Godavari Bio Management 1. Updated Form I 2. Updated

GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH

1. UPDATED FORM I 2. UPDATED PRE‐FEASIBILITY REPORT

Project No. 0217‐07‐01 February 2017

STUDIES AND DOCUMENTATION BY TEAM Labs and Consultants Godavari Bio Management B‐115‐117 & 509, Annapurna Block, H.No. 2‐31, Peddada, Aditya Enclave, Ameerpet, Pedapudi, East Godavari District – 533 344 Hyderabad‐500 038. Phone: +91 99085 55550 Phone: 040‐23748 555/23748616, E‐mail: [email protected] E‐mail: [email protected]

SUBMITTED TO STATE LEVEL ENVIRONMENT IMPACT ASSESSMENT AUTHORITY, ANDHRA PRADESH, GOVERNMENT OF INDIA GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH

UPDATED FORM I

Godavari Bio Management H.No. 2‐31, Peddada, Pedapudi, East Godavari District – 533 344 Phone: +91 99085 55550 E‐mail: [email protected] SUBMITTED TO STATE LEVEL ENVIRONMENT IMPACT ASSESSMENT AUTHORITY, ANDHRA PRADESH, GOVERNMENT OF INDIA Godavari Bio Management

APPENDIX – I (See Paragraph – 6) FORM I I) Basic Information S.No. Item Details 1 Name of the Project/s Godavari Bio Management 2 S. No in the Schedule 7(da) – B category 3 Proposed capacity/area/length/tonnage to be Bio‐Medical Waste Treatment Facility handled/command area/lease area/number Area: 1.28 acres of wells to be drilled Capital Cost: 2.2 crore TOR Letter No. SEIAA / AP/ EG/ IND/ 06/ 2016/ 111 dated: 29.10.2016. Description Capacity (TPD) As per After TOR Amendment Bio Medical Waste 0.8 3 Treatment Capacity In Principle permission from APPCB No. 1/APPCB/HO/UH‐IV/BMW/In‐Principle/2016 dated 16.08.2016 4 New/Expansion/Modernization Amendment of TOR 5 Existing Capacity/Area etc. Not Applicable 6 Category of Project i.e. 'A' or 'B' “B” 7 Does it attract the general condition? If yes, No please specify 8 Does it attract the Specific condition? If yes, No please specify. 9 Location Plot/Survey/Khasra No. Sy.no. 258, Village Marripudi Village Tehsil Rangampeta Mandal District East Godavari District State Andhra Pradesh 10 Nearest railway station/airport along with Medapadu (S.C Railways) 4.0 Km ‐ SE distance in kms. Rajamundry Airport – 28 Km ‐ NW 11 Nearest Town, City, District Headquarters Kakinada – 18 km – SE along with distance in kms. 12 Village Panchayats, Zilla Parishad, Municipal Marripudi Corporation, Local body (complete postal address with telephone nos. to be given) 13 Name of the Applicant Y. paparao 14 Registered Address Sy.no. 258, Marripudi Village, Rangampeta Mandal, East Godavari District, Andhra Pradesh. 15 Address for Correspondence: Name Y. paparao

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Godavari Bio Management

Designation(Owner/Partner/CEO) Managing Partner Address H.No. 2‐31, Peddada, Pedapudi Mandal, East Godavari District Pin Code 533344 E‐mail [email protected] Telephone Number +91‐9908555550 Fax No. 16 Details of alternative Sites examined, if any. ‐NA‐ Location of these sites should be shown on a topo sheet. 17 Interlinked Projects Not Applicable 18 Whether separate application of interlinked No project has been submitted? 19 If yes, date of submission 20 If no, reason 21 Whether the proposal involves Not Applicable approval/clearance under: 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? 22 Whether there is any Government No Order/Policy relevant/relating to the site? 23 Forest land involved (hectares) No 24 Whether there is any location pending against No the project and /or land in which the project is propose to be set up? (a) Name of the Court (b) Case No (c) Orders/directions of the Court, if any and its relevance with the proposed project.

