height of stack. Authenticity of baseline Monitoring Report has been enclosed as Annexure VII.
5.2 What are the impacts on generation of Since the proposed project is
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dust, smoke, odorous fumes or other hazardous gases? Give details in relation to all the meteorological parameters.
construction of Residential buildings, there are no chances of generation of odorous fumes and hazardous gases except little amount of dust from construction & road activities which will be suppressed by sprinkling of water in the activity zone and insignificant level of smoke will arise from the construction equipment & vehicles which will be mitigated by proper maintenance. During operational phase, the only point source of emission is operation of DG set which will be mitigated by adequate height of stack. Besides, the trees in the green belt development will help in the sorption and dispersion of gaseous pollutants
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
Adequate parking facilities will be provided inside the site. The parking areas are shown in the site layout. The site is well connected to the existing road network which is feasible. This infrastructure does not cause any bottleneck.
5.4 Provide details of the movement patterns with internal roads, bicycle tracks, pedestrian pathways, footpaths etc., with areas under each category
The whole area will be connected with well-maintained internal roads and pedestrian pathways will be constructed. The roads are shown clearly in the site layout
VI. ASTHETICS
S. No.
Information Details with source of Information
data 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 proposed project will not affect obstruction of the view, scenic amenity or landscapes and importantly there are no such activities around the project site. In fact this project will exhibit green belt development around the periphery of the project site.
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6.2 Will there be any adverse impacts from new constructions on the existing structures? What are the considerations taken into account?
As the proposed project will be carried out within the confined area there will not be any adverse impacts from new constructions on the existing structures.
6.3 Whether there are any local considerations of urban form & urban design influencing the design criteria? They may be explicitly spelt out.
There exist no local considerations.
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.
There are no anthropological, archaeological, artifact sites nearby the site area
VII. SOCIO ECONOMICS
S. No.
Information Details with source of Information
data 7.1 Will the proposal result in any changes
to the demographic structure of local population? Provide the details.
There will not be any changes to the demographic structure of local populations, as it is a residential condominiums and the socio economic power of the surroundings will increase.
7.2 Give details of the existing social infrastructure around the proposed project.
The people living in the vicinity of the project areas have been employed. Many Residential, Educational Institutions & Industries are located within 5 Km radius
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 proposed project will not cause any disturbance to the local communities. There are no sacred sites or cultural values nearby.
VIII. BUILDING MATERIALS
S. No.
Information Details with source of Information
data 8.1 May involve the use of building
materials with high-embodied energy. Are the construction materials produced with energy
Standard list of building materials will be used and their use is inevitable. Some of them have high embodied energy like cement, steel, etc. Selection of energy
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efficient processes? (Give details of energy conservation measures in the selection of building materials and their energy efficiency)
efficient material in the proposed project wherever feasible has been considered. Efforts have been taken to minimize the use of virgin wood and Building materials, to the possible extent materials with high recycle content are proposed to be used in the project.
8.2 Transport and handling of materials during construction may result in pollution, noise & public nuisance. What measures are taken to minimize the impacts?
Use of well-maintained vehicles for construction activities
Vehicles carrying construction materials should be properly covered
Equipment like earmuffs, earplugs etc., will be used for hearing protection for workers
Cover piles of building materials like cement, sand and other materials
Limitation of vehicle speeds Control dust through fine water
sprays 8.3 Are recycled materials used in roads
and structures? State the extent of savings achieved?
Excavated top soil will be used for green expanses in the site
Lower soil will be used for landscaping and in playgrounds
Broken concrete will be used for erosion control
8.4 Give details of the methods of collection, segregation & disposal of the garbage generated during the operation phases of the project.
The method of collection, segregation & disposal of the garbage generated during the operation phases is detailed in the Conceptual Plan.
IX. ENERGY CONSERVATION
S. No.
Information Details with source of Information
data 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?
Electricity will be availed from Tamil Nadu Generation and Distribution Corporation Limited (TANGEDCO). Total Electric load for the proposed project is 4172 KVA. Proposed energy consumption reduction techniques:
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All the electrical appliances proposed to be used in the campus will be highly efficient and to the possible extent energy star rated. Solar architectural Features: The microclimatic conditions of the project site are analyzed and the designs are developed based on the same. (ii) The window wall ratio of the Building envelope is also maintained to enhance the entry of required daylight and limit the entry of heat. (iii) The balcony areas are projected, and hence act as a permanent shading device for the spaces. Proposed to ensure proper utilization of daylight and control glass from windows. Lighting: Energy efficient internal and external lighting luminaries (as applicable) which are at least three star rated under BEE labeling.
9.2 What type of, and capacity of, power back-up you plan to provide?
3 Nos. of 64 KVA capacities of DG Set will be kept as standby to overcome the power failure if any.
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
We propose to provide good quality glass for window panels
9.4 What passive solar architectural features are being used in the building? Illustrate the applications made in the proposed project.
(i) The window wall ratio of the Building envelope is also maintained to enhance the entry of required daylight and limit the entry of heat. Use of energy efficient lamps and solar water heaters. Windows will be provided to reduce both heating /cooling energy consumption. The Building envelope is designed in an energy efficient way by limiting the heat entry through the Building envelope
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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.
Solar water heaters will be used in this project. CFL lamps will be used in reducing energy and maintenance cost.
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?
Green belt with native trees will be developed on the periphery of buildings and boundaries the project site. This will help buildings cool in the summer and enhance sun shine in the winter. Shade trees will save 40 % on summer cooling costs when trees mature.
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.
It has been proposed to construct building considering natural ventilation, reducing dependent on electrical energy. Use of Fluorescent and Compact Fluorescent lamps which are energy efficient lamps.
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 air pollutants released into the atmosphere is insignificant and that too from the vehicles/equipment’s.
Trees and bushes planted around the site helps in reducing the heat island effect by reducing ambient air temperature through evapo - transpiration.
The area will be dry and the warm air which is less dense rises up and helps in the dispersion of pollutants. Thus there will be no 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 U value and the R value for roof, external walls and fenestration will be designed as per the standards of Energy Building Code.
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9.10 What precautions & safety measures are proposed against fire hazards? Furnish details of emergency plans
The firefighting system consists of automatic fire alarm system, smoke alarms, fire extinguishers and fire hydrants. Fire exits will be provided at buildings and signs to fire exits will be given. Emergency evacuation plan and mock drills at regular interval will be prepared for the proposed buildings and it is detailed in the Conceptual Plan.
9.11 If you are using glass as wall material provides details and specifications including emissivity and thermal characteristics
No Glass is proposed to be used as a wall material
9.12 What is the rate of air infiltration into the building? Provide details of how you are mitigating the effects of infiltration.
This is a construction project with no significant pressure difference inside and outside of the building. Infiltration will be reduced by sealing cracks and gaps and by properly placed plants near the buildings. Better Indoor air quality will be provided by incorporating Superior fresh air in the air conditioning systems, better filtration, use of low VOC (volatile organic compounds) materials such as paints, adhesives, carpet, composite wood materials, excellent day lighting and views for the occupants thereby ensuring better indoor air quality and environment for the occupants
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.
