1. form i 2. form iaenvironmentclearance.nic.in/writereaddata/formb/ec/form...sri sri kala kuteers...

SRI SRI KALA KUTEERSM/s. SNR NIRMAN INDIA. PVT .LTD.,

SURVEY NO. 51/1, MANSOORABAD,SAROOR NAGAR, RANGA REDDY DISTRICT

1. FORM I2. FORM IA

Submitted ByM/s SNR Nirman India. Pvt. Ltd.,Office Adress - 3-8/1, 1ST Floor,Above kotak Mahindra Bank,Hanuman Nagar ,Chaitanya puri ,Dilsukhnagar , Hyderabad – 500 060.phone: 96762333800email: cro@ snrgroup.in

Studies & Documentation byM/s Team Labs and ConsultantsB-115, 116, 117 & 509,Annapurna Block, Aditya Enclave,Ameerpet, Hyderabad- 500 038Phone: 91-040-23748555/616Fax : 91-040-23748666e-mail: [email protected]

SUBMITTED TO

STATE LEVEL ENVIRONMENT IMPACT ASSESSMENT AUTHORITY,TELANGANA

GOVERNMENT OF INDIA

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APPENDIX I

(See paragraph – 6) FORM 1

S.No Item Details1 Name of the Project/s SRI SRI KALA KUTEERS by

M/s SNR NIRMAN INDIA. PVT .LTD.,2 S.No. in the Schedule B category (Expected cost of the project:

62.0. crores)3 Proposed capacity/area/length/

tonnage to be handled/commandarea/lease area/number of wells to bedrilled

Annexure I

4 New/Expansion/Modernization New5 Existing Capacity/Area etc. NA6 Category of Project i.e 'A' or 'B' B category7 Does it attract the general condition?

If yes, please specifyNo

8 Does it attract the Specific condition?If yes, please specify.

No

9 LocationPlot/Survey/Khasra No. Survey no. 51/1Village MansoorabadTehsil Saroor NagarDistrict RangareddyState Telangana

10 Nearest railway station/airport alongwith distance in kms.

Kachiguda railway station at a distance of8.5 km

11 Nearest Town, City, DistrictHeadquarters along with distance inkms.

Hyderabad

12 Village Panchayats, Zilla Parishad,Municipal Corporation, Local body(complete postal address withtelephone nos. to be given)

HMDA

13 Name of the Applicant Mr. Sama Sunil Kumar Reddy14 Registered Address M/s SNR Nirman India. Pvt. Ltd.,

Office Adress. No- 3-8/1, 1ST Floor,Above kotak Mahindra Bank,Hanuman Nagar ,Chaitanya puri ,Dilsukhnagar , Hyderabad – 500 060.

15 Address for Correspondence: M/s SNR Nirman India. Pvt. Ltd.,Office Adress. No- 3-8/1, 1ST Floor,Above kotak Mahindra Bank,Hanuman Nagar ,Chaitanya puri ,

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S.No Item DetailsDilsukhnagar , Hyderabad – 500 060.

Name Mr. Sama Sunil Kumar ReddyDesignation(Owner/Partner/CEO) Managing DirectorAddress M/s SNR Nirman India. Pvt. Ltd.,

Office Adress. No- 3-8/1, 1ST Floor,Above kotak Mahindra Bank,Hanuman Nagar ,Chaitanya puri ,Dilsukhnagar , Hyderabad – 500 060.

Pin Code 500 060E-mail cro@ snrgroup.inTelephone Number Phone: 96762333800Tele Fax No.

16 Details of alternative Sites examined,if any. Location of these sites shouldbe shown on a topo sheet.

Village-District-StateNA

17 Interlinked Projects No18 Whether separate application of

interlinked project has beensubmitted?

19 If yes, date of submission20 If no, reason21 Whether the proposal involves

approval/clearance under: if yes,details of the same and their status tobe 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 GovernmentOrder/Policy relevant/relating to thesite?

No

23 Forest land involved (hectares) No24 Whether there is any location pending

against the project and /or land inwhich the project is propose to be setup?(a) Name of the Court(b) Case No(c) Orders/directions of the Court, ifany and its relevance with theproposed project.

No

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(II) Activity

1. Construction, operation or decommissioning of the Project involving actions, which willcause physical changes in the locality (topography, land use, changes in water bodies, etc.)

S.No. Information/Checklist confirmation Yes/No

Details thereof (withapproximate quantities/rates, wherever possible)with source of informationdata

1.1 Permanent or temporary change inland use, land cover or topographyincluding increase in intensity of landuse (with respect to local land useplan)

Yes The site area is located inGHMC area. The presentland use is Residential.Presently the land is barrenand is not used for anyproductive purpose. Theproposed project shallenhance the land cover.

1.2 Clearance of existing land, vegetationand buildings?

No The land is barren containingmainly shrubs and bushes.The same shall be cleared.

1.3 Creation of new land uses? No The present land use isResidential.

1.4 Pre-construction investigations e.g.bore houses, soil testing?

Yes

1.5 Construction works? Yes The project is a residentialApartment constructionproject.

1.6 Demolition works? No

1.7 Temporary sites used for constructionworks or housing of constructionworkers?

No Labor shall be employed fromthe local areas, hence nolabour/ construction campsare proposed.

1.8 Above ground buildings, structures orearthworks including linear structures,cut and fill or excavations

Yes Built up Area: Annexure ICut and Fill quantity:Annexure II

1.9 Underground works including mining ortunneling?

No

1.10 Reclamation works? No1.11 Dredging? No1.12 Offshore structures? No

1.13 Production and manufacturingprocesses?

No Residential constructionproject.

1.14 Facilities for storage of goods ormaterials?

Yes Construction materials likecement, steel, sand, paints,aggregate etc shall be storedon site. The cement and

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Details thereof (withapproximate quantities/rates, wherever possible)with source of informationdatapaints are stored indoor,while the remaining is storedout doors.

1.15 Facilities for treatment or disposal ofsolid waste or liquid effluents?

Yes The wastewater shall betreated and reused forflushing and on land irrigationpurpose. The excess treatedwater if any shall be let outinto Municipal sewer lines.The water balance, waterrecycling quantities and thedesign details of sewagetreatment plant arepresented in Annexure –III.The garbage shall be collectedand the collected garbageshall be sent segregationpoint located with in the siteand then sent to Municipalsolid waste managementfacility. The garbagemanagement plan is enclosedin Annexure – IV.

1.16 Facilities for long term housing ofoperational workers?

Yes Required labour shall bedrawn from neighboringareas/villages.

1.17 New road, rail or sea traffic duringconstruction or operation?

No

1.18 New road, rail, air waterborne or othertransport infrastructure including newor altered routes and stations, ports,airports etc?

No

1.19 Closure or diversion of existingtransport routes or infrastructureleading to changes in trafficmovements?

No

1.20 New or diverted transmission lines orpipelines?

No

1.21 Impoundment, damming, culverting,realignment or other changes to thehydrology of watercourses or aquifers?

No The local hydrology shall beconsidered while designingthe storm water drains.

1.22 Stream crossings? No

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Details thereof (withapproximate quantities/rates, wherever possible)with source of informationdata

1.23 Abstraction or transfers of water formground or surface waters?

Yes The domestic waterrequirement duringoccupation shall be drawnfrom HMWSSB. Groundwater/treated wastewater ifavailable, shall be used duringconstruction.

1.24 Changes in water bodies or the landsurface affecting drainage or run-off?

No The proposed storm waterdrains shall considerincreased run off due to theproject and shall be providedwith sufficient number ofcollection sumps andrainwater harvestingstructures.

1.25 Transport of personnel or materials forconstruction, operation ordecommissioning?

Yes Trucks shall be used fortransporting the materials.

1.26 Long-term dismantling ordecommissioning or restoration works?

No

1.27 Ongoing activity duringdecommissioning which could have animpact on the environment?

No

1.28 Influx of people to an area in eithertemporarily or permanently?

Yes The local area is developing ata faster pace due to thecommercial areadevelopment in thesurrounding areas.

1.29 Introduction of alien species? No

1.30 Loss of native species or geneticdiversity?

No

1.31 Any other actions? No

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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 (withapproximate quantities /rates,wherever possible) with sourceof information data

2.1 Land especially undeveloped oragricultural land (ha)

Yes Undeveloped land of 13655.1 m2

2.2 Water (expected source &competing users) unit: KLD

Yes Ground water and HMWSSB.Water requirement duringoccupation is 177.1 KLD. Duringconstruction the waterrequirement is 50 KLD. Theavailability of water forHyderabad city are presented inAnnexure - V

2.3 Minerals (MT) No

2.4 Construction material – stone,aggregates, sand / soil (expectedsource – MT)

Yes Annexure – VI: Lead distances ofconstruction materials. Annexure– VII: Quantity of constructionmaterial requirement.

2.5 Forests and timber (source – MT) Yes Local authorized Suppliers

2.6 Energy including electricity and fuels(source, competing users) Unit: fuel(MT), energy (MW)

Yes DG sets and constructionequipment shall be used duringconstruction, which shall usemainly HSD as fuel. The energyrequirement during occupation ispresented in Annexure – VIII.DG set (2 x 250 kVA) shall beused during occupation in theevent of power shut down byTRANSCO to provide power forlifts, street lighting, commonlighting and sewage treatmentplant.

2.7 Any other natural resources (useappropriate standard units)

No

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3. Use, storage, transport, handling or production of substances or materials, which couldbe harmful to human health or the environment or raise concerns about actual or perceivedrisks to human health.

S.No. Information/Checklistconfirmation Yes/No

Details thereof (withapproximate quantities/rates,wherever possible) with sourceof information data

3.1 Use of substances or materials,which are hazardous (as per MSIHCrules) to human health or theenvironment (flora, fauna, andwater supplies)

No Hazardous materials used are;HSD, Paints etc.