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Godavari Bio Management

(II) 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, etc.) 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 NO The land area used for the proposed bio‐medical use, land cover or topography including waste treatment facility is 1.28 acres. The land is increase in intensity of land use (with plain and does not involve much of respect to local land use plan) leveling/excavation. 1.2 Clearance of existing land, vegetation NO The land is plain and does not involve much of and buildings? leveling/excavation. 1.3 Creation of new land uses? NO 1.4 Pre‐construction investigations e.g. bore YES Soil test done and soil load bearing capacity houses, soil testing? established. 1.5 Construction works? YES Construction activity involves creation of Storage facility, treatment facilities like Detoxification facility, Incinerator, Autoclave and wastewater treatment plant. 1.6 Demolition works? NO 1.7 Temporary sites used for construction NO Construction labor from local villages shall be works or housing of construction employed. workers? 1.8 Above ground buildings, structures or YES Storage facilities shall be constructed. No major earthworks including linear structures, cut and fill or excavation is anticipated. cut and fill or excavations 1.9 Underground works including mining or NO tunneling? 1.10 Reclamation works? NO 1.11 Dredging? NO 1.12 Offshore structures? NO 1.13 Production and manufacturing YES Enclosed in Annexure – I processes? 1.14 Facilities for storage of goods or YES Bio‐Medical waste storage facility as per Bio‐ materials? Medical Waste Management Rules 1998 and its amendments shall be provided. 1.15 Facilities for treatment or disposal of YES Wastewater from washings, incinerator scrubber solid waste or liquid effluents? shall be treated in Biological treatment plant and treated wastewater reused for washings. Details are presented in Annexure II. 1.16 Facilities for long term housing of NO Local people shall be employed. operational workers? 1.17 New road, rail or sea traffic during YES Construction materials shall be transported to the construction or operation? site. The traffic density of the existing connecting road is negligible.

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1.18 New road, rail, air waterborne or other NO transport infrastructure including new or altered routes and stations, ports, airports etc? 1.19 Closure or diversion of existing transport NO routes or infrastructure leading to changes in traffic movements? 1.20 New or diverted transmission lines or NO pipelines? 1.21 Impoundment, damming, culverting, NO realignment or other changes to the hydrology of watercourses or aquifers? 1.22 Stream crossings? NO 1.23 Abstraction or transfers of water form YES Total water required for proposed treatment ground or surface waters? facility is 1.14 KLD, 10% Hypo solution for vehicle washings shall be 0.07 KLD. The required fresh water shall be drawn from ground water. 1.24 Changes in water bodies or the land NO surface affecting drainage or run‐off? 1.25 Transport of personnel or materials for YES The construction material shall be drawn from construction, operation or local sources within 10 – 15 km. There is no decommissioning? transport of personnel, as the construction workers shall be drawn from local villages. 1.26 Long‐term dismantling or NO decommissioning or restoration works? 1.27 Ongoing activity during decommissioning NO which could have an impact on the environment? 1.28 Influx of people to an area in either YES The proposed project shall increase the temporarily or permanently? employment potential and hence may lead to migration to surrounding villages. 1.29 Introduction of alien species? NO 1.30 Loss of native species or genetic NO There are no major losses of tree/shrub species. diversity? 1.31 Any other actions? NO

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Godavari Bio Management

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 NO The land area used for the proposed Bio‐medical agricultural land (ha) waste treatment facility is 1.28 acres.

2.2 Water (expected source & competing YES Total water required for proposed treatment users) unit: KLD facility is 1.14 KLD, 10% Hypo solution for vehicle washings shall be 0.07 KLD. The required fresh water shall be drawn from ground water. (Water Balance Enclosed in Annexure III) 2.3 Minerals (MT) NA 2.4 Construction material – stone, YES Shall be sourced from the local villages. aggregates, sand / soil (expected source – MT) 2.5 Forests and timber (source – MT) NO 2.6 Energy including electricity and fuels YES The required energy shall be drawn from (source, competing users) Unit: fuel APTRANSCO. DG set of 65 KVA shall be provided (MT), energy (MW) to cater to energy requirement during load shut downs 2.7 Any other natural resources (use NA appropriate standard units)

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Godavari Bio Management

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. 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 NO 10% Hypo Solution shall be used for Vehicle hazardous (as per MSIHC rules) to human washings. health or the environment (flora, fauna, and water supplies) 3.2 Changes in occurrence of disease or NO affect disease vectors (e.g. insect or water borne diseases). 3.3 Affect the welfare of people e.g. by YES Shall increase the employment potential for locals changing living conditions? and affect the living conditions for betterment.