The site layout has been developed taking into consideration the need or utilizing renewable resources i.e. sunlight and local air movement. The blocks will be spaced such that sufficient sunlight and natural ventilation reaches each dwelling unit reducing the dependency on electrical energy.
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X. ENVIRONMENTAL MANAGEMENT PLAN (EMP)
S. No.
Information Details with source of Information
data 10.1 Environmental Management Plan
would consist of all mitigation measures pertaining to the anticipated impacts raised due to the various activities related to the project during Construction and Operation phase. Along with that Environmental Monitoring Plan will be proposed in such a way to monitor the impacts during operation phase for the entire period
The brief description of EMP is given in the Conceptual Plan.
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JUNE 2015
CONCEPTUAL PLAN
CHAPTER 1 - INTRODUCION
1. INTRODUCTION
1.1 BACKGROUND OF THE PROJECT
Mr. Sunil Khetpalia Manish Kumar Jain, Power of Attorney holder of Chennai
Properties & Investments Ltd, has proposed to launch Residential building with total
Built up area of 88,598.98 Sq.m. to carry out Environmental management plan study
for the Proposed construction of residential building to be developed on R.S. No. 4279
and 4284 at new door nos. 78, 79, 80, 81, old door nos. 57, 58, 59, 60, Santhome High
Road, Thandavarayan street, Raja Annamalai Puram, M.R.C Nagar, Mylapore village,
Mylapore - Triplicane Taluk, Chennai District, Tamil Nadu.
1.2 OBJECTIVE
This comprehensive study is meant to address any possible positive and negative
impacts and environment-related conflicts that may result from different phases of the
proposed project.
This will in the long term ensure not only a safe and clean environment, but also ensure
that the proposed development activities are in conformity with the existing
environmental rules and regulations.
The key objectives of this study include the following:
• To determine the compatibility of the proposed project facilities with the
neighbouring land uses.
• To assess and evaluate the environmental costs and benefits associated with the
Proposed project.
• To evaluate and select the best project alternative from the various options
identified.
• To incorporate monitoring mechanisms during project implementation and
operational phases.
1.3 SCOPE OF THE STUDY
The proposed activity constitutes construction of buildings in an area greater than
20,000 sq.m., it requires Environmental Clearance from State Environment Impact
Assessment Authority (SEIAA) under sector 8(a) B2 “Building and Construction
projects“ of EIA Notification 2006 and its subsequent amendments.
15 JUNE 2015
CHAPTER 1 - INTRODUCION
The study was conducted to evaluate the potential and foreseeable impacts of the
proposed development. The study includes
i. Introduction
ii. Description of the project site
iii. Project Description
iv. Environmental Management Plan
1.4 GOVERNMENT OF INDIA - LEGISLATION - CONSTRUCTION PROJECTS
Government of India, Ministry of Environmental Forests, New Delhi has issued a
notification with regard to the development of infrastructure / construction projects,
which is known as EIA Notification - 2006, issued on 14.09.2006. As per this notification
all the building /construction projects / Area Development projects and Townships
projects are exempted from Scoping, EIA and Public Hearing.
In this regard, The Developer has appointed M/s. ABC Techno Labs India Private
Limited, Chennai, accredited by National Accreditation Board for Education and
Training (NABET) - Quality Council of India (QCI), New Delhi to formulate
Environmental Management Plan during Construction & Operational Phases to mitigate
any adverse impacts to the Environment
The Conceptual Plan describes all the details of the project and its specific activities that
will be considered for investigation of the significant adverse impacts. The report also
provides specific measures that will be put to practice to minimize the impacts on the
Environment.
16 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
2. DESCRIPTION OF THE PROJECT SITE
2.1 LOCATION
Proposed construction of residential building at new door nos. 78, 79, 80, 81, old door
nos. 57, 58, 59, 60, Revenue Survey Numbers 4279 and 4284 of Santhome High Road,
Thandavarayan street, Raja Annamalai Puram, M.R.C Nagar, Mylapore village in
Corporation Division No. 173 Zone -13, Mylapore - Triplicane taluk, Chennai District,
Tamil Nadu. The site co-ordinates are 13°01'10'' N Latitude and 80°16'11'' E Longitude.
The satellite image of the project site and the location of the project site are given in
Figure2.1 & Figure2.2.
FIGURE 2.1 GOOGLE IMAGE OF THE PROJECT SITE
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CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.1 MAPS SHOWING THE LOCATION OF THE PROJECT SITE
18 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
2.2 ENVIRONMENTAL SENSITIVITY OF THE PROJECT SITE
The proposed project site is categorized as Primary Residential Use by Chennai
Metropolitan Development Authority (CMDA). The land use map of CMDA is enclosed
as Annexure IV. A key plan of the site is shown in the following diagram. Land-use map
of 10 Km radius is shown in Figure 2.5. Topo map covering 10 Km radius from
periphery of the project site is given in Figure 2.6. Drainage map covering 10km radius
from periphery of the project site is given in Figure2.7.
FIGURE 2.2 KEY PLAN OF THE PROJECT SITE
19 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.4 SATELLITE IMAGE OF THE PROJECT SITE (5 KM RADIUS)
20 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.5 LAND USE MAP OF THE PROJECT SITE
21 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.6 TOPO MAP OF THE SITE COVERING 10 KM RADIUS
22 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.7 DRAINAGE MAP OF THE PROJECT SITE COVERING 10 KM RADIUS
23 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
TABLE 2.1ENVIRONMENTAL SETTING OF THE PROJECT SITE
S. No. Particulars Details
1. Site Latitude 13°01'10'' N
2. Site Longitude 80°16'11'' E
3. Present Land use Primary Residential use
4. Nearest Bus Stand/Stop MRC Nagar - 0.15 km (N)
Narayanasamy Thottam - 0.77 km (W)
Rani Meyammai Bus stop - 0.87 km (NW)
5. Nearest Railway station Kotturpuram - 2.4 km (NW)
Greenways Road - 1.9 km (W)
Mandaveli - 1.4 km (NW)
Kasturibai Nagar - 2.8 Km (SW)
Indira Nagar - 3.4 km (SW)
Saidapet - 5 km (E)
6. Nearest airport Chennai International Airport - 12.2 km (SW)
7. Nearest town/ city Mandaveli - 0.941 km (N)
Mylapore - 1.3 km (NW)
Adyar - 2.0 km (S)
Raja annamalai Puram - 1.8 Km (W)
Besant Nagar - 2.2 km (S)
Kotturpuram - 2.9 km (SW)
Nandanam - 3.3 km (E)
8. Hills/ valleys St. Thomas Mount - 8.2 km (SW)
Pallavaram Hill - 12.8 km (SW)
9. Topography Plain
10. National parks/ Wildlife
Sanctuaries/Zoos
Guindy National Park - 4.0 km (SW)
Tholkappiar Ecological Park - 0.537 km (NE)
11. Reservoir/Lake Adyar River Estuary - 0.5 km (S)
Adyar Creek - 0.51 km (N)
Bay of Bengal - 0.94 km (E)
Chitrakulam Pond - 1.2 km (N)
Buckingham canal - 2.3 km (N)
24 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
S. No. Particulars Details
Mylapore Kapaleeswarar Kovil Pond - 1.4 km (N)
Kallukuttai Lake - 5.5 km (SW)
12. Reserved/ Protected
Forests
Pallikaranai Marsh Reserve Forest - 7.4 km (SW)
13. Seismicity Seismic Zone III (Moderate)
14. Defense Installations NIL (within 15 km radius)
15. Nearest Port Chennai Port - 7.8 km (NE)
2.3 SITE CONNECTIVITY
The Project Site is well connected by road, rail and air ways. An access road of Santhome
High Road is located adjacent to the project site on West direction. Mandaveli Railway
station is located at 1.3 km, Northwest from the project site. MRC Nagar Bus stop and
Narayanasamy Thottam Bus stop is located at 0.15 km North and 0.77 West
respectively.