3.2 Changes in occurrence of disease oraffect disease vectors (e.g. insect orwater borne diseases)

No

3.3 Affect the welfare of people e.g. bychanging living conditions?

Yes The project shall provide housingfacility for 238 families.

3.4 Vulnerable groups of people whocould be affected by the project e.g.hospital patients, children, theelderly etc.,

No

3.5 Any other causes No

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4. Production of solid wastes during construction or operation or decommissioning(MT/month)


Details thereof (with approximatequantities/rates, whereverpossible) with source ofinformation data

4.1 Spoil, overburden or mine wastes No4.2 Municipal waste (domestic and or

commercial wastes)Yes 766 kg/day

4.3 Hazardous wastes (as perHazardous Waste ManagementRules)

Yes Used oil: 130 l/yearUsed Batteries: 7 nos. /year

4.4 Other industrial process wastes No

4.5 Surplus product No

4.6 Sewage sludge or other sludge fromeffluent treatment

Yes 9 kg/day sludge from STP shall bereused as manure.

4.7 Construction or demolition wastes Yes4.8 Redundant machinery or

equipmentNo

4.9 Contaminated soils or othermaterials

No

4.10 Agricultural wastes No

4.11 Other solid wastes No

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5. Release of pollutants or any hazardous, toxic or noxious substances to air (Kg/hr)



5.1 Emissions from combustion offossil fuels from stationary ormobile sources

Yes Emissions from DG sets, operatedonly during load shut down byTRANSCO. Emissions quantitiesare presented in Annexure – IX.

5.2 Emissions from productionprocesses

No Cooking and vehicular transportare the other sources of emission.

5.3 Emissions from materials handlingincluding storage or transport

No

5.4 Emissions from constructionactivities including plant andequipment

Yes Construction equipment and DGsets which mainly use HSD, as fuelshall generate emissions.

5.5 Dust or odours from handling ofmaterials including constructionmaterials, sewage and waste

No

5.6 Emissions from incineration ofwaste

No

5.7 Emissions from burning of wastein open air (e.g. slash materials,construction debris)

No

5.8 Emissions from any other sources No

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6. Generation of Noise and Vibration, and Emissions of Light and Heat:


Details thereof (with approximatequantities/rates, whereverpossible) with source ofinformation data with source ofinformation data

6.1 From operation of equipmente.g. engines, ventilation plant,crushers

Yes Construction activity and theconstruction equipment are themain sources of noise and vibrationduring construction. While thereare no major sources of noiseduring occupation phase.

6.2 From industrial or similarprocesses

No

6.3 From construction ordemolition

Yes

6.4 From blasting or piling No No blasting activity envisaged.

6.5 From construction oroperational traffic

Yes There will be an increase in thetraffic density, which shall increasethe noise levels of the area bothduring construction and occupationphases.

6.6 From lighting or cooling systems No6.7 From any other sources No

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7. Risks of contamination of land or water from releases of pollutants into the ground orinto sewers, surface waters, groundwater, coastal waters or the sea:



7.1 From handling, storage, use orspillage of hazardous materials

No Used batteries and waste oil shallbe stored separately and shall notlead to contamination of landduring normal operation.

7.2 From discharge of sewage orother effluents to water or theland (expected mode and place ofdischarge)

No The sewage shall be treated toachieve the standards prescribed byMoE&F during operation phase.While the discharges fromtemporary toilets duringconstruction shall be sent to septictank followed by municipal sewerlines.

7.3 By deposition of pollutantsemitted to air into the land or intowater

No The project shall not emitsubstantial quantities of pollutantsto have an impact on the air quality.

7.4 From any other sources No

7.5 Is there a risk of long term buildup of pollutants in theenvironment from thesesources?

No

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8. Risk of accidents during construction or operation of the Project, which could affecthuman health or the environment



8.1 From explosions, spillages, firesetc from storage, handling, use orproduction of hazardoussubstances

No Precautionary measures shall beadopted. Fire plan shall be put inplace before occupation of theproperty.

8.2 From any other causes No

8.3 Could the project be affected bynatural disasters causingenvironmental damage (e.g.floods, earthquakes, landslides,cloudburst etc)?

No The site is located at a higherelevation and the seismic zone forthe project area is Zone II, which isconsidered safe.

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9. Factors which should be considered (such as consequential development) which couldlead to environmental effects or the potential for cumulative impacts with other existingor planned activities in the locality

S. No. Information/Checklistconfirmation Yes/No

Details thereof (withapproximate quantities/rates,wherever possible) with sourceof information data

9.1 Lead to development ofsupporting.Lities, ancillary development or

developmentStimulated by the project which

could have impact on theenvironment e.g.:

• Supporting infrastructure (roads,power supply, waste or wastewater treatment, etc.)

• Housing development

• Extractive industries

• Supply industries

• Other

Yes

Yes

Yes

No

No

No

The area is presently developinginto a prime residential andcommercial locality in view of thethrust given by Government ofTelangana for the development ofIT and ITES services.

9.2 Lead to after-use of the site, whichcould have an impact on theenvironment

No

9.3 Set a precedent for laterdevelopments

Yes The surrounding areas shalldevelop as residential/Commercial areas.

9.4 Have cumulative effects due toproximity to other existing orplanned projects with similareffects

No

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(III) Environmental Sensitivity

S.No. Areas Name/Identity

Aerial distance (within 15 km.)Proposed project locationboundary

1 Areas protected underinternational conventions,national or local legislation fortheir ecological, landscape,cultural or other related value

Yes Mansurabad RF at a distance of1.76 km

2 Areas which are important orsensitive for ecological reasons -Wetlands, watercourses or otherwater bodies, coastal zone,biospheres, mountains, forests

No

3 Areas used by protected,important or sensitive species offlora or fauna for breeding,nesting, foraging, resting, overwintering, migration

No

4 Inland, coastal, marine orunderground waters

No

5 State, National boundaries No

6 Routes or facilities used by thepublic for access to recreation orother tourist, pilgrim areas

No

7 Defense installations No

8 Densely populated or built-up area Yes The area is developing into adensely populated area othermajor developments in the vicinityetc.

9 Areas occupied by sensitive man-made land uses (hospitals,schools, places of worship,community facilities)

Yes Hospitals, Schools, Places ofworship and community facilitiesare located in the project impactarea.

10 Areas containing important, highquality or scarce resources(Ground water resources, surfaceresources, forestry, agriculture,fisheries, tourism, minerals)

No

11 Areas already subjected topollution or environmentaldamage. (Those where existinglegal environmental standardsare exceeded)

No

12 Areas susceptible to natural No

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S.No. Areas Name/Identity

Aerial distance (within 15 km.)Proposed project locationboundary

hazard which could cause theproject to present environmentalproblems (Earthquakes,subsidence, landslides, erosion,flooding or extreme or adverseclimatic conditions)

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(IV). Proposed Terms of Reference for EIS studies

Scope of Work of EIS“...The EIS shall cover the following:

Description of the proposed project:The first task:” Description of the proposed project” forms a vital component of theEnvironmental Impact Statement (EIS) as it provides the basis for evaluating the likelycauses of Environmental Impacts. Land use issues dictate the significance of landloss/change. It is essential that the key components of the project shall be clearlydetermined as far as possible at this stage.

Assessment of Environmental Impacts:Based upon the results from the review of existing information, field visits, site datacollection and consultation, for each component of environment (physical, biologicaland socio economic) the positive, negative, direct and indirect, temporary andpermanent impact s will be evaluated along with an indication of the degree of impact,i.e., whether the impact is significant, moderate, minor or negligible.

Environment Management Plan and Mitigation Plan:For each significant negative impact identified, specialist shall work closely with theengineering team/technical consultants to suggest practicable measures to avoid ormitigate the impact. Suggestions for compensation shall be given where there is noother alternative course of action.

The mitigation of environmental impacts will be by three mechanisms.=>Introduction of mitigation features through the engineering practices.

=>Implementation of environmental controls during construction and operation.

=>Legislative control involving compliance with Indian environmental laws.

The Environmental management plan shall include an estimate of capital and recurringcosts of mitigation measures and will identify the parties and institutional frameworkfor implementation.

Monitoring Plan:Having identified the significant environmental impact that are likely to arise as a resultof the Residential construction project, the project team shall specify what monitoringis required during the various phases of the project cycle.

The monitoring plan will identify parameters and frequency of monitoring andresponsible organization.

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ANNEXURE-I

Land Allocation for various purposes

Land Use No ofFloors

Total No ofUnits

Total SiteArea in m2

Total Builtup area (m2)

Block A C+G/S+5 234 5033.5 28074.5Block B S+4 4 234.8 939.0Amenities C+G+5 131.8 873.6Green Area 1045.2Road Area 1980.0Open Area 1983.4ParkingStilt 2323.7Cellar 7939.1Net Site Area 238 10408.6 40149.9Buffer Zone 3246.5Total 13655.1

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ANNEXURE-II

Earth Work QuantitiesS No Area Qty. of fill (m3) Qty. of cut (m3) Surplus fill (m3) Surplus cut m3)1 Site 9992 12490 ---- 2498

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ANNEXURE-III

Water Requirement of the Project

Land Use No. ofUnits

No. ofPersons/

unit

Waterrequirement per

person in l *

Total WaterRequirement in

KLDBlock A & B 238 5 135 160.7Amenities 1 95 45 4.3Swimming pool 1 5.0Visitors 2 15 7.1TOTAL 177.1*Water requirement as per NBC

Water Savings of the Project

Land UseNo.of

Units

No. ofPersons/

unit

WaterRequirement/

KLD

Treatedwater

reuse/dayKlpcd

EffectiveWater

Requirementin KLD

Block A & B 238 5 160.7 53.6 107.1Amenities 1 95 4.3 1.9 2.4Swimming pool 5.0 5.0Visitors 2 7.1 4.8 2.4TOTAL 177.1 60.2 116.9

Approximately 60.2 Kl/day water will be saved by adopting recycling of treated water inthe toilet flush. The effective water consumption is reduced by 60.2 Kl/day and therequirement will be in the order of 116.9 Kl/day due to treated water recycling.