3.4 Vulnerable groups of people who could NO No sensitive receptors are present in the be affected by the project e.g. hospital immediate vicinity of the site. The project shall patients, children, the elderly etc., not have any significant impact on vulnerable groups of people. 3.5 Any other causes NO

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 4.2 Municipal waste (domestic and or NO Wastes from canteen, other commercial wastes commercial wastes) like paper, empty containers etc. 4.3 Hazardous wastes (as per Hazardous YES The quantity of hazardous wastes generated Waste Management Rules) during construction contains waste oils and batteries from DG set.

The quantity of hazardous waste generated during operation contains ETP sludge and Ash from incinerator. Details are presented in Annexure – IV 4.4 Other industrial process wastes NO 4.5 Surplus product NO 4.6 Sewage sludge or other sludge from YES Sludge from Effluent treatment plant sent to TSDF effluent treatment 4.7 Construction or demolition wastes NO Construction activity involves creation of Storage facility, treatment facilities like Detoxification facility, Incinerator, Autoclave and wastewater treatment plant. 4.8 Redundant machinery or equipment NO

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Godavari Bio Management

4.9 Contaminated soils or other materials NO Structures of all waste treatment facilities are above ground to eliminate the possibility of any contamination due to seepage and for ease of maintenance. 4.10 Agricultural wastes NO 4.11 Other solid wastes NO

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 NO from stationary or mobile sources 5.2 Emissions from production processes YES Emissions details from incineration of bio‐medical water presented in Annexure IV 5.3 Emissions from materials handling NO Dedicated closed vehicles with Bio‐hazard symbol including storage or transport shall be provided for Bio‐Medical waste transportation 5.4 Emissions from construction activities YES Dust may rise during construction activity. The including plant and equipment dust emissions shall be mitigated by water spraying on the roads within the premises. 5.5 Dust or odors from handling of materials NO including construction materials, sewage and waste 5.6 Emissions from incineration of waste NO 5.7 Emissions from burning of waste in open NO air (e.g. slash materials, construction debris) 5.8 Emissions from any other sources NO

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Godavari Bio Management

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 with source of information data 6.1 From operation of equipment e.g. YES Material transport and construction equipment shall be engines, ventilation plant, crushers source of noise, while DG set are the sources of noise during operation. 6.2 From industrial or similar processes YES From DG set, and controlled by providing Acoustic Enclosures. 6.3 From construction or demolition YES Noise during construction shall be due to construction equipment and emergency DG set. 6.4 From blasting or piling NO

6.5 From construction or operational NO The increased traffic shall not have any significant traffic impact. 6.6 From lighting or cooling systems NO 6.7 From any other sources NO

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 NO No hazardous materials are stored. spillage of hazardous materials 7.2 From discharge of sewage or other NO All the wastes from domestic operations are sent to effluents to water or the land septic tank followed by soak pit. (expected mode and place of discharge)

7.3 By deposition of pollutants emitted NO to air into the land or into water 7.4 From any other sources NO 7.5 Is there a risk of long term build up NO of pollutants in environment from these sources?

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Godavari Bio Management

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 YES All Inbuilt Safety precautions will be storage, handling, use or production of adopted and there will not be any hazardous substances damage to environment or human health 8.2 From any other causes NA 8.3 Could the project be affected by natural disasters NO causing environmental damage (e.g? Floods, earthquakes, landslides, cloudburst etc)?

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. YES The project shall enhance the socio facilities, ancillary development or development economic status of the area by stimulated by the project which could have impact increasing the demand for housing, on the environment e.g.: improving the employment. There are • Supporting infrastructure (roads, power supply, no major support industries required waste or waste water treatment, etc.) for this plant. • housing development • extractive industries • supply industries • other 9.2 Lead to after‐use of the site, which could haven NO impact on the environment 9.3 Set a precedent for later developments NO 9.4 Have cumulative effects due to proximity to other NO The baseline environmental status of existing or planned projects with similar effects the surrounding areas is within the prescribed limits as observed from the Secondary data.