25 JUNE 2015
CHAPTER 2 - DESCRIPTION OF THE PROJECT SITE
FIGURE 2.9 LOCAL CONNECTIVITY OF THE PROJECT SITE
2.4 TOPOGRAPHY
Topographically, the proposed project area is flat terrain. There is no alteration in
drainage pattern and natural slope. The drainage map of the project site Covering 10
Km is shown in Figure 2.7.
26 JUNE 2015
CHAPTER 3 - PROJECT DESCRIPTION
3. PROJECT DESCRIPTION
3. 1 OVERVIEW OF THE PROJECT
The developer has proposed the construction of Residential buildings at new door nos.
78, 79, 80, 81, old door nos. 57, 58, 59, 60, Revenue Survey Numbers. 4279 and 4284 of
Santhome High Road, Thandavarayan street, Raja Annamalai Puram, M.R.C Nagar,
Mylapore village in Corporation Division No. 173 Zone 13, Mylapore - Triplicane Taluk,
Chennai District with 353 Dwelling units comprising of block 01 and 02 and block 03
comprising of Club house and other amenities like Security Room with total built up
area of 88,598.98 Sq.m. and land area of 17655.05 Sq.m. Split-up area details of the
project site and built-up area statement is given in Table 3.1 & 3.2. The salient features
of the project site are given in Table 3.3. The site layout has been shown in Figure 3.1.
The Land ownership documents are enclosed as Annexure I. Geo-technical report is
enclosed as Annexure VI. Authenticity of Baseline Monitoring report for the existing
Environmental status is enclosed as Annexure VII.
TABLE 3.1 LAND USE SPLIT UP OF THE PROJECT SITE
S.No Description Area in Sq.m % Occupancy
1 Plot Coverage 6156.44 34.87
2 Internal Road 4861.57 27.54
3 Parking Area 1766 10
4 Green belt Area 2648.26 15
5 OSR Area 141.63 0.8
6 Service Area 2081.15 11.79
Total Plot Area 17655.05 100
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CHAPTER 3 - PROJECT DESCRIPTION
TABLE 3.2 SUMMARY OF BUILT UP AREA STATEMENT
DET
AILS
OF
BUIL
DIN
G
DESCRIPTION NO.OF.
TENEMENTS PER FLOOR
RESIDENTIAL (Sq.m) AMENITIES (Sq.m) TOTAL
(Sq.m) BLOCK I BLOCK II CLUB HOUSE
No. of. Floors per block 0
B + S + 16 + Terrace
B + S + 16 + Terrace
G + 3 + Terrace -
FSI A
REA
Basement 0 0 0 - - Stilt 0 0 0 - -
Ground 0 0 0 176.000 - 1st 12 1247.071 1156.429 300.000 2703.5 2nd 24 2057.80 2070.811 132.00 4260.611 3rd 24 2057.80 2070.811 200.00 4328.611 4th 24 2057.80 2070.811 - 4128.611 5th 24 2057.80 2070.811 - 4128.611 6th 24 2057.80 2070.811 - 4128.611 7th 24 2057.80 2070.811 - 4128.611 8th 24 2057.80 2070.811 - 4128.611 9th 24 2057.80 2070.811 - 4128.611
10th 24 2057.80 2070.811 - 4128.611 11th 24 2057.80 2070.811 - 4128.611 12th 24 2057.80 2070.811 - 4128.611 13th 24 2057.80 2070.811 - 4128.611 14th 24 2057.80 2070.811 - 4128.611 15th 23 1969.942 1935.28 - 3905.222 16th 6 1042.053 1015.701 - 2057.754
Terrace 0 0 0 - 0
NO
N F
SI A
REA
Basement 0 9550 0 9550 Stilt 0 7500 0 7500
Ground 0 0 0 500.00 500 1st 0 165.841 165.446 574.00 905.287 2nd 0 211.162 210.533 300.00 721.695 3rd 0 211.162 210.533 710.212 1131.907 4th 0 211.162 210.533 - 421.695 5th 0 211.162 210.533 - 421.695 6th 0 211.162 210.533 - 421.695 7th 0 211.162 210.533 - 421.695 8th 0 211.162 210.533 - 421.695 9th 0 211.162 210.533 - 421.695
10th 0 211.162 210.533 - 421.695 11th 0 211.162 210.533 - 421.695 12th 0 211.162 210.533 - 421.695
28 JUNE2015
CHAPTER 3 - PROJECT DESCRIPTION
13th 0 211.162 210.533 - 421.695 14th 0 211.162 210.533 - 421.695 15th 0 206.767 205.927 - 412.694 16th 0 162.292 165.841 - 328.133
Terrace 0 116.60 123.60 - 240.20 OVERALL TOTAL
(Sq.m) 353 88598.98
TABLE 3.3 SALIENT FEATURES OF PROPOSED PROJECT
FIGURE 3.1 SITE LAYOUT OF THE PROJECT
FIGURE 3.2 FLOOR, SECTION AND ELEVATON LAYOUT
S.NO DESCRIPTION DETAILS 1. Total area of Extent 17655.05 Sq.m. 2. Total Built up area 88598.98 Sq.m. 3. Building Height 71.5 m 4. Plot Coverage 34.87 % 5. FSI 3.5 6. OSR Area 1766 Sq.m. 7. Parking Area provided
Basement Stilt
Open
1725 Sq.m. 2637.5 Sq.m. 1987.5 Sq.m.
8. Source of Water Supply and sewage disposal
Chennai Metropolitan Water Supply and Sewerage Board (CMWSSB)
9. Total Water Requirement 273 KLD 10. Fresh Water Requirement 214 KLD 11. Quantity of wastewater generation 269 KLD 12. Power requirement & Source 125 KVA and TANGEDCO 13. Solid waste generation, treatment
and management Total MSW - 948 kg/day Bio-degradable - 379 kg/day (OWC) Non-Biodegradable - 398 kg/day (Chennai Corporation) Inert - 171 kg/day (Landfill/Chennai Corporation)
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CHAPTER 3 - PROJECT DESCRIPTION
3.2 POPULATION DETAILS
3.2.1 During Construction Phase
The total manpower requirement during construction phase of the Proposed Project is
given in Table 3.4.