Water Balance during occupation stageInput KLD Output KL/DayDomestic water fromHMWSSB 116.9 Excess treated water will be sent to

sewer lines 78.6

Recycled water 60.2 Recycled water 60.2Water requirement for green beltduring non monsoon 2.8Losses approx 20% 35.4

Total 177.1 Total 177.1

The water used in the order of 177.1 KL/day would generate 141.7 KL/day ofwastewater, which has to be treated for reuse and or disposal.

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SEWAGE TREATMENT PLANTPROCESS DESCRIPTION:The raw sewage will be collected in a collection sump and pumped to mechanical barscreen chamber for removal of large floating matter followed by grit removal in GritChamber. The raw sewage will then be collected in an equalization tank forhomogenization of hydraulic load. The tank contents will be kept in suspension bymeans of course bubble serration through pipe grid. The equalization tank, with airflow indicator for continuous monitoring of air supply to the tank in order to avoidseptic conditions, will be covered from top (RCC or FRP) to avoid nuisance. Theequalized effluent will then be pumped to two Fluidized Aerobic Bio Reactors (FAB) inseries where BOD/COD reduction can be achieved by virtue of aerobic microbialactivities. The oxygen required will be supplied through coarse air bubble diffusers.The bio-solids formed in the biological process will be separated in the down streamTube Settler. The clear supernatant will gravitate to the chlorine contact tank wheresodium hypochlorite will be dosed for disinfection of treated water prior to disposal.

The biological sludge generated in the FAB and settled in the tube settlers will becollected in a sludge sump and then pumped to sludge drying bed for de watering. Thedried sludge will then be disposed off suitably as manure. The schematics of theprocess are shown. The two main components of the treatment system viz. The FABreactor and tube settler are described in the following sections.

Fluidized Aerobic Bio Reactor (FAB)Conventional effluent treatment plants are large sized, power intensive and require alot of monitoring. Scarcity of open space and rising land a power costs have forced theindustries to look our for space saving, compact and efficient treatment options. Thishas led to the development attached growth processes where the bio mass is retainedwithin the aeration tank obviating the need for recycle. These plants are not onlycompact but also user friendly. The endeavor to have a continuously operating, no-clogging biofilm reactor with no need for back washing, low head-loss and high specificbiofilm surface area culminated in the most advanced technology of aerobic biologicalfluidized bed treatment where the biofilm (biomass) grows on small carrier elementsthat move along with the water in the reactor. The movement is normally caused byaeration in the aerobic version of the reactor.

The reactor combines all the advantages and best features of Trickling filters, Rotatingbiological contractors, activated sludge process and submerged fixed film reactorswhile eliminating the drawbacks of these systems. The plants are more compact andmore energy efficient.

The Fluidized Aerobic Bio Reactor (FAB) consists of a tank in any shape filled up withsmall carrier elements. The elements are made up of special grade PVC orpolypropylene of controlled density (shown in plate). For media of specific gravity 0.92-0.96 the overall density could be expected to increase up to 9.5% when full of biomasssuch that they can fluidize using an aeration device. A biofilm develops on theelements, which move along the effluent in the reactor. The movement within thereactor is generated by providing aeration with the help of diffusers placed at the

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bottom of the reactor. Then thin biofilm on the elements enables the bacteria to actupon the biodegradable matter in the effluent and reduce the BOD/COD content in thepresence of oxygen available from the air that is used for fluidization.

Characteristics of Waste waterParameter Quantity in mg/l

PH 6 – 7Total Suspended Solids 400 – 600BOD 200 – 300COD 450 – 500

Design of the unitBasic dataFlow : 141.7 KLDCapacity : 180 m3

Peak factor : 3.5Peak flow Q peak : 595 m3/dayInfluent BOD : 200 mg/litInfluent Suspended Solids : 200 mg/litInfluent COD : 350 mg/litEffluent BOD : 30 mg/litEffluent COD : 200 mg/litEffluent Suspended Solids : 100 mg/lit

1. Bar Screen ChamberAverage flow : 0.0018 m3/secPeak factor : 3.5Peak flow : 0.0063 m3/secVelocity at peak flow : 0.75 m/SecEffective area of screen RequiredAt average flow : 0.005 m2

At Peak flow : 0.0075 m2

Provide Effective area of screen : 0.0075 m2

Considering the bar of dia. 10 mm(w) and clear spacing of 20 mm (b)Overall area required : 0.012 m2

Considering screen depth as : 0.024 m Consider 0.5 mNumber of clear spacing : 0.3Number of bars : 1 Consider 3 Nos.Hence Provide 5 barsProvide a screen of 0.5 m X 0.5 m at an inclination of sin 600. In a screen channel of onemeter (1 m) length.

2. Grit Chamber :The flow from the bar screen chamber is let into the Grit Chamber of minimum 2 hourscapacity. This tank is provided to even out the flow variation, and to provide acontinuous feed into the secondary biological treatment units.Peak flow Q : 0.0068 m3/sec

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Providing a flow through velocity of 0.30 m/secCross sectional area of Channel : 0.021 m2

Surface area of channel : 0.48 m2

Assuming depth d : 0.2 mWidth of channel : 0.105 m (say 0.2m)Length of channel : 4. 5 m (say 4.5 m)Provide two channels each of 0.2 m wide and 4.5 m long with depth of waste water0.2m.

3. Equalization tank:The flow from the bar screen chamber is let into the equalization tank of minimum2hours capacity. This tank is provided to even out the flow variation, and to provide acontinuous feed into the secondary biological treatment units.Average flow : 7.08 m3/hrPeak factor : 3.5Peak flow : 24.79 m3/hrHydraulic retention tank = 2 hrs at Peak flowHence required volume of the tank : 49.58 m3

Provide tank of : 49.58 m3 CapacityAssuming depth : 3 mArea : 16.52 m2

Assuming length to width ratio (1:1) ; l=blength of the tank : 4.06 mwidth of the tank : 4.06 mAir required for agitation : 0.01 m3/ m2 minTotal air required : 30 m3/hrAir blower required : 40 m3/hr@ 3.8 mwcEffluent transfer pump : 7 m3/hr@ 8 mwc

4. Fluidized Aerobic Bio Reactor (FAB):The polypropylene media have been provided with a specific surface area of 350 – 520m2 /m3. This allows micro-organisms to get attached and biomass concentration can beincreased to four folds as compared to Activated Sludge Process. This enables toconsider higher Organic loading rates.

The micro-organisms attached to media are kept in a fluid state thereby maintainingthe CSTR (continuous Stirrer tank reactor) regime as well as two tanks are provided inseries making the plug – flow system. This will enhance the efficiencies and have themerits of both CSTR and plug-flow regimes.Organic loading rate : 3.2 kg BOD/ m3 dOrganic load : 32 kg/dayVolume of the tank : 10 m3

Assume the depth : 3 mNo. of tanks in series : 1Size of the tank : 1.8 m dia. x 3.0 SWDSpecific gravity of media : 0.92 to 0.96Specific surface area of media : 350 – 520 m2 /m3

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Media filling : 30 – 50 % of tank volumeOxygen required : 2 kg / kg BODOxygen in air : 23%Specific gravity of air @ 30 deg. : 1.65Aeration : Coarse bubbleOxygen transfer efficiency : 12%Air required : 82.8 m3/hrAir blower required : 100 m3/hr@ 6.5 m wc

5.Tube settlerSurface loading rate : 20 m2 /m3 dSurface area required : 8.5 m2

Tank size : 3.0 m x 6.0 m x 2.7 m SWD With 55deg. hopper bottom

Tube Modules : 3.0m x 6.0 m x 0.6 m ht.Tube inclination : 60 deg.Settling area for 60 deg slope : 11 m2 /m3

Cross sectional area of tubes : 120 mm x 44 mm HexagonalHydraulic radius : 1/61 cm (1.5 cm)Shape factor : 0.6 – 0.7 for media settleable solids

6. Pre Filtration tankThe flow from the each individual settling tank i.e., the supernatant liquid is let into therespective Pre-Filtration Tank, which has a minimum 1.5 hours holding capacity. Thistank is provided to hold the treated effluent and give an even flow to the pressure sandfilter.Average flow : 7.08 m3/hrPeak factor : 2 m3/hrPeak flow : 14.16 m3/hrProvide min 1.5 hours holding capacity.Hence required volume of the tank : 21.24 m3

7. Pressure Sand Filter:Vertical down flow type with graded/sand bed under drain plate with polysterenestrains.Flow : 180 m3/dayRate of filtration assumed as : 10 m3/m2/hrRequirement of treated water for usage in 20 hrs : 8 m3/hrDia. of filter of 1 nos. : 1045 mmProvide pressure sand filter of 1050 mm dia. and 1200 mm HOS with sand as medialayer, under drain pipe, laterals face piping etc for each stream.

8. Activated Carbon Filter:Vertical down flow type with graded/sand bed under drain plate with polysterenestrains.Flow : 180 m3/dayRate of filtration assumed as : 10 m3/m2/hr

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Requirement of treated water for usage in 20 hrs : 8 m3/hrDia of filter of 1 nos. : 1045 mmProvide Activated Carbon filter of 1050 mm dia with granular Activated carbon asmedia and 1200 mm HOS with sand as media layer, under drain pipe, laterals facepiping etc for each stream.