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Godavari Bio Management

(III) Environmental Sensitivity S.No. Areas Name/ Aerial distance (within 15 km.) Proposed Identity project location boundary 1 Areas protected under international conventions, NA national or local legislation for their ecological, landscape, cultural or other related value 2 Areas which are important or sensitive for NO ecological reasons ‐ Wetlands, watercourses or other water bodies, coastal zone, biospheres, mountains, forests 3 Areas used by protected, important or sensitive NA species of flora or fauna for breeding, nesting, foraging, resting, over wintering, migration 4 Inland, coastal, marine or underground waters NO 5 State, National boundaries NO 6 Routes or facilities used by the public for access NO to recreation or other tourist, pilgrim areas 7 Defense installations NO 8 Densely populated or built‐up area YES Marripudi is at a distance of 1.05 KM in NW 9 Areas occupied by sensitive man‐made land uses NA (hospitals, schools, places of worship, community facilities) 10 Areas containing important, high quality or scarce NO resources (ground water resources, surface resources, forestry, agriculture, fisheries, tourism, minerals) 11 Areas already subjected to pollution or NO environmental damage. (those where existing legal environmental standards are exceeded) 12 Areas susceptible to natural hazard which could NO cause the project to present environmental problems (earthquakes, subsidence, landslides, erosion, flooding or extreme or adverse climatic conditions)

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GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH

ANNEXURES

SUBMITTED TO STATE LEVEL ENVIRONMENT IMPACT ASSESSMENT AUTHORITY, ANDHRA PRADESH, GOVERNMENT OF INDIA Godavari Bio Management Form I Annexure

Location Map of Godavari Bio Management Bio Mapof Godavari Location

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Godavari Bio Management Form I Annexure

Plant Layout of Godavari Bio Management

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Godavari Bio Management Form I Annexure

ANNEXURE - I

M/s. Godavari Bio Management proposed to establish Common Bio-Medical Waste Treatment Facility (CBMWTF) of capacity 3TPD in an area of 1.28 acres at Sy. No 258, Marripudi Village, Rangampeta Mandal, East Godavari district, Andhra Pradesh with capital cost of Rs. 2.2 crores. List of treatment facilities proposed is presented in Table 2.1. Table 2.1 List of Treatment Facilities S.No Description Capacity 1 Incinerator or Plasma Pyrolysis 250 Kg/hr 2 Autoclave 830 lts 3 Shredder 100 Kg/hr

Process Description Treatment of Medical Waste The primary methods of treatment and disposal of medical waste are: 1. Incineration 2. Autoclaving 3. Shredding

Medical Waste Incineration Medical waste incineration involves the burning of wastes produced by hospitals, veterinary facilities, and medical research facilities. These wastes include both infectious ("red bag") medical wastes as well as non-infectious, general housekeeping wastes. The emission factors presented here represent emissions when both types of these wastes are combusted rather than just infectious wastes.

The waste, which requires incineration, is stored in yellow non-chlorinated HDPE bags in storage area. The waste generally passes through the incinerator on a belt into the Primary Chamber through the charging door. The primary chamber is lined with refractory and insulation bricks of IS 8 & IS-2042 standards. The air required for volatilization is supplied through an air duct and introduced through equally placed nozzles. Airflow is controlled with the help of air dampers provided. The primary chamber is fitted with a fuel oil

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Godavari Bio Management Form I Annexure

burner, which has necessary instrumentations to function automatically. A forced draft fan is used to provide for combustion/volatilization air. This fan also supplies air required for the dilution of flue gases before venturi scrubber. The combustion air is controlled to have minimum turbulence, restricting fly ash. The fly ash collected in Primary Chamber is removed from the dashing door. Inside primary chamber a min. of 850O C +/- 50OC temperatures is maintained.

The volatiles/gases emitted from the primary chamber pass through the neck of the secondary chamber, which is also lined with refractory and insulation bricks. The secondary chamber will be designed to ensure the flue gas residence time of more than one second. The secondary chamber will operate at a temperature of 1050OC +/- 50OC. The gases will be completely burnt and safe gases then shall be letout of the incinerator unit.