TABLE 3.4 MANPOWER REQUIREMENT DURING CONSTRUCTION PHASE
S.NO DESCRIPTION 1. Approximately 100 persons Inclusive of workmen, Labourers, Supervisors,
Engineers, Architects and Managers
3.2.2 During Operation Phase
The expected population during Operation Phase of the Proposed Project is given in
Table 3.5.
TABLE 3.5 ESTIMATED POPULATION DURING OPERATIONAL PHASE
S.NO ACTIVITIES DESCRIPTION NO. OF. UNITS
TOTAL NO. OF PERSONS
1. Residential Units
Block 1 118 590 Block 2 235 1175
2. Amenities Club House - 150 Floating population (10% visitors) 176
TOTAL 353 2091
3.3 PROJECT COST
The project cost for the proposed Residential Complex is estimated to be around Rs. 144
Crores.
3.4 CONSTRUCTION MATERIALS
Quantity of construction materials required for the proposed construction is given in
Table 3.6.
30 JUNE2015
CHAPTER 3 - PROJECT DESCRIPTION
TABLE 3.6 QUANTITY OF CONSTRUCTION MATERIALS REQUIRED
S.NO MATERIAL DESCRIPTION UNITS OF MEASUREMENT APPROX QUANTITY 1. Cement Bags 6,000 2. Sand Cum 14,000 3. Aggregate 12 mm BM Cum 8,000 4. Aggregate 20 mm BM Cum 6,500 5. Aggregate 40 mm BM Cum 45,000 6. Steel MT 400 7. Bricks Nos 1,50,000
3.5 WATER REQUIREMENT
3.5.1 During Construction Phase
Water requirement during Construction Phase will approximately be 20 KLD which will
be met through purchasing water locally through water tankers.
3.5.2 During Operation phase
The total fresh water requirements during Operation Phase will be 214 KLD and which
will be sourced through existing CMWSSB water supply line. The request letter for
supply of fresh water from CMWSSB is enclosed Annexure XIV. The details of water
requirement calculation are given in Table 3.8 and the water balance chart is shown in
Figure 3.4.
TABLE 3.7 WATER REQUIREMENT CALCULATION DURING CONSTRUCTION PHASE
S. No
Description
Total no. of
Persons
Water demand
per person/
day
Demand per person/day (in
Litres)
Domestic water
Demand in KLD
Flushing Demand in KLD
Domestic use
Flushing use
1. Workers 100 45 25 20 2.5 2 2. Curing - - 15000 15.5 -
TOTAL 18 2 GRAND TOTAL 20 KLD
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TABLE 3.1 WATER REQUIREMENT CALCULATION DURING OPERATIONAL PHASE
*Source: National Building Code 2005
S.No Description No. Of flats / unit
Population per flat /
unit
Total population
Water requirement Total water requirement
Domestic Flushing Domestic Flushing RESIDENTIAL 1 BLOCK I 118 5 590 90 45 53.1 26.55 2 BLOCK II 235 5 1175 90 45 105.75 52.875 AMENITIES
3 BLOCK III
(CLUB HOUSE)
- 150 150 20 25 3 3.75
4 SWIMMING POOL - - - 25 - 25 -
VISITORS 176 10 5 1.76 0.88 TOTAL
189 84
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`
FIGURE 3.3 WATER BALANCE CHART
Domestic Water 189 KLD
Flushing Water 84 KLD
Sewage Generation 269 KLD
Total Fresh Water Requirement 214 KLD
Sewage Treatment Plant 280 KLD
Green Belt / Gardening 9 KLD
160 KLD 84 KLD
NIL
100 %
Swimming Pool 25 KLD
Treated Sewage 256 KLD
84 KLD 9 KLD
Excess Treated Sewage 163 KLD will be disposed to Existing
underground CMWSSB Sewer line
85 %
NIL
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3. 1 SEWAGE GENERATION AND DISPOSAL
3.6.1 During Construction Phase
Quantity of sewage generated during construction phase will be 2 KLD. Thus the
sewage will be treated by providing septic tank followed by soak pits.
3.6.2 During Operation Phase
Quantity of sewage generated during operational phase shall be 269 KLD. Thus
the sewage will be treated through sewage treatment plant of capacity 280 KLD. The
treated sewage is utilised for flushing (84 KLD) and greenbelt development (9 KLD).
Then the excess treated sewage of about 163 KLD will be discharged into nearby
existing underground Chennai Metropolitan Water Supply and Sewerage Board
(CMWSSB) sewer line. The detail of sewage treatment plant of 280 KLD is enclosed as
Annexure VIII. The request letter for discharging excess treated sewage from concerned
authority is enclosed as Annexure XIV.
3. 2 SOLID WASTE GENERATION, COLLECTION, TRANSPORT AND DISPOSAL
3.7.1 During Construction Phase
The estimated quantity of construction debris is 150 m3 and will be used for
leveling roads and land in the surrounding low lying areas.
The excavation materials that will be generated during construction phase shall
be stored for use in developing parks within the project site.
3.7.2 During Operation Phase
The estimated quantity of municipal solid waste generated during Operation
Phase will be 948 kg/day. The quantity of waste generation is given in Table 3.9 & 3.10
TABLE 3.2 SOLID WASTE GENERATION
S.No Activities No. of Units
No. of Persons
Quantity (kg/day)
1. Residential Units 353 1765 883
2. Amenities - 150 30
Floating population (10% visitors) 176 35 TOTAL 353 2091 948
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* The estimation of solid waste generation for Residential Buildings is taken as 0.5 kg/person/day. * The estimation of solid waste generation for Residential Buildings (floating-population) is taken as 0.2 kg/person/day.
TABLE 3.3 SOLID WASTE GENERATION & MANAGEMENT
S.No Description Quantity (kg/day) Method of Disposal
1. Bio-degradable Waste 379 Organic Waste Converter
2. Non-Biodegradable Waste 398 Corporation of Chennai
3. Inert Waste 171 Land filling/Corporation of Chennai
4. STP Sludge 39 Manure for gardening and green belt development
The garbage will be temporarily stored in storage bin and later it will be taken by
CMWSSB garbage vehicle.
3.7.3 Organic Waste Converter
The Mechanical Composter (MC) is the perfect blend of nature’s gift to mankind -
decomposing bacteria and sheer engineering marvel, complementing each other to
produce odorless pre-organic compost in 15 minutes alone. The solution involves a
biomechanical process that will be a boon to resorts, hotels, temples, markets, hospitals,
townships, industrial canteens and clubs and resorts. The machine, occupying a small
area of yours is a tool to challenge the dumping site and we invite you to pioneer this
move for a cleaner and better environment.