9.Ultraviolet Disinfection:UV applied to low turbidity water is a highly effective means of disinfection. UV is notharmful to aquatic organisms in the receiving water. UV light kills viruses, Vegetative-and spore-forming bacteria, algae and yeasts. No chemicals are added to thewastewater to change the pH, conductivity, odor or taste to create possible toxiccompounds. UV treatment has a few moving parts to adjust or wear out.

10.Final Treated Water Holding TankIt is always preferred to provide one final holding tank of minimum one day holdingcapacity, so that the treated effluents can be stored and used back for gardening orother tertiary purposes.Capacity: 180 m3

11. Sludge Filter Press:The biomass in the aeration tank stabilizes BOD in wastewater by consuming theorganic matter in the wastewater. The metabolic activity results in growth of thebiomass population in the Fluidized Aerobic Bio Reactor (FAB). Sludge holding tank hasbeen provided with filter press for dewatering sludge. The filtrate drains off throughthe media, which is again let into equalization tank.The dewatered sludge is collected in trays, which can be used as manure in the garden.No. of plates : 24Size of plates : 600 mm X 600 mmPlate moc (material of construction) : PP (poly propline)Type of operation : HydraulicPower pack capacity : 2 HP

The dewatered sludge is collected in trays, which can be used as manure in the garden.

Characteristics of Treated Waste waterParameter Quantity in mg/l

pH 7.3Total Suspended Solids 20BOD 10COD 50

Disposal of Treated Waste Water: It is proposed to reuse the treated wastewater forgreen belt development and for toilet flushing. Excess treated water shall be let outinto the sewer line.

A - 9

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UV

A - 10

ANNEXURE-IV

Garbage Management Plan For Apartments

Segregation at each residence into bio-degradable, non biodegradable and domestichazardous wastes. Facilitation by owners co-operative to dispose recyclable waste toAuthorized Waste Pickers / Authorized Recyclers. Balance segregated waste given toAuthorized Agency of Local Body for disposal.

MaintenanceDepartment


Biodegradablewaste

Non-BiodegradableWaste

Authorized Agencyof Local Body


Main Collectionpoint/Segregation

Point


PointLocal Body

Segregation at Source/Segregation at each Residence


DomesticHazardous Wastes



PointLocal Body Local Body

A - 11

ANNEXURE-V

Details of present sources of water supply to Hyderabad

Source Name River Year ImpoundmentName

Distance fromcity km

InstalledCapacity MGD

Osmansagar Musi 1920 Osmansagar 15 27Himayatsagar ESI 1927 Himayatsagar 9.6 18Manjira Phase I Manjira 1965 Manjira barrage 58 15Manjira Phase II Manjira 1981 Manjira barrage 59 30Manjira Phase III Manjira 1991 Singur Dam 80 37Manjira Phase IV Manjira 1993 Singur Dam 80 38Krishna Phase I Krishna 2005 Nagarjuna Sagar 116 90Krishna Phase II Krishna 2008 Nagarjuna Sagar 116 90Krishna Phase III Krishna 2015 Nagarjuna Sagar 116 90Godavari Phase I Godavari 2016 Yellampally 186 172

Source: Hyderabad Metropolitan Water Supply & Sewerage Board, www.hyderabadwater.gov.in

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ANNEXURE-VI

Lead Distance for Construction MaterialsS.No Material Source Lead Distance (Km)

1 Sand ROBOSAND and or Krishnaor Godavari river bed areaspermitted by Govt.

5-150

2 Aggregate Crushers near to the site 10-303 Cement Company Dealers 50-1004 Reinforcement Steel TATA / SAIL godowns 10-505 Bricks Local brick kiln 10-306 Plumbing Material Local Suppliers 2-77 Electrical Material Local Suppliers 2-78 Sanitary Material Local suppliers 2-78 Paints Local Suppliers 10-259 Ready Mix Concrete Local Batching Plants 10-50

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ANNEXURE-VII

Material Consumption for Total Units

UnitsBUA perunit in(m2)

Total ReadyMix

Concrete(m3)

TotalCement(bags)

TotalSand(m3)

TotalAggregate(m3)

TotalWater(m3)

TotalBricks(Nos) x1000

TotalReinforcement

Steel(MT)

Total BUA 40150 16461 37339 15658 1726 9716 4657 923Total 40150 16461 37339 15658 1726 9716 4657 923

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ANNEXURE-VIII

Energy Consumption Statement

S.No Description No. ofUnits Load in KW

TotalConnected

Load(KW)

TotalConnected

Load(kVA)

Total MaxDemand

(KVA)

1 Block A & B 238 6 1428.0 1785.0 1785.02 Street Lights 45 0.04 1.8 2.3 1.83 Amenities 56.0 70.0 56.04 STP 1 65 65.0 81.3 81.35 Lifts 9 15 135.0 168.8 168.8

TOTAL 1685.8 2107.3 2092.8Maximum demand in kw at 0.6 diversity factor 1011.5Consumption of power for 8 hours per day 8091.8Maximum demand in kw at 0.2 diversity factor 337.2Consumption of power for 16 hours per day 5394.6Total consumption of power per day 13486.4 KWTotal consumption of power per year 49.2 Lakh Units

Energy Saving by using Solar Water Heater

S.No Description No. ofUnits

Powerallocated inwatts / unit

Total powerrequired in

(KW)1 Block A & B 95 2500 238

TOTAL 238Maximum demand in kw at 1 diversity factor 238Consumption of power for 2 hours per day 475Maximum demand in kw at 0.4 diversity factor 95Consumption of power for 2 hours per day 190Total consumption of power per day 665.0 KWTotal consumption of power per year 2.43 Lakh Units

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Energy saving by using Solar Street Lights




(KW)1 Street lights 15 40 0.6

TOTAL 0.6Maximum demand in kw at 0.6 diversity factor 0.4Consumption of power for 8 hours per day 3Maximum demand in kw at full load 1Consumption of power for 4 hours per day 2Total consumption of power per day 5.3 KWTotal consumption of power per year 0.02 Lakh Unitssaving with Solar Heater and Street Lighting 2.45 Lakh Units

Electrical Power savings using CFL for lighting

S.No Description Area inm2



(KW)1 Residential 29014 10 2902 Common & Utilities 11136 1.5 17

TOTAL 307Maximum demand in kw at 0.9 diversity factor 276Consumption of power for 12 hours per day 3314Total consumption of power per day 3313.9 KWTotal consumption of power per year 12.10 Lakh UnitsSavings in power using CFL 3.63 Lakh Units

Savings in Electrical Power Consumption – SUMMARY

S.No Description WithCFL

With SolarHeater and

StreetLighting

TotalConsumption

lakh unitsTotal Saving

1 Savings in lakhkwh units

3.63 2.4549.23

6.08

2 Savings inpercentage (%)

7.37 4.97 12.3

A - 16

ANNEXURE-IX

Details of DG Set emissionsStack

connected toDG set

capacity

StackHeight

(m)

Dia. ofstackat top

(m)

Temp.of exhaust

gases(0C)

ExitVelocit

y(m/sec)

PollutantEmission Rate (g/sec)

PM SO2 NOx

250 kVA DGset of 2 no. 3.2 0.1 113 8.5 0.001 0.02 0.03

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APPENDIX II(See paragraph 6)

FORM-1 A (only for construction projects listed under item 8 of the Schedule)CHECK LIST OF ENVIRONMENTAL IMPACTS(Project proponents are required to provide full information and wherever necessaryattach explanatory notes with the Form and submit along with proposedenvironmental management plan & monitoring programme)

1. LAND ENVIRONMENT(Attach panoramic view of the project site and the vicinity): Location Plan enclosed.

1.1. Will the existing land use get significantly altered from the project that is notconsistent with the surroundings? (Proposed land use must conform to the approvedMaster Plan / Development Plan of the area. Change of land use if any and thestatutory approval from the competent authority are submitted). Attach Maps of (i)site location, (ii) surrounding features of the proposed site (within 500 meters).

The site area is a classified residential zone of GHMC/HMDA. The location plan isenclosed.

1.2. List out all the major project requirements in terms of the land area, built uparea, water consumption, power requirement, connectivity, community facilities,parking needs etc.

LAND ALLOCATION:

Land Allocation for various purposes

Land Use No ofFloors

Total No ofUnits

Total SiteArea in m2

Total Builtup area (m2)

Block A C+G/S+5 234 5033.5 28074.5Block B S+4 4 234.8 939.0Amenities C+G+5 131.8 873.6Green Area 1045.2Road Area 1980.0Open Area 1983.4ParkingStilt 2323.7Cellar 7939.1Net Site Area 238 10408.6 40149.9Buffer Zone 3246.5Total 13655.1

CONNECTIVITY: The project will be spread over an area of 1.365 hectares of land forresidential purpose with necessary amenities in Survey Nos. 51/1, Mansoorabad, SaroorNagar, Ranga Reddy District. The project site is surrounded by Open lands in NorthWest directions and Residential Building in East and south directions. An existing 12 m

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wide road (Bank colony road) connecting NH 9. The nearest railway station is Kachigudarailway station at a distance of 8.5 km.

PARKING NEEDS:Parking Space Provision of the Project

Floor 4-Wheelers 2-WheelersStilt 188 60Cellar 60 45Total 248 105

WATER CONSUMPTION:



No. ofPersons/

unit


person in l *



Water Savings Proposed

Land UseNo.of

Units

No. ofPersons/

unit

WaterRequirement/

KLD

Treatedwater

reuse/dayKlpcd

EffectiveWater

Requirementin KLD




sewer lines 78.6


Total 177.1 Total 177.1

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The water used in the order of 177.1 KL/day would generate 141.7 KL/day ofwastewater, which has to be treated for reuse and or disposal.