The volatile matter has a low flash point and hence gets liberated in the primary combustion chamber. This is later burnt in the secondary chamber at a high temperature andin the presence of excess air in the secondary chamber. Fixed carbons are the non- volatile portion of the waste and are completely incinerated in primary chamber only. The moisture present in the waste is evaporated in the primary chamber and passes through the secondary chamber and hets releases as super heated water vapour. Sterilized ash and non-combustible material remains in the primary chamber. To prevent them from flying out along with gases, non-turbulent conditions are maintained in the primary chamber. Depending upon the type of waste destroyed in the incinerator the sterile ash content ranges between 5-10 %.

The flue gases then pass through the downstream air pollution control system, comprising of venture scrubber, droplet separator followed by ID fan and Stack of height 30m. Venturi scrubber ensures acidic gases are removed by absorption with caustic solution and the particulates by the inertial impaction energy. 5% caustic solution is used as scrubbing liquid to neutralize the SO2 etc. present in flue gases. The flue gases enter tangentially into the droplet separator, which is of cyclonic type. By the action of centrifugal force, the larger droplets present in flue gases settle down. The

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Godavari Bio Management Form I Annexure

gases are let out through a 30m height stack. At the end of the incineration process the sterile ash that is left over is packed in black-colored HDPE bags. These bags are then transported to the sanitary landfill site where they are disposed off

Autoclaves The primary purpose of autoclave is to sterilize / disinfect the waste with steam. Microorganisms which contribute to infection do not survive beyond 80OC. However, as a aprecaution MoEFCC has stipulated a temperature of 121OC with 15psi pressure and 45 min duration to ensure distribution of temperature. At this temperature and pressure, microorganisms are completely destroyed and thus render the wastes infection free. The disinfected waste shall then be segregated into HDPE, PP, rubber, latex, glass and metal. The segregated materials shall then be shredded completing the process of disinfection and ensuring non-recycling of the waste materials for medical / food grade purposes. All the process control conditions will be as per the applicable Bio medical rules. It is proposed to install Horizontal rectangular autoclave, single hinge door Autoclave of capacity 830 lts.

Shredding Medical waste that is subjected to an autoclave is often also subjected to a compaction process, such as shredding, after treatment so that it is no longer recognizable and cannot be re-used for other purposes. The compaction process reduces the volume of the treated waste significantly. After treatment and compaction, the treated waste is combined with general waste and disposed to landfill. Waste that is treated using an autoclave is still recognizable after treatment, and therefore must be shredded after treatment to allow for disposal with general waste. Shredder is equipped with hopper of adequate size to accept the material to be shredded. The hopper is also provided with a lid, which can be locked during operation. The hopper is well designed to take care of volume and weight of the material. The hopper directs the materials to the cutting chamber. The shredded waste is then packed in a black-colored HDPE bags

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Godavari Bio Management Form I Annexure

ANNEXURE – II: Wastewater Treatment Facilities The effluent generated from the proposed Bio-medical waste treatment facility is mainly from Floor washings, Vehicle washings, Incinerator scrubbers and domestic wastewater. Wastewater from washings and incinerator scrubber are sent to effluent treatment plant and treated wastewater reused for floor washings while domestic effluent sent to septic tank followed by soak pit. Total Effluent generated and mode of treatment is presented in Table A-1. Table A-1 Quantity of Effluent Generated and Mode of Treatment Description Quantity Mode of Treatment (KLD) Floor Process 0.08 Sent to Effluent treatment plant and treated Vehicle Washings 0.07 wastewater reused for floor washings. Incinerator scrubber 0.06 Domestic 0.80 Septic tank followed by soak pit Total 1.01

ANNEXURE – III: Water Balance Water is required for Floor washings, Vehicle washings (10% Hypo solution), Incinerator scrubber and domestic purposes. Total fresh water required for proposed treatment facility is 1.14 KLD in addition to recycled water of 0.25 KLD, 10% Hypo solution for vehicle washings shall be 0.07 KLD. The required fresh water shall be drawn from ground water. The water balance is presented in Table A-2. Table A-2 Total Water Balance (Tentative) Purpose INPUT (KLD) OUTPUT (KLD) Fresh Water Recycled Water Loss Effluent Washings 0.08 0.25 0.08 Scrubber 0.06 0.06 Domestic 1.00 0.2 0.80 Total 1.14 0.25 0.2 0.94 Grand Total 1.27 1.27 Vehicle Washings 0.07 0.07

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Godavari Bio Management Form I Annexure

ANNEXURE – IV: Solid Waste

The total solid waste generated and mode of disposal is presented in Table A-3.