Working Principle
Mechanical Composter converts the organic waste into odorless, pre-compost
manure in 15-20 minutes. The organic waste, freed from foreign particles is fed into MC.
The shredder reduces the organic waste into the optimum particle size for composting.
Then it is mixed with moisture absorbing materials and Useful micro-organisms. This
mixture is then blended for a homogeneous mixture and is converted into pre compost
manure in 20 minutes. The pre compost manure is then fed into aerated compost blocks
or 12 - 15 days.
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The compost blocks or piles are specially designed for the pre-compost manure to
have proper aeration and suitable environment to mature. The final manure will be rich
in nutrients and used for the development of green belt. The technical specification of
the Mechanical Composter is given below in Table.
Salient Features of Organic Waste Converter (OWC)
Quick, easy to operate, less space requirement and odor free manure
compared to other waste conversion process
Immediate and hygienic disposal of food waste
Waste minimization strategy followed by 3R Technique (Reduce, Reuse,
Recycle)
Savings on Purchase of Manure for landscape
Savings on Waste Disposal Expenses
Elimination on the usage of chemical fertilizers
Carbon credit revenue in the future
Technical Specification of Mechanical Composter
S. No
Mechanical Composter Description
Details
1. Capacity of the Plant 500 Kg/day 2. Area requirement 40 m2 3. Batch Size 150 - 200 Kg 4. Number of Batches 2 – 3 5. Total weight of finished product expected 125 - 150 Kg (30 - 40 % of waste) 6. Capital cost Rs. 15 lakhs approx. 7. Recurring cost Rs. 15,000/month approx.
Optimum Conditions for Composting
During Composting process, optimum conditions shall be maintained to achieve
better compost value. The parameters mentioned below shall be maintained
accordingly during operation.
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Optimum Conditions for Composting
S.No Parameters Values
1 C/N Ratio 30 : 1
2 Particle Size 1/8 to 2 inches
3 Oxygen 15 % - 20 %
4 Temperature 55 - 65.5 ⁰ C
5 Moisture 40 % - 60 %
6 pH 6.5 - 7.5
Characteristics of final Compost
S.No Parameters Concentrations (% except pH)
1 Total Nitrogen 1.3
2 Total Phosphorus 0.2 - 0.5
3 Total Potassium 0.5
4 Organic Phosphorus 0.054
5 pH 8.6
6 Moisture 45 - 50
7 Organic matter 30 - 70
3. 3 RAINWATER HARVESTING & STORM WATER DRAIN
A rainwater harvesting system comprises components of various stages -
transporting rainwater through pipes or drains, filtration, and recharging the ground
water through tanks. Percolation pits will be constructed for ground water recharge.
Runoff from the first spell of rain carries a relatively large amount of pollutants from the
air and catchments surface so the system will be provided with a filtration pit consisting
of layers of sand, gravel and pebbles of relevant sizes to remove impurities from the
collected rainwater.
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3.8.1 Need for Rainwater Harvesting
Surface water is inadequate to meet the daily demand and we have to depend on
ground water.
Due to rapid urbanization, infiltration of rain water into the sub-soil has
decreased drastically and recharging of ground water has diminished.
Rainwater harvesting prevents the flooding of low-lying areas in the site.
3.8.2 Rainwater Harvesting Network
Rain water harvesting trenches will be constructed all around the compound
wall to collect rain water. Excess storm water will be allowed to drain into the external
storm drain. The depth of the trench will be 6m and the width will be 1.8m. The trench
will be filled with rounded pebble 50 to 75mm size. The sectional detail of the proposed
rain water recharge pit is provided in Figure 3.6.
The path ways around the harvesting lines will be graded to facilitate drainage into
trenches proposed around the compound. Recharge wells/pits are envisaged along the
path of the storm water drains for rain water recharging & surplus water from the
recharge wells/pits shall be diverted to the storm water drainage network.
The collected storm water will be allowed to percolate to the sub-soil by suitably
designed percolation pits. The pits will be designed based on the soils percolation
capability. The subsoil water table is high in these areas and however harvesting pits
with bores will be provided.
Percolation pits of suitable numbers will be provided for recharge of ground
water potential. A total of 16 rain water harvesting pits will be constructed. The
quantity of run-off water potential for the proposed construction project is given below.
The rainwater harvesting arrangement helps in replenishing the underground water
column and soil lithography is given in Table 3.11.
TABLE 3.4 SOIL LITHOGRAPHY
Sl. No. Depth Below G.L.(m)
Soil Classification
1. 0 - 0.50 Filled up soil 2. 0.50-5.50 Silty Sand - SLS1 3. 5.50 - 12.50 Silty Sand - SLS2 4. 12.50 - 16.50 Silty Sand - SLS3 5. 16.50 - 19.50 Sandy Gravel - SG1
38 JUNE2015
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Rain Water harvesting will be done through the trench which is provided with
the pebble bed of 6000 mm width & 1800 mm depth all around the building which will
be filled with rounded pebble of size 50 to 70 mm. The path ways will be graded to
drain into rain water drain channels proposed in main drive ways/ roads, so that rain
water from the terrace flow over this pavement and spread into the pebble bed. The
Rain water harvesting layout, pit and trench details are shown in Figure 3.4 & 3.5.
FIGURE 3.4 RAIN WATER HARVESTING LAYOUT
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FIGURE 3.5 RAIN WATER HARVESTING PIT AND TRENCH DETAILS
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3.8.3 Run -off calculation as per area
TABLE 3.5 RAIN WATER AVAILABLE FROM PAVED AREAS (A)
S.NO. ITEM AREA
1. Paved area 7084.35 m2
2. Runoff co-efficient for paved surface area 0.7
3. Rainfall minimum 1.4 m/yr
4. Net quantity of water available for harvesting 6942.66 m3
TABLE 3.6 RAINWATER FROM UNPAVED AREA (B)
S.NO. ITEM AREA
1. Unpaved area 4414.26 m2
2. Runoff co-efficient 0.3
3. Rainfall minimum 1.4 m/yr
4. Net quantity of water available for harvesting 1853.99 m3
TABLE 3.7 RAINWATER FROM ROOF SURFACES (C)
S.NO. ITEM AREA
1. Available area 6156.44 m2
2. Runoff co-efficient 0.9
3. Rainfall minimum 1.4 m/yr
4. Net quantity of water available for harvesting 7757.11 m3
Total Quantity of water available for Harvesting (A + B + C) =16553.8m3/Annum
S.NO. DESCRIPTION NOS. SIZE OR CAPACITY 1. Rain water Recharge Pit 16 1.2 m dia x 3 m depth
2. Sump 1 6 m x 5 m x 2.5 m SWD + 0.3 FB 1 8 m x 5 m x 2.5 m SWD + 0.3 FB
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TABLE 3.8 RAINFALL RUNOFF CALCULATION
S.No Month Rain fall (mm) Harvestable Water (CUM) 1. January 9.32 110.2 2. February 11.76 139.1 3. March 5.26 62.2 4. April 4.26 50.4 5. May 43.38 512.9 6. June 62.2 735.5 7. July 99.08 1171.5 8. August 181.76 2149.2 9. September 158.16 1870.1
10. October 168.58 1993.3 11. November* 277.78 3284.5 12. December 179.76 2125.5
TOTAL 1201.3 14204.3 * No. of rainy days in November = 11 days
The collected storm water will be allowed to percolate to the sub-soil by suitably
designed percolation pits. The pits will be designed based on the soil percolation
capability. The subsoil water table is high in these areas and however harvesting pits
with bores will be provided.