POWER REQUIREMENT:Energy Consumption Statement


TotalConnected

Load(KW)

TotalConnected

Load(kVA)

Total MaxDemand

(KVA)







(KW)1 Block A & B 95 2500 238


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StreetLighting

TotalConsumption


1 Savings in lakhkwh units

3.63 2.4549.23

6.08

2 Savings inpercentage (%)

7.37 4.97 12.3

COMMUNITY FACILITIES:Amenities Proposed

Amenity Nos. or descriptionTot Lots and Greening Area 1045.2 m2

DG Sets 250 kVA x 2 No.Sewage Treatment Plant 1Garbage segregation point 1

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1.3. What are the likely impacts of the proposed activity on the existing facilitiesadjacent to the proposed site? (Such as open spaces, community facilities, details ofthe existing land use, and disturbance to the local ecology).

The local area is developed as residential and commercial plots and constructionactivity of a number of independent houses are going on. No major impact on thelocal ecology is anticipated.

1.4. Will there are any significant land disturbance resulting in erosion, subsidence &instability? (Details of soil type, slope analysis, vulnerability to subsidence, Seismicityetc may be given).

a. Soil type: Sandy Loamb. Slope analysisc. Vulnerability to Subsidence: No subsidence is anticipated in a slopping terrain.d. Seismicity: The site area is classified as Zone II as per the IMD.

1.5. Will the proposal involve alteration of natural drainage systems? (Give details ona contour map showing the natural drainage near the proposed project site)

No, the site area is 1.365 hectares only, and forms part of Mansoorabad drainagesystem.

1.6. What are the quantities of earthwork involved in the construction activitycutting, filling, reclamation etc. (Give details of the quantities of earthwork involved,transport of fill materials from outside the site etc.)

Earth Work QuantitiesS No Area Qty. of fill (m3) Qty. of cut (m3) Surplus fill (m3) Surplus cut (m3)1 Site 9992 12490 ---- 2498

1.7 Give details regarding water supply, waste handling etc during the constructionperiod.

The water requirement during construction shall be drawn from either ground water ortreated sewage from treatment plants from other occupied areas, surrounding theproject. The maximum expected drawl of ground water would be in the order of 50 KLDduring construction.

Construction debris like cement, sand, RCC, Aggregate, steel etc. are the wastegeneration during construction and these waste materials are used for roaddevelopment.

1.8. Will the low lying areas & wetlands get altered? (Provide details of how low lyingand wetlands are getting modified from the proposed activity)

-NO-

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1.9. Whether construction debris & waste during construction cause health hazard?(Give quantities of various types of wastes generated during construction includingthe construction labour and the means of disposal).

Construction DebrisThe construction debris consists of various types of materials. The construction debriswill be in both hazardous and non-hazardous categories. The hazardous debris consistsof empty containers of adhesives, thinners, paints, and petroleum products. Theseempty containers will be sold to authorize recycling agencies. The non hazardouswastes contain recyclable debris like iron and other metal, glass, plastics, cartons ofpaper, wood etc. These wastes will be sent for reuse/recycle. The waste percentagewill be in the order of 2%. Construction debris containing bricks, demolished RCC willbe used for land filling in the place of sub grade.

2. WATER ENVIRONMENT

2.1. Give the total quantity of water requirement for the proposed project with thebreakup of requirements for various uses. How will the water requirement met? Statethe sources & quantities and furnish a water balance statement.



No. ofPersons/

unit


person in l *




Land UseNo.of

Units

No. ofPersons/

unit

WaterRequirement/

KLD

Treatedwater

reuse/dayKlpcd

EffectiveWater

Requirementin KLD



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sewer lines 78.6


Total 177.1 Total 177.1The water used in the order of 177.1 KL/day would generate 141.7 KL/day ofwastewater, which has to be treated for reuse and or disposal.

2.2 What is the capacity (dependable flow or yield) of the proposed source of water?

Details of present sources of water supply to Hyderabad

Source Name River Year ImpoundmentName

Distance fromcity km

InstalledCapacity MGD

Osmansagar Musi 1920 Osmansagar 15 27Himayatsagar ESI 1927 Himayatsagar 9.6 18Manjira Phase I Manjira 1965 Manjira barrage 58 15Manjira Phase II Manjira 1981 Manjira barrage 59 30Manjira Phase III Manjira 1991 Singur Dam 80 37Manjira Phase IV Manjira 1993 Singur Dam 80 38Krishna Phase I Krishna 2005 Nagarjuna Sagar 116 90Krishna Phase II Krishna 2008 Nagarjuna Sagar 116 90Krishna Phase III Krishna 2015 Nagarjuna Sagar 116 90Godavari Phase I Godavari 2016 Yellampally 186 172

Source: Hyderabad Metropolitan Water Supply & Sewerage Board, www.hyderabadwater.gov.in

2.3 What is the quality of water required, in case, the supply is not from a municipalsource? (Provide physical, chemical, biological characteristics with class of waterquality)Water shall be drawn from municipal supply only.

2.4 How much of the water requirement can be met from the recycling of treatedwastewater? (Give the details of quantities, sources and usage)


Land UseNo.of

Units

No. ofPersons/

unit

WaterRequirement/

KLD

Treatedwater

reuse/dayKlpcd

EffectiveWater

Requirementin KLD


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2.5. Will there be diversion of water from other users? (Please assess the impacts ofthe project on other existing uses and quantities of consumption)

NO, the required water shall be drawn from HMWSSB

2.6 What is the incremental pollution load from wastewater generated from theproposed activity? (Give details of the quantities and composition of wastewatergenerated from the proposed activity)


pH 6 – 7Total Suspended Solids 400 – 600BOD 200 – 300COD 450 – 500

The treated water shall be used for toilet flushing and for green belt development forthe greening of site. The unused excess treated wastewater shall be sent to municipalsewer lines. The quantity of sewage expected is in the order of 141.7 KL/day.

2.7. Give details of the water requirements met from water harvesting? Furnishdetails of the facilities created.

The storm water drain would also ensure that the sedimentation does not occur, asrainwater harvesting structures will also help in controlling the sedimentation. Therainwater harvesting system proposed would enhance the water retention andincreases the water table. The drainage would in effect reduce the runoff and increasethe percolation. The gradient of the channel will be maintained throughout its length sothat water does not pond within it. Flows will be maintained at velocities that will scourthe channel of debris. For instance, runoff velocities should not be less than 1 m/s norshould they exceed 3 m/s. Based on the catchment area, potential inflows and rainfallintensity determine the drain size so as to minimize damage resulting from highintensity storms. Energy dissipaters such as drop structures will be provided along thechannel where runoff velocities may become excessive. The overflow from the stormwater drains at rainwater harvesting structures shall be provided with an overflowchannel to drain into the roadside plantation which will act as a bios wale. The typicalcross section is presented below.

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2.8. What would be the impact of the land use changes occurring due to the proposedproject on the runoff characteristics (quantitative as well as qualitative) of the area inthe post construction phase on a long term basis? Would it aggravate the problems offlooding or water logging in any way?

The impact of housing project on physiography is a function of the terrain of the area. Itis most drastically altered in case of hilly terrain or where extensive cut-and-filloperations are involved. The project area has a rocky terrain and the design stagedeliberations have ensured that the major contours are not disturbed. However thephysiography impact will be significant and non-reversible, as the contours of the areawill be disturbed. The cut and fill operations may cause air pollution, clogging of drainsand solid waste for disposal. The design stage has optimized the cut and fill operationsand the excess cut material is minimum and the same shall be reused for theconstruction purposes.

The project will have a positive impact on the soils and soil quality as housing projectwill have landscaping and the soils will be protected due to conservation.

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During the occupation stage, compaction will not occur, and the compaction if any willbe restricted to road ROW. And the road ROW compaction cannot be said to be animpact of the operation stage as the pavement itself is a function of compacted baseand sub base.

During the occupation stage, soil pollution due to garbage dumping at unauthorizedlocations may have temporary negative impact leading contamination of soil. Theaccidental spills or leaks are also a low probability incident.

The other major impact will be due to the increased run off and may have negativeimpact on the receiving body if the same is not properly managed. Impacts due tosurface runoff include increased soil erosion and local flooding or water logging. Hencethe project will be designed with adequate storm water drains and cross drainagestructures. The housing activity will be provided with a Sewage treatment plant to treatthe domestic wastewater and necessary infrastructure will be provided for the safedisposal of domestic wastes to protect the water bodies.

2.9. What are the impacts of the proposal on the ground water? (Will there be tappingof ground water; give the details of ground water table, recharging capacity, andapprovals obtained from competent authority, if any)

Ground water shall be used as a secondary source during non-availability of water fromHMWSSB. The ground water table is at a depth of 10m to 15m. State ground waterboard is approached for necessary permission.

2.10. What precautions/measures are taken to prevent the run-off from constructionactivities polluting land & aquifers? (Give details of quantities and the measures takento avoid the adverse impacts)

Construction activity is taken up only during non-monsoon season. There are no majordrains in the site. All material dumps shall be located away from the natural drains.Storm water drains shall be constructed before the construction of the buildings.

2.11. How is the storm water from within the site managed? (State the provisionsmade to avoid flooding of the area, details of the drainage facilitiesProvided along with a site layout indication contour levels)

Storm water drains will be provided all over the site to meet the expected increase inthe runoff during rainy seasons due to the impervious nature of the roads and otherpaved areas. It is proposed to maintain the levels as much as possible before lettingstorm water into side drains of main road.

Based on the catchment area, potential inflows and rainfall intensity determine thedrain size so as to minimize damage resulting from high intensity storms. Energydissipaters such as drop structures will be provided along the channel where runoffvelocities may become excessive. The overflow from the storm water drains atrainwater harvesting structures shall be provided with an overflow channel to drain intothe roadside plantation, which will act as a bioswale.