Table A-3 Solid Waste Details (Tentative) S.No Description Units Quantity Mode of Disposal 1 Ash from Incinerator Kg/day 120 Sent to TSDF 2 ETP Sludge Kg/day 2.5 Sent to TSDF 3 Waste oil lts/month 12 Sent to Authorized Recyclers 4 Used batteries No.s/year 4 Sent to Authorized Recyclers

ANNEXURE – V: Stack Emissions Details The sources of air emission expected from the proposed bio-medical waste treatment facility from stand by DG set of 65 KVA and incinerator of capacity 200 Kg/hr. DG set shall be provided with stack height based on the CPCB formula for effective stack height, Scrubbers shall be provided to incinerator before letting out the emissions from incinerator.

The emission rates of PM, SO2 and NOx from each stack are presented in Table A-4.

Table A-4 Stack Emission Details S.No Stack Attached to Stack Dia of Temp.of Exit Pollutant Emission Rate Height stack exhaust Velocity (g/sec) 0 (m) at top (m) gases ( C) (m/sec) PM SO2 NOx 1 200 Kg/hr 30 0.4 150 6.2 0.02 0.09 0.16 Incinerator 2 *DG Set 65 KVA 2 0.1 170 3.2 0.001 0.01 0.02 *DG sets will be used during load shut down by APTRANSCO.

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GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH

STUDIES AND DOCUMENTATION BY TEAM Labs and Consultants QCI: MoE&F OM, List A‐1, S.No.25. (An ISO 9001:2008, ISO 14001:2004 & OHSAS 18001:2007 Certified Organization) B‐115, Annapurna Block, Aditya Enclave Ameerpet, Hyderabad‐500 038. Phone: 040‐23748 555/616, Telefax: 040‐23748666 Email: [email protected] GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH

UPDATED PRE‐FEASIBILITY REPORT

Pre – Feasibility Report

Godavari Bio Management Sy. No 258, Marripudi Village, Rangampeta Mandal, East Godavari district, Andhra Pradesh

1. Executive Summary M/s. Godavari Bio Management proposed to establish Bio-Medical Waste Treatment Facility of capacity 3 TPD in an area of 1.28 acres at Sy. No 258, Marripudi Village, Rangampeta Mandal, East Godavari district, Andhra Pradesh with capital cost of Rs. 2.2 crore.

The site is having a latitude 1702’4.26” (N) and longitude 8204’21.30” (E). The nearest habitation from the site is Marripudi village at a distance of 1.1 Km in southwest direction. There are no Reserve forests in the study area. There are no ecologically sensitive areas like national parks, sanctuaries within 10 km radius of the site.

2. Introduction of the Project

2.1 Identification of Project and Project Proponent: The objective of this pre-feasibility study is to provide information for Bio-Medical Waste Treatment Facility of capacity 3 TPD in an area of 1.28 acres at Sy. No 258, Marripudi Village, RangampetaMandal, East Godavari district, Andhra Pradesh with capital cost of Rs. 2.2 crore

2.1 Brief Description of Nature of the Project: Treatment of Medical Waste The primary methods of treatment and disposal of medical waste are ¾ Incineration or Plasma Pyrolysis ¾ Autoclaves ¾ Shredder

Medical waste incineration involves the burning of wastes produced by hospitals, veterinary facilities, and medical research facilities. These wastes include both infectious ("red bag") medical wastes as well as non-infectious, general housekeeping wastes. The emission factors presented here represent emissions when both types of these wastes are combusted rather than just infectious wastes