3. 4 POWER DETAILS
Power will be availed from Tamil Nadu Generation and Distribution Corporation
(TANGEDCO). Total Electric load for the proposed project is 4172 KVA. Power back up
details is given in Table 3.16. The required diesel will be purchased on daily basis in
nearby petrol bunk. Hence there is no storage facility for storing high speed diesel.
Details of the D.G Set details and location have been shown in Table 3.16.
TABLE 3.9 DG SET DETAILS
S.NO. DESCRIPTION 1. DG Set Capacity 64 KVA (3 Nos.) 2. Type of Fuel High Speed Diesel 3. Material of the stack MSB class pipes with Thermal Insulation 150 mm 4. Diameter of the stack 0.15 m 5. Height of the stack 5 m from GL 6. Fuel Consumption 25 lit/day at 80 % load
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3.5 PARKING AREA DETAILS
Proposed project will be consists of basement, stilt and open parking. The
parking space criteria and area requirement provided are summarized in the Table
3.17. Parking details are designed as per CMDA Norms.
TABLE 3.10PARKING AREA CALCULATION DETAILS AS PER DTCP NORMS
3.6 CLUB HOUSE
The proposed project site consist of club house (G + 3 + Terrace) with built-up
area of 392.90 Sq.m. The club house has several facilities which includes Creche,
Children’s play area, pantry cafeteria, reading lounge, dining, multipurpose hall,
conference room, Spa, Aerobics, yoga, gym, badminton, table tennis, billiards, squash,
video games, indoor games, swimming pool.
S. No
Description
CMDA Norms
No of two
Wheeler parking
required
No of two
Wheeler parking
Provided
No of Car
parking required
No of Car parking
Provided
Car parking
area required
Car parking
area provided
Two Wheeler parking
area required
Two Wheeler parking
area provide
d
1 Basement 1 Car Space
for every
75 sq.m
160 164 504 138 6300 1725 288 295.2
2 Stilt - - - 211 - 2637.5 - -
3 Open Parking - - - - 159 - 1987.5 - -
SUB TOTAL 160 164 504 508 6300 6350 288 295.2
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CHAPTER 4 - ENVIRONMENTAL MANAGEENT PLAN
4. ENVIRONMENTAL MANAGEMENT PLAN
4. 1 ENVIRONMENTAL MANAGEMENT PLAN
The Environmental Management Plan (EMP) deals with strong commitment to follow
best Environmental practices to reduce the negative implication to make this project a
sustainable development endeavour.
Environmental management plan aims at
• To control pollution to the possible extent with the affordable and available
technology.
• To follow the best treatment measures before they are disposed to the land.
• To preserve the ecosystem by considering the pollution due to project
construction and operation.
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4. 2 IMPLEMENTATION OF EMP
In order to facilitate easy implementation, mitigation measures are phased as per the
priority. The EMP designed for the proposed housing project during construction and
operational phase will be implemented as per the following schedule.
S.NO RECOMMENDATIONS REQUIREMENT IMMEDIATE PROGRESSIVE 1. Air Pollution Control
Measures Before commissioning of respective units
2. Water pollution control measures
Before commissioning of respective units
3. Noise control measures Along with the commissioning of the project
4. Construction Safety and Occupational Health Management
Along with the commissioning of the project
5. Rain Water Harvesting After commissioning of the project
6. Solid waste management After commissioning of the project
7. Energy Management
After commissioning of the project
8. Green belt Development & Management
Stage-wise implementation
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4.3 IDENTIFICATION OF ENVIRONMENTAL AND SOCIAL IMPACTS
Existing impacts:
There were no major environmental impacts at the time of the study. The only notable
aspect was degradation of vegetation especially shrub trees within the project area.
Anticipated impacts:
The anticipated impacts of the proposed project on the environmental elements are
both positive and negative. The magnitude of each impact is described in terms of being
significant, minor or permanent, short-term or long term, specific (localized) or
widespread, reversible or irreversible. The table below shows the assessment criteria
for the significant impacts are:
Key Type of impact
+ positive impact
- negative impact
0 Negligible/Zero impact
SP Specific/Localized impact
W Widespread impacts
SH Short term impacts
L Long term impacts
T Temporary impacts
P Permanent impacts
NC No change
On the basis of information gathered during the field study, the potential environmental
impacts of the proposed project are tabulated below:
Impacts due to Construction Process Operation Process
Air/Dust Pollution - 0
Water Quality - 0
Soil erosion SP 0
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Storm water Control 0 +
Noise Pollution - 0
Terrestrial Ecology - +
Public Health 0 NC
Socio-economics
Traffic T NC
Positive Impacts of the Proposed Development and Justification Positive Impacts Vindication
Provision of high class and affordable housing to the residents.
The proposed project will provide affordable housing to the residents with emphasis on their safety and well being
Economic investment. The proponent will receive returns on his investments hence increase in wealth.
Contribution to direct and indirect employment and income
Besides the direct employment by the proposed development, other forms of employment are likely available during the construction and operation phases. The employment opportunities will generate income and improve the living standards of the local population and its environs.
4.4 PLAN FOR ENVIRONMENTAL MANAGEMENT
Based on project description, Environmental Baseline Data and Environmental Impacts,
the Environmental Management Plans are suggested of the following:
Institutional set up for EMP Implementation
Construction Safety and occupational Health Management
Rain Water Harvesting
Solid Waste Management
Green Belt Development & Management
Energy Management
A detailed Environmental Management Plan to be followed during the construction and
operation phase is presented in Table 4.1 and 4.2.
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TABLE 4.1 ENVIRONMENTAL MANAGEMENT PLAN – CONSTRUCTION PHASE
Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
Air Quality Increase in ambient dust (PM) and NOX levels
Vehicular movements, excavation and leveling activity
Isolate the construction area with flexible enclosures/ curtains so that the air emissions will not spread in the surroundings. Sprinkling of water in the construction area and unpaved roads. Proper maintenance of vehicles shall be done. Restrict dust-generating activities, such as blasting or top soil removal, to calm wind conditions. Cover heavy vehicles moving offsite. Restrict vehicle speed on construction roads and ensure vehicles use only dedicated construction roads and access points. Visually monitor particulate emissions from diesel vehicles and carryout regular maintenance of equipment.