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Storm water drains: Conservation of water resource is most important aspect of theproject during construction and occupation phases. Storm water drainage planning,domestic water planning and sewerage transfer and sewage treatment planning aremost essential.Storm water sumps will be provided to meet the expected increase in the runoff duringrainy seasons due to the impervious nature of the Roof, roads and other paved areas.The site is uneven and it is proposed to maintain the levels as much as possible, hencestorm water outlets from the site are anticipated. The expected runoff is calculated forthe design of the storm water runoff and presented in following table.

Calculation for Storm Water DrainQuantity of storm water(a) With out projectArea of Catchment, ‘A’ : 1.3655 HaRun off Coefficient, ‘C’ : 0.6Maximum intensity of rainfall, ‘I’ : 40 mm/hrTherefore Q : 0.091 m3/sec

(b) With project :Area for catchment for roof and road : 0.738 Ha

Area of Catchment, ‘A’ : 0.738 HaRun off Coefficient, ‘C’ : 0.9Maximum intensity of rainfall, ‘I’ : 40 mm/hrTherefore Q = : 0.074 m3/sec

Area for catchment for open areas : 0.628 HaRun off Coefficient, ‘C’ : 0.6Maximum intensity of rainfall, ‘I’ : 40 mm/hrTherefore Q = : 0.042 m3/secTotal Discharge : 0.116 m3/secBut, Discharge, Q = A/V

Where,A= Area of the Drain,V= Max. Permissible Velocity : 6 m/sec for concrete drain

Area of drain, ‘A’ = Q/V : 0.019 m2

Taking depth of drain as 0.6 m at the startingpoint : 0.6Width of drain = Area/depth = : 0.032 m 32 mmWidth of the drain is to taken 32 mm and depth varies according to the slope of ground.

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Strom Water Runoff

LandUse

Area inhectares

Vol./hr afterdevelopment

C=0.8

Vol./hrbefore

developmentC=0.6

Differencein

DischargesRemarks

RoofArea 0.54 172.8 129.6 43.2

Stored in sumps with acapacity of 2 X 20 m3

and used for domesticpurpose

RoadArea 0.20 63.4 47.5 15.8 21 nos. of RWH pits are

provided of size 1.5m X1.5m X 2.0 mOpen

Area 0.63 75.3 150.6 -75.3

TOTAL 1.37 -16.3* C=0.3 after development of greenery

2.12. Will the deployment of construction laborers particularly in the peak period leadto unsanitary conditions around the project site (Justify with proper explanation)

No, Temporary toilet facilities shall be provided and the same shall be connected toseptic tank followed by municipal sewer lines.

2.13 What on-site facilities are provided for the collection, treatment & safe disposalof sewage? (Give details of the quantities of wastewater generation, treatmentcapacities with technology & facilities for recycling and disposal)

SEWAGE TREATMENT PLANTPROCESS DESCRIPTION:The raw sewage will be collected in a collection sump and pumped to mechanical barscreen chamber for removal of large floating matter followed by grit removal in GritChamber. The raw sewage will then be collected in an equalization tank forhomogenization of hydraulic load. The tank contents will be kept in suspension bymeans of course bubble serration through pipe grid. The equalization tank, with airflow indicator for continuous monitoring of air supply to the tank in order to avoidseptic conditions, will be covered from top (RCC or FRP) to avoid nuisance. Theequalized effluent will then be pumped to two Fluidized Aerobic Bio Reactors (FAB) inseries where BOD/COD reduction can be achieved by virtue of aerobic microbialactivities. The oxygen required will be supplied through coarse air bubble diffusers.The bio-solids formed in the biological process will be separated in the down streamTube Settler. The clear supernatant will gravitate to the chlorine contact tank wheresodium hypochlorite will be dosed for disinfection of treated water prior to disposal.

The biological sludge generated in the FAB and settled in the tube settlers will becollected in a sludge sump and then pumped to sludge drying bed for de watering. Thedried sludge will then be disposed off suitably as manure. The schematics of theprocess are shown. The two main components of the treatment system viz. The FABreactor and tube settler are described in the following sections.Fluidized Aerobic Bio Reactor (FAB)Conventional effluent treatment plants are large sized, power intensive and require a

FIA - 13

lot of monitoring. Scarcity of open space and rising land a power costs have forced theindustries to look our for space saving, compact and efficient treatment options. Thishas led to the development attached growth processes where the bio mass is retainedwithin the aeration tank obviating the need for recycle. These plants are not onlycompact but also user friendly. The endeavor to have a continuously operating, no-clogging biofilm reactor with no need for back washing, low head-loss and high specificbiofilm surface area culminated in the most advanced technology of aerobic biologicalfluidized bed treatment where the biofilm (biomass) grows on small carrier elementsthat move along with the water in the reactor. The movement is normally caused byaeration in the aerobic version of the reactor.

The reactor combines all the advantages and best features of Trickling filters, Rotatingbiological contractors, activated sludge process and submerged fixed film reactorswhile eliminating the drawbacks of these systems. The plants are more compact andmore energy efficient.

The Fluidized Aerobic Bio Reactor (FAB) consists of a tank in any shape filled up withsmall carrier elements. The elements are made up of special grade PVC orpolypropylene of controlled density (shown in plate). For media of specific gravity 0.92-0.96 the overall density could be expected to increase up to 9.5% when full of biomasssuch that they can fluidize using an aeration device. A biofilm develops on theelements, which move along the effluent in the reactor. The movement within thereactor is generated by providing aeration with the help of diffusers placed at thebottom of the reactor. Then thin biofilm on the elements enables the bacteria to actupon the biodegradable matter in the effluent and reduce the BOD/COD content in thepresence of oxygen available from the air that is used for fluidization.


PH 6 – 7Total Suspended Solids 400 – 600BOD 200 – 300COD 450 – 500

Design of the unitBasic dataFlow : 141.7 KLDCapacity : 180 m3

Peak factor : 3.5Peak flow Q peak : 595 m3/dayInfluent BOD : 200 mg/litInfluent Suspended Solids : 200 mg/litInfluent COD : 350 mg/litEffluent BOD : 30 mg/litEffluent COD : 200 mg/litEffluent Suspended Solids : 100 mg/lit

FIA - 14

1. Bar Screen ChamberAverage flow : 0.0018 m3/secPeak factor : 3.5Peak flow : 0.0063 m3/secVelocity at peak flow : 0.75 m/SecEffective area of screen RequiredAt average flow : 0.005 m2

At Peak flow : 0.0075 m2

Provide Effective area of screen : 0.0075 m2

Considering the bar of dia. 10 mm(w) and clear spacing of 20 mm (b)Overall area required : 0.012 m2

Considering screen depth as : 0.024 m Consider 0.5 mNumber of clear spacing : 0.3Number of bars : 1 Consider 3 Nos.Hence Provide 5 barsProvide a screen of 0.5 m X 0.5 m at an inclination of sin 600. In a screen channel of onemeter (1 m) length.

2. Grit Chamber :The flow from the bar screen chamber is let into the Grit Chamber of minimum 2 hourscapacity. This tank is provided to even out the flow variation, and to provide acontinuous feed into the secondary biological treatment units.Peak flow Q : 0.0068 m3/secProviding a flow through velocity of 0.30 m/secCross sectional area of Channel : 0.021 m2

Surface area of channel : 0.48 m2

Assuming depth d : 0.2 mWidth of channel : 0.105 m (say 0.2m)Length of channel : 4. 5 m (say 4.5 m)Provide two channels each of 0.2 m wide and 4.5 m long with depth of waste water0.2m.

3. Equalization tank:The flow from the bar screen chamber is let into the equalization tank of minimum2hours capacity. This tank is provided to even out the flow variation, and to provide acontinuous feed into the secondary biological treatment units.Average flow : 7.08 m3/hrPeak factor : 3.5Peak flow : 24.79 m3/hrHydraulic retention tank = 2 hrs at Peak flow

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Hence required volume of the tank : 49.58 m3

Provide tank of : 49.58 m3 CapacityAssuming depth : 3 mArea : 16.52 m2

Assuming length to width ratio (1:1) ; l=blength of the tank : 4.06 mwidth of the tank : 4.06 mAir required for agitation : 0.01 m3/ m2 minTotal air required : 30 m3/hrAir blower required : 40 m3/hr@ 3.8 mwcEffluent transfer pump : 7 m3/hr@ 8 mwc

4. Fluidized Aerobic Bio Reactor (FAB):The polypropylene media have been provided with a specific surface area of 350 – 520m2 /m3. This allows micro-organisms to get attached and biomass concentration can beincreased to four folds as compared to Activated Sludge Process. This enables toconsider higher Organic loading rates.

The micro-organisms attached to media are kept in a fluid state thereby maintainingthe CSTR (continuous Stirrer tank reactor) regime as well as two tanks are provided inseries making the plug – flow system. This will enhance the efficiencies and have themerits of both CSTR and plug-flow regimes.Organic loading rate : 3.2 kg BOD/ m3 dOrganic load : 32 kg/dayVolume of the tank : 10 m3

Assume the depth : 3 mNo. of tanks in series : 1Size of the tank : 1.8 m dia. x 3.0 SWDSpecific gravity of media : 0.92 to 0.96Specific surface area of media : 350 – 520 m2 /m3

Media filling : 30 – 50 % of tank volumeOxygen required : 2 kg / kg BODOxygen in air : 23%Specific gravity of air @ 30 deg. : 1.65Aeration : Coarse bubbleOxygen transfer efficiency : 12%Air required : 82.8 m3/hrAir blower required : 100 m3/hr@ 6.5 m wc

5.Tube settlerSurface loading rate : 20 m2 /m3 dSurface area required : 8.5 m2

FIA - 16

Tank size :3.0 m x 6.0 m x 2.7 m SWD With 55deg. hopper bottom

Tube Modules : 3.0m x 6.0 m x 0.6 m ht.Tube inclination : 60 deg.Settling area for 60 deg slope : 11 m2 /m3

Cross sectional area of tubes : 120 mm x 44 mm HexagonalHydraulic radius : 1/61 cm (1.5 cm)Shape factor : 0.6 – 0.7 for media settleable solids

6. Pre Filtration tankThe flow from the each individual settling tank i.e., the supernatant liquid is let into therespective Pre-Filtration Tank, which has a minimum 1.5 hours holding capacity. Thistank is provided to hold the treated effluent and give an even flow to the pressure sandfilter.Average flow : 7.08 m3/hrPeak factor : 2 m3/hrPeak flow : 14.16 m3/hrProvide min 1.5 hours holding capacity.Hence required volume of the tank : 21.24 m3

7. Pressure Sand Filter:Vertical down flow type with graded/sand bed under drain plate with polysterenestrains.Flow : 180 m3/dayRate of filtration assumed as : 10 m3/m2/hrRequirement of treated water for usage in 20 hrs : 8 m3/hrDia. of filter of 1 nos. : 1045 mmProvide pressure sand filter of 1050 mm dia. and 1200 mm HOS with sand as medialayer, under drain pipe, laterals face piping etc for each stream.

8. Activated Carbon Filter:Vertical down flow type with graded/sand bed under drain plate with polysterenestrains.Flow : 180 m3/dayRate of filtration assumed as : 10 m3/m2/hrRequirement of treated water for usage in 20 hrs : 8 m3/hrDia of filter of 1 nos. : 1045 mmProvide Activated Carbon filter of 1050 mm dia with granular Activated carbon asmedia and 1200 mm HOS with sand as media layer, under drain pipe, laterals facepiping etc for each stream.

9.Ultraviolet Disinfection:

FIA - 17

UV applied to low turbidity water is a highly effective means of disinfection. UV is notharmful to aquatic organisms in the receiving water. UV light kills viruses, Vegetative-and spore-forming bacteria, algae and yeasts. No chemicals are added to thewastewater to change the pH, conductivity, odor or taste to create possible toxiccompounds. UV treatment has a few moving parts to adjust or wear out.

10.Final Treated Water Holding TankIt is always preferred to provide one final holding tank of minimum one day holdingcapacity, so that the treated effluents can be stored and used back for gardening orother tertiary purposes.Capacity: 180 m3

11. Sludge Filter Press:The biomass in the aeration tank stabilizes BOD in wastewater by consuming theorganic matter in the wastewater. The metabolic activity results in growth of thebiomass population in the Fluidized Aerobic Bio Reactor (FAB). Sludge holding tank hasbeen provided with filter press for dewatering sludge. The filtrate drains off throughthe media, which is again let into equalization tank.The dewatered sludge is collected in trays, which can be used as manure in the garden.No. of plates : 24Size of plates : 600 mm X 600 mmPlate moc (material of construction) : PP (poly propline)Type of operation : HydraulicPower pack capacity : 2 HP

The dewatered sludge is collected in trays, which can be used as manure in the garden.

Characteristics of Treated Waste waterParameter Quantity in mg/l

pH 7.3Total Suspended Solids 20BOD 10COD 50

Disposal of Treated Waste Water: It is proposed to reuse the treated wastewater forgreen belt development and for toilet flushing. Excess treated water shall be let outinto the sewer line.

FIA - 18

Sewage Treatment Flow Diagram

SEW

AG

E TR

EATM

ENT

PLA

NT

FLU

IDIZ

ED A

ERO

BIC

BIO

REA

CTO

R TE

CHN

OLO

GY

(FA

B)

Slud

geD

ewat

erin

gSy

stem

EQT

TAN

K

PSF

ACF

BarS

cree

n/ G

ritCh

ambe

r

Raw

Sew

age

Ove

rflo

w

Filte

r Fee

dPu

mp

(1W

+1S)

Slud

geD

ispo

sal

SLU

DG

EH

OLD

ING

TAN

K

CLAR

IFIE

DW

ATER

TAN

K

FAB

REAC

TOR

(Pac

kage

uni

t)

TREA

TED

WAT

ERTA

NK

To R

euse

TUBE

Sett

lers

18

UV

FIA - 19

2.14. Give details of dual plumbing system if treated waste used is used for flushing oftoilets or any other use.Dual plumbing system is used in apartments for toilet flushing. Separate tank isprovided to store the treated water the tank shall be 1 foot below the overhead tank.Separate pipe system is provided to pump the treated water for flushing. All thetreated water pipelines shall be colored blue.

3. VEGETATION3.1. Is there any threat of the project to the biodiversity? (Give a description of thelocal ecosystem with its unique features, if any)

The local area biodiversity is denudated due to increased urbanization. TheMansurabad RF is at a distance of 1.76 km from the site.

3.2. Will the construction involve extensive clearing or modification of vegetation?(Provide a detailed account of the trees & vegetation affected by the project)No, the site area has no major trees and is covered mainly with shrubs.

3.3. What are the measures proposed to be taken to minimize the likely impacts onimportant site features (Give details of proposal for tree plantation, landscaping,creation of water bodies etc along with a layout plan to an appropriate scale).The landscape area is 1045.2 m2. The plantation list is presented in the following table

S.No Name of treesAPARTMENTS

1 Fillicum Decipens2 Mimusps Elargi3 Fillicum Decipens4 Carsia Fictula5 Delonix Regian6 Alstnia Scholaris7 Ficus Benjamina8 Kigelia Pinnata9 Tabebuia Rorea

10 Anthrocephalus Chinensis

4. FAUNA4.1. Is there likely to be any displacement of fauna- both terrestrial and aquatic orcreation of barriers for their movement? Provide the details.-NO-

4.2. Any direct or indirect impacts on the avifauna of the area? Provide details.-No major impact envisaged. However the proposed plantation shall help in providingnesting space for the avifauna.

4.3. Prescribe measures such as corridors, fish ladders etc to mitigate adverse impactson fauna.-NA-

FIA - 20

5. AIR ENVIRONMENT

5.1. Will the project increase atmospheric concentration of gases & result in heatislands? (Give details of background air quality levels with predicted values based ondispersion models taking into account the increased traffic generation as a result ofthe proposed constructions)

Maximum Predicted Ground Level ConcentrationsS. No Pollutant Direction Distance (m) Maximum Concentration (g/m3)1 PM SW 180 0.042 SOx SW 180 0.263 NOx SW 180 0.34

5.2. What are the impacts on generation of dust, smoke, odorous fumes or otherhazardous gases? Give details in relation to all the meteorological parameters.

Sources of dust during Construction ActivityVehicle and Equipment Use Exposed Areas Contractor Activities

Vehicle and equipment enteringand leaving the project site

Areas of exposed soil thathave been cleared andgrubbed

Land clearing andgrubbing

Vehicle and equipmentmovement and use within theproject site

Areas of exposed soil thathave been excavated, filled,compacted, or graded

Earthwork including soilcompaction, roughgrading and final grading.

Sediment tracking off-site Construction staging areas Drilling

Temporary parking lots andstaging areas

Vehicle and equipmentstorage and service areas

Materials handling,including materialstockpiling, transfer, andprocessing

Onsite Construction traffic Material processing areasand transfer points Batch dropping, dumping

Construction roads Conveyor transfer andstacking

Bare ground areas ofconstruction site Material transferring

Spilled materials Crushing, milling andscreening operations

Construction stockpiles Demolition and debrisdisposal

Soil and debris piles Tilling

OCCUPATION STAGENo dust generation is envisaged during the occupation stage as the residential area will

have greenery and all roads shall be paved and all slopes & embankments shall beturfed as per best engineering practices.

FIA - 21

5.3. Will the proposal create shortage of parking space for vehicles? Furnish details ofthe present level of transport infrastructure and measures proposed for improvementincluding the traffic management at the entry & exit to the project site.

Parking Space Provision of the ProjectFloor 4-Wheelers 2-WheelersStilt 188 60Cellar 60 45Total 248 105

Circulation Plan:

Stilt Floor Driveway : 6.00 mNo. of Ramps : 4Width of Ramp : 4.0 mSlope of Ramp : 1 in 8Cellar Drive way : 6.1 mNo. of Lifts : 11Capacity of each Lift: 10 pax.Connecting Road : 12 m ROW

Modified Los & Performance

RoadExistingvolume,PCU/hr

Existingvolume/Capacity

Additionalvolume

ModifiedVolume

ModifiedVolume/Capacity

ModifiedLos &performance

Bank colonyroad 184 0.102 29 213 0.118 “A”

Excellent

5.4. Provide details of the movement patterns with internal roads, bicycle tracks,pedestrian pathways, footpaths etc., with areas under each category.

-NA-

5.5. Will there be significant increase in traffic noise & vibrations? Give details of thesources and the measures proposed for mitigation of the above.

There shall be an increase in the traffic density by 29 nos. of vehicles.

5.6. What will be the impact of DG sets & other equipment on noise levels & vibrationin & ambient air quality around the project site? Provide details.

DG sets shall be provided with acoustic enclosures. The emissions from the DG sets arereleased at 3.2 m height above the roof level.

FIA - 22

6. AESTHETICS6.1. 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 theproponents?-NO-

6.2. Will there be any adverse impacts from new constructions on the existingstructures? What are the considerations taken into account?-No adverse impacts are anticipated-

6.3. Whether there are any local considerations of urban form & urban designinfluencing the design criteria? They may be explicitly spelt out.

The layout plan is on the basis of Development rules prescribed by GHMC/HMDA.

6.4. Are there any anthropological or archaeological sites or artefacts nearby? State ifany other significant features in the vicinity of the proposed site have beenconsidered.