Construction vehicles will be maintained properly for reducing air pollution levels from vehicle exhausts.
Noise Quality Increase in ambient noise level
Construction equipment and vehicle movement
Develop and implement a construction noise management plan. Limit hours of construction where practical. Where blasting occurs, pit shapes and blast
Equipment shall be kept in good condition to keep the noise level within 90- dB(A). Workers shall be provided with
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Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
campaigns will be designed such that the blast faces are oriented away from noise sensitive receivers. The workers operating high noise machinery or operating near it will be provided with ear plugs The high noise generating stationary machinery will be located at central portion of the site Construction contracts should specify that the construction equipment should meet the noise and air emission levels as per EPA Rules, 1986 Identification of alternate access roads to the site to facilitate one-way movement of traffic or reduction of traffic density on any particular road Improvement of road surface to standards adequate to withstand movement of heavy construction vehicles. Installing appropriate signage and deploying flagmen during peak traffic period to regulate the movement of traffic
necessary protective equipment e.g. earplugs, earmuffs.
Water Quality
Increase in suspended solids due to soil run-off
Loose soil at construction site
During monsoon season run-off from construction site shall be routed to a temporary sedimentation tank for settlement of suspended solids.
---
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Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
during heavy precipitation Increase of water pollutants
Discharge of wastewater from construction
All wastewater discharges from construction site will be received in septic tanks with adequate capacity. Oil handling and storage area will be surfaced and provided with catch pit to intercept any accidental spillages.
Ecology Clearing of vegetation
Soil enabling activities
Landscaping and extensive plantation shall be done.
Open spaces reserved will be green turfed and appropriate type of plantations will be done.
Socio-economics
Land oustees Land Acquisition The proposed site is already in possession of the project promoters and free from encumbrances, hence private land acquisition and resultant rehabilitation and resettlement issues are not involved.
--
Excavated Material
Loss of excavated top soil
Excavation The topsoil shall be properly stored and used for leveling in the low-lying area. The construction debris shall be used to level the low lying area
---
Traffic Creation of Traffic Material carrying vehicles
Improvement and widening of the existing access roads. Establishment of additional connecting roads to the project site to provide multiple accesses points.
---
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TABLE 4.2 ENVIRONMENTAL MANAGEMENT PLAN – OPERATION PHASE
Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
Air Quality Increase in dust (PM) and gaseous pollutants in ambient air
Vehicular traffic, Stack emissions from DG sets
• Usage of low sulphur fuel in DG sets. • Adequate stack height is provided for the
generators for dispersion of pollutants. • Motorable roads in the complex shall be paved
to reduce dust emission. • Restricting the speed of the vehicles inside the
campus. • Internal roads will be maintained properly for
free movement of vehicles. • Ensure operational procedures are adequately
implemented and regularly reviewed so as to identify opportunities for continual improvement.
• Green belt will be developed which acts as pollutants absorber.
• Roadside tree plantation to be restored and maintained.
Emissions from DG sets and AAQ levels shall be maintain below regulatory standards
Noise Increase in noise levels
DG sets operation, Vehicle movement, pump house
• Acoustic enclosure is provided for D.G. sets. • Ear muffs / plugs will be provided to the
personnel in the close vicinity of noise sources. • Restricting the speed of the vehicles inside the
campus. • Proper maintenance of vehicles will reduce the
Green belt will also be developed all along the boundary wall for attenuating the noise
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Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
noise levels • Pumps / equipments shall be designed to
conform to noise levels prescribed by regulatory agencies
• Green belt will be developed which acts as noise absorber.
Water Resources
Depletion of ground / surface water source
Water usages in different locations
• Rain water harvesting structures will be constructed to recharge the ground water.
• Rainwater from the roof top will be taken to Recharge Trench constructed near all the buildings.
• Selection & use of native species of vegetation to reduce landscape water requirement.
• Minimizing the paved surfaces to minimize the storm water runoff volume thereby increases the aquifer recharge.
• An effective storm water management plan will be implemented.
• Storm water drains will be constructed to collect the excess runoff within the compound.
• Water efficient fixtures and devices can be used.
Conducting water audit to increase the water conservation measures.
Water Quality
Deterioration of quality of receiving water body, if any.
Sewage discharge from various sources
Sewage from the proposed buildings will be conveyed to the proposed Sewage Treatment Plant. The treated water from STP will be reused for green belt development and toilet flushing. The surplus treated water will be properly disposed as
The treated wastewater will be regularly monitored for its confirmation to the regulatory
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Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
per norms. standards. Traffic Increase of vehicle
count in existing road
Additional vehicle movement
Improvement of infrastructure, use of modern emission standard vehicles for transportation, provision of the proper parking yard and evaluate impact of traffic density and vehicular emissions.
Proper roads will reduce the dust emissions to a great extent.
Solid waste Impact on human health
Domestic usage a) Proper segregation and collection of wastes will be practiced.
b) The non biodegradable solid wastes are sold to vendors and while transporting the waste the vehicles are covered properly to avoid spillages
c) Biodegradable waste will be disposed to local Panchayat.
-
Demography and Socio-economics
Strain on existing amenities like water sources and sanitation and infrastructure facilities.
Influx of people of proposed project
All ultra modern work environments shall be provided inside the project site.
The proposed project would generate employment both directly and indirectly which will enhance overall socio-economic development and quality of life of people.
Terrestrial Ecology
Impact on plant species
Vehicular movement and emissions from stack
• It is proposed to develop lawns and green cover.
• Part of the treated wastewater from domestic uses can be used for greenbelt development.
As emissions will be within limits, no active damage to vegetation is
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Discipline Potential Negative Impacts
Probable Source Mitigation Measures Remarks
expected. Fire and Safety
Accidents / disasters related to fire and safety
Domestic firing • Prepare DMP and implement DMP. • A well-laid fire fighting system and fire
extinguishers will be installed as per fire safety norms
• Regular fire safety training and mock drills will also be conducted.
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4.5 ENERGY CONSERVATION MEASURES
Construction of the buildings will require additional power and energy
requirement. To minimize the energy consumption, buildings will be designed and
constructed according to Energy Conservation Building Code 2007 which sets minimum
energy standards for buildings. The following methods could be implemented to the
proposed buildings.
Some of the energy saving options will be informed to the staffs, students, and
workforce
Turn off all lights when not in use, especially in common rooms
Clean or replace your air-conditioner filters
Usage of Solar water heating systems
Usage of energy efficient equipment and appliances
Usage of CFL/LED lamps
Use of glazed windows with proper sealing to minimize infiltration
Use of occupancy sensors and dimmers for lights in the parking areas
Use of copper wound transformer
Use of under deck insulation in the roofs to reduce cooling load
Use of Variable frequency drives motors in the diesel generators and pumps
Planting deciduous varieties of trees on the south and on the west will help keep
buildings cool in the summer and allow sun to shine in the windows in the
winter. Shade trees will save up to 40 percent on your summer cooling costs
when the trees mature.