-NO-

7. SOCIO-ECONOMIC ASPECTS

7.1. Will the proposal result in any changes to the demographic structure of localpopulation? Provide the details.

-NO-

7.2 Give details of the existing social infrastructure around the proposed project.

School: 0.5 Km from site

Community Centers: 1.5 Km from site

Bus Stops: 0.28 km from site

Railway station: 8.5 Km from site

Temples/church/mosque: a number of them within 1 km radius of the site.

Graveyards: 3 km from the site.

7.3. Will the project cause adverse effects on local communities, disturbance tosacred sites or other cultural values? What are the safeguards proposed?

-NO-

FIA - 23

8. BUILDING MATERIALS8.1. May involve the use of building materials with high-embodied energy. Are theconstruction materials produced with energy efficient processes? (Give details ofenergy conservation measures in the selection of building materials and their energyefficiency)

Material Consumption for Total Units

UnitsBUA perunit in

(m2)

Total ReadyMix

Concrete(m3)

TotalCement(bags)

TotalSand(m3)

TotalAggregate(m3)

TotalWater(m3)

TotalBricks(Nos) x1000

TotalReinforcement

Steel(MT)

Total BUA 40150 16461 37339 15658 1726 9716 4657 923Total 40150 16461 37339 15658 1726 9716 4657 923

8.2. Transport and handling of materials during construction may result in pollution,noise & public nuisance. What measures are taken to minimize the impacts?All materials shall be transported during non peak hours. Sand and aggregate arecovered during transportation. Noise generating construction activity shall not betaken up during night times, adjacent to the residential area.

8.3. Are recycled materials used in roads and structures? State the extent of savingsachieved?Excess cut material to an extent of 2498 m3 hard rock shall be used for construction ofretaining walls and as aggregate for construction. Soft soil is used for back fill andHorticulture.

8.4. Give details of the methods of collection, segregation & disposal of the garbagegenerated during the operation phases of the project.

Garbage Management Plan



Biodegradablewaste

Non-BiodegradableWaste




Point


PointLocal Body

Segregation at Source/Segregation at each Residence


DomesticHazardous Wastes



PointLocal Body Local Body

FIA - 24

Segregation at each residence into bio-degradable, non biodegradable and domestichazardous wastes. Facilitation by owners co-operative to dispose recyclable waste toAuthorized Waste Pickers / Authorized Recyclers. Balance segregated waste given toAuthorized Agency of Local Body for disposal.

9. ENERGY CONSERVATION

9.1. Give details of the power requirements, source of supply, backup source etc.What is the energy consumption assumed per square foot of built-up area? How haveyou tried to minimize energy consumption?

Energy Consumption Statement


TotalConnected

Load(KW)

TotalConnected

Load(kVA)

Total MaxDemand

(KVA)







(KW)1 Block A & B 95 2500 238


LOC

AL B

OD

IES

FIA - 25
















Street Lighting

TotalConsumption


1 Savings in lakhkwh units 3.63 2.45

49.236.08

2 Savings inpercentage % 7.37 4.97 12.3

9.2. What type of, and capacity of, power back-up to you plan to provide?Details of DG Set emissions

Stackconnected to

DG setcapacity

StackHeight

(m)

Dia. ofstackat top

(m)

Temp.of

exhaustgases(0C)

ExitVeloc

ity(m/sec)

PollutantEmission Rate (g/sec)

PM SO2 NOx

250 kVA DGset of 2 no. 3.2 0.1 113 8.5 0.001 0.02 0.03

FIA - 26

9.3. What are the characteristics of the glass you plan to use? Provide specifications ofits characteristics related to both short wave and long wave radiation?The façade is not made of glass, and the glass requirement is only for windows. Theglass characteristics are presented as follows;

Characteristics of Glass utilized.Normal Anti-firing type

See through(SE) Non-see-through(NS) SE NS

Nominal thickness 6 8 10 6 10 9.8 9.8

StructureOut glass FL3 FL4 FL5 G3 G5 PWN 6.8 GWN 6.8Vacuum 0.2 0.2 0.2 0.2 0.2 0.2 0.2In glass Low-E 3 Low-E 4 Low-E 5 Low-E 3 Low-E 3 Low-E 3 Low-E 3

VisibleTL (%) 75.5 74.6 73.8 75.5 73.8 72.4 72.4RL (%) 15.9 15.8 15.6 15.9 15.6 16.8 16.8

SolarTS (%) 62.6 60.1 57.8 62.6 57.8 56.9 56.9RS (%) 14.1 13.6 13.2 14.1 13.2 14.2 14.2AS (%) 23.3 26.3 29.0 23.3 29.0 28.9 28.9

Solar heat gain 0.76 0.74 0.72 0.69 0.66 0.69 0.63Thermalinsulatio

n

(W/m2K)(Kcal/m2hrC

)

1.5 1.5 1.5 1.5 1.5 1.5 1.5

1.3 1.3 1.3 1.3 1.3 1.3 1.3

Sound reduction(JIS grade) 30 30 30 30 30 35 35

Maximum size(mm)Minimum size (mm)

2,400 x 1,350350 x 200

1,800 x1,200350 x 200

L M350 x 200

9.4. What passive solar architectural features are being used in the building? Illustratethe applications made in the proposed project.

The width to height ratio between the apartment blocks is around 1:1.5 which isachieved as per the development control rules.

All window openings is provided with chajjas depth as specified by the designstandards (around 300mm)

The full height openings have been designed for better lighting in theapartments units. For climatic considerations, all these openings are placed nextto a balcony/sit out space which acts as a buffer by eliminating the directlighting and thereby avoiding heat ingress.

Use of Large fenestration in buildings reduces the use of mechanical light energyduring daytime thereby reducing the energy consumption.

9.5. Does the layout of streets & buildings maximize the potential for solar energydevices? Have you considered the use of street lighting, emergency lighting and solarhot water systems for use in the building complex? Substantiate with details.

Solar power shall be used for the water heating and lighting requirement.

FIA - 27

9.6. Is shading effectively used to reduce cooling/heating loads? What principles havebeen used to maximize the shading of Walls on the East and the West and the Roof?How much energy saving has been effected?

Yes, the apartment blocks are aligned east and west to maximize the shading.

9.7. Do the structures use energy-efficient space conditioning, lighting and mechanicalsystems? Provide technical details. Provide details of the transformers and motorefficiencies, lighting intensity and air-conditioning load assumptions? Are you usingCFC and HCFC free chillers? Provide specifications.

Building Materials The building materials chosen for the landed and apartment units are as per the

recommendations of the climatic standards. To achieve the maximum energy value, a balance between the availability of

building materials locally and skilled labourers is achieved. Burnt brickwork with fly ash for the walling and plastering reduces the thermal

penetration by 20-30%. The RCC roof is covered with Brickbat concrete and terracotta weather tiles,

which reduces the heat penetration by 18%.Color of Facades

The colour choice for the buildings uses a maximum of white surface (nearly84%). This increases the solar reflectivity factor.

Emittance factor for white surfaces is around 90% compared to colouredsurface (20-60%)

16% of wall area uses earthen colours and this space has longer thermal storagein the walls. This creates a comfortable temperature at nights due to the thickerwalls designed.

Heat Absorbance of the brick used for building is around 50%. The roof of the units (if not covered with terrace garden) is painted white to

have a maximum reflectivity. The R-factor (resistance factor) for the roof with brickbats and white painted is

nearly 40% more as compared to the recommended standards.

9.8. What are the likely effects of the building activity in altering the microclimates?Provide a self-assessment on the likely impacts of the proposed construction oncreation of heat island & inversion effects?Green RoofsGreen roofs are an attractive roofing option that can reduce urban heat islands byproviding shade and through evapotranspiration, the release of water from plants tothe surrounding air. The benefits of green roofs include:

Reduce sewage system loads by assimilating large amounts of rainwater. Absorb air pollution, collect airborne particulates, and store carbon. Protect underlying roof material by eliminating exposure to the sun's ultraviolet

(UV) radiation and extreme daily temperature fluctuations. Serve as living environments that provide habitats for birds and other small

animals.

FIA - 28

Offer an attractive alternative to traditional roofs, addressing growing concernsabout urban quality of life.

Reduce noise transfer from the outdoors. Insulate a building from extreme temperatures, mainly by keeping the building

interior cool in the summer.

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.

S.NO. COMPONENTS U - VALUE1 Walls 2.44

2 Roofs 3.353 Floors 1.134 Windows 5.67

9.10. What precautions & safety measures are proposed against fire hazards? Furnishdetails of emergency plans.NA

9.11. If you are using glass as wall material provides details and specificationsincluding emissivity and thermal characteristics.-No-

9.12. What is the rate of air infiltration into the building? Provide details of how youare mitigating the effects of infiltration.4 A changes = 4.

9.13. To what extent the non-conventional energy technologies are utilized in theoverall energy consumption? Provide details of the renewable energy technologiesused.

-Nil-

10. ENVIRONMENT MANAGEMENT PLANThe Environment Management Plan would consist of all mitigation measures for eachitem wise activity to be undertaken during the construction, operation and the entirelife cycle to minimize adverse environmental impacts as a result of the activities ofthe project. It would also delineate the environmental monitoring plan for complianceof various environmental regulations. It will state the steps to be taken in case ofemergency such as accidents at the site including fire.

Furnished in EIS/EMP report

SRI SRI KALA KUTEERSM/s. SNR NIRMAN INDIA. PVT .LTD.,

SURVEY NO. 51/1, MANSOORABAD,SAROOR NAGAR, RANGA REDDY DISTRICT

Studies and Documentation by:M/s Team Labs and ConsultantsB-115, 116, 117 & 509, Annapurna Block,Aditya Enclave, Ameerpet,Hyderabad- 500 038Phone: 91-040-23748555/616Fax : 91-040-23748666e-mail: [email protected]

1. form i 2. form iaenvironmentclearance.nic.in/writereaddata/formb/ec/form...sri sri kala kuteers...

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