TABLE 4.1 ENERGY CONSERVATION CALCULATION
Energy Conservation - Lighting
Lighting Total Energy Consumed
Conventional Type Lamps (W)
Total Energy Consumed by using
Energy Efficient Lamps (W)
Car parking 24,480 11016 Stairs 4800 2160
Corridor 4800 2160 Terrace 5760 2592
Street lighting 27200 4896
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S. No. Description
Energy Consumption For 4 Hours
Peak Time 6pm to 10pm Power Savings in KWHR Conventional
Method in KWHR
Energy Efficient
equipments in KWHR
1 Car Parking / Staircase 124.8 56.16 68.02 2 Corridors 19.2 8.64 10.56
3 Lighting within the apartments at 75%
diversity 854.4 384.4 469.92
4 External Lightings 108.8 19.584 89.225
Total power consumption in conventional system for Lighting During Peak Time (6pm to 10pm) 1107.2 KWHr
Total power consumption through energy efficient system 8s equipments ( KWHr) at Peak Time (6pm to 10pm) 468.78 KWHr
Savings (KWHR) with energy efficient system &, equipments at Peak Time 637.72 KWHr
Savings (%) with energy efficient system 86 equipments 57.6 %
4.5 FIRE FIGHTING SYSTEM
Fire protection is one of the most essential services to be provided. The principal
objective of the rescue and fire fighting services is to save lives. For this reason, the
provision for means of quick dealing with an accident or incident occurring at, or in the
immediate vicinity of, any building, assumes primary importance because it is within
this area that there is the greatest opportunity of saving lives. This must assume at all
times the possibility of, and need for, extinguishing a fire which may occur either
immediately following an accident or incident, or at any time during rescue operations.
In the design component of the project, adequate measure is being taken as per the
provisions of the National Building Code, 2005. The fire fighting system will comprise
the following
Fire hydrant system
The complex will be provided with adequate nos. of external and internal fire
hydrants with fire hose cabinet.
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Portable fire extinguishers
Selection, installation and maintained of first aid extinguishers will be done as
per lS: 2190- 1992 and among different types of portable fire extinguishers
generally followed types will be provided.
Water fire extinguishers
Two extinguishers per compartment/floor of building will be provided and fire
fighting sump will be installed for water storage.
Nearby Fire station: Mylapore Fire Station, K P 1st Lane, Kailasapuram, Mylapore,
Chennai -600004
4.6 ENVIRONMENTAL MONITORING PLAN
It is proposed to monitor essential parameters for ambient air quality, ambient
noise quality, ground water quality, and waste water quality both during the
construction and operation phases of the project. The frequency of monitoring and
method of monitoring will be conducted as per norms of CPCB. Authenticity of baseline
monitoring report has been enclosed as Annexure XIII. However the monitoring
schedule is given in Table 4.4.
TABLE 4.4 ENVIRONMENTAL MONITORING SCHEDULE
S. No Particulars Monitoring
Frequency Duration of
Sampling Important Monitoring
Parameters 1 Ambient Air Quality Monitoring a Project site Once in 3 Months 24 hr
continuously PM10, PM2.5, SO2, NOx
2 Stack Monitoring
a DG Set - Stack
Once in 3 Months
30 min
SO2, NOx, SPM, CO, CO2, Temperature, Flow rate & Velocity of the gas
3 Ambient Noise Level
a Near DG set Once in 3 Months 8 hr continuous with 1 hr interval Noise level in dB(A)
4 Ground/Drinking Water Quality Monitoring
a Ground Water - at project site
Once in 1 Months Grab Sampling Parameters specified under IS:10500, 1993
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5 Sewage Quality Monitoring a STP Inlet
Once in a Month
Grab Sampling
Physical, Chemical & Biological Parameters specified under IS:2490:1982 b STP Outlet
6 Soil Quality a At the green
belt area Once in four months
Samples to be collected from three different depths viz., 30cm, 60cm, and 100cm below the surface.
Parameter for soil quality: pH, texture, electrical conductivity, organic matter, nitrogen, phosphate, sodium, calcium, Potassium and Magnesium.
4.7 EMP BUDGET PROVISIONS
The implementation of the pollution control and environmental monitoring and
management programme is the basis of mitigation of impacts. The environmental
expenditures show commitment of the management on environmental front. The details
of the expenditure on environmental measures are given in Table 4.5.
TABLE 4.2 ENVIRONMENTAL MANAGEMENT PLAN - BUDGET
S.No EMP Component Capital Cost
(Lakhs)
Operational Cost
(Lakhs) / yr
1. Monitoring of Environmental
components - 1
2. STP & water conservation measures 30 6
3. Energy Conservation Measures (Solar
Water Heater) 15 1
4. DG Sets 3 1.3
5. Solid waste Management 7 1
6. Rain water harvesting 30 0.7
7. Environmental Management Cell 1.2 0.3
8. Green belt development 7 1
TOTAL 93.2 12.3
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4.8 ENVIRONMENTAL MANAGEMENT CELL
Environment Management Cell (EMC) will look after the environment related
matters during the construction and operation phase of the project. EMC will
perform the following assignments.
Periodic monitoring of emissions and report any abnormalities for immediate
corrective measures.
Periodic monitoring of ambient air quality, ground and surface water quality.
Periodic noise monitoring of the building zone and surrounding area.
Regular monitoring of storm water drains.
Green belt plantation, maintenance, development of other forms of greenery.
Regular monitoring of solid wastes quantity and ascertaining avenues for
utilization of solid wastes.
Development & maintenance of schemes for water conservation.
The Environmental Management Cell (EMC) will take the overall responsibility
for coordination of the actions required for environmental management and mitigation,
and for monitoring the progress of the proposed management plans and actions to be
taken.
4.9 GREEN BELT DEVELOPMENT:
Green belt has been developing all around the housing project. The design of the
Greenery will be done in consultation with the experts in horticulture.
The philosophy behind the green belt development is
• to improve the ecology and environment by extensive afforestation.
• to capture the fugitive emissions
• to reduce the noise levels
• to upgrade aesthetics of the housing project
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TABLE 4.6 RECOMMENDED SPECIES FOR GREEN BELT DEVELOPMENT
S.No. Botanical name Tamil name
1. Zizyphus mauritiana Elantha
2. Ficus glomerata Athi
3. Citrus limon Elumichai
4. Casuarina equisetifolia Savukku
5. Terminalia chebula Kadukkai
6. Sesbania grandiflora Agathi
7. Pithecellobium ducle Kodukkapuli
8. Ficus benghalensis Alamaram
9. Emblica officinalis Nelli
10. Ficus religiosa Arasu
11. Calotropis gigantea Erukku
12. Azadirachta indica Veppam
13. Saraca indica Asogam
14. Phoenix sylvestris Icham
15. Madhuca longifolia Illupai
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