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Godavari Bio Management

2.2 Need for the project and its importance to the country and or region: Exposure to infectious BMW can result in disease or injury. It may contain infectious agents, toxic or hazardous chemicals or pharmaceuticals, radioactive wastes and waste sharps. The infectious wastes may contain any of the great variety of pathogenic microorganisms. Pathogens in infectious wastes may enter the human body through a number of routes like a puncture or cut in the skin, mucous membranes, by inhalation or ingestion. Sharps may not only cause cuts and punctures but also infect the wounds if they are contaminated with pathogens. Because of this dual risk – of injury and disease transmission – sharps are considered as a very hazardous waste class. Other potential infectious risks may include the spread of drug-resistant micro-organisms from health-care establishments into the environment. Based in-principle permission obtained from APPCB vide letter no. 1/APPCB/HO/UH-IV/BMW/In-Principle/2016 dated 16.08.2016, East Godavari has the considerable number of health care institutions in Andhra Pradesh. There are 586 Health Care Facilities (HCFs) with 15494 bed strength excluding Medical colleges. Including medical colleges the total bed strength is about 17299 and about 6823 number of beds uncovered existing bio medical waste treatment facility namely EVB Technologies located at a distance of 32.47 km from proposed site. Hence it is proposed to establish another Common Bio-Medical Treatment Facility at East Godavari district. Total Bed strength and HCFs are listed below;

S.No Description Total No. No. of HCFs of Beds 1 Health Care Facilities 15494 586 2 Medical Colleges 1805 Total 17299 586 Existing CBMWTF - EVB Technologies 10476 596 Uncovered 6823

2.3 Employment Generation (Direct and Indirect) due to the project: It is expected that 20-25 nos employment will be generated by the project:

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Godavari Bio Management

3. Project Description

3.1 Type of Project including interlinked and interdependent projects, if any: The objective of this pre-feasibility study is to provide information for Bio-Medical Waste Treatment Facility of capacity 3 TPD in an area of 1.28 acres at Sy. No 258, Marripudi Village, RangampetaMandal, East Godavari district, Andhra Pradesh with capital cost of Rs. 2.2 crore.

3.2 Size or magnitude of operation: The objective of this pre-feasibility study is to provide information for Bio-Medical Waste Treatment Facility of capacity 3 TPD in an area of 1.28 acres

3.3 Process Description with process details (a schematic diagram/flow chart) Process description is as in the Form I Annexures.

3.4 Raw material required along with estimated quantity likely source, marketing area of final product/s, mode of transport of raw material and finished product.

Source of raw material for proposed biomedical waste treatment facility are from hospitals, dental, R&D lab and Medical Colleges.

3.5 Availability of water its source, energy/power requirement and source should be given Water is required for Floor washings, Vehicle washings (10% Hypo solution), Incinerator scrubber and domestic purposes. Total fresh water required for proposed treatment facility is 1.14 KLD in addition to recycled water of 0.25 KLD, 10% Hypo solution for vehicle washings shall be 0.07 KLD. Water balance is presented in Table below. Total Water Balance (Tentative) Purpose INPUT (KLD) OUTPUT (KLD) Fresh Water Recycled Water Loss Effluent Washings 0.08 0.25 0.08 Scrubber 0.06 0.06 Domestic 1.00 0.2 0.80 Total 1.14 0.25 0.2 0.94 Vehicle Washings 0.07 0.07

3.5.1 Electricity: The required energy shall be drawn from AP TRANSCO. The requirement of power will be 0.1MW.

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3.6 Quantity of wastes to be generated (liquid and solid) and Scheme for their Management/disposal: The effluent generated from the proposed Bio-medical waste treatment facility is mainly from Floor washings, Vehicle washings, Incinerator scrubbers and domestic wastewater. Wastewater from washings and incinerator scrubber are sent to effluent treatment plant and treated wastewater reused for floor washings while domestic effluent sent to septic tank followed by soak pit. The Effluent Treatment details and the Solid Waste Management details are listed in the below tables.

Quantity of Effluent Generated and Mode of Treatment Description Quantity Mode of Treatment (KLD) Floor Process 0.08 Sent to Effluent treatment plant and treated Vehicle Washings 0.07 wastewater reused for floor washings. Incinerator scrubber 0.06 Domestic 0.80 Septic tank followed by soak pit Total 1.01

Total Solid Waste Generated and Mode of Disposal S.No Description Units Quantity Mode of Disposal 1 Ash from Incinerator Kg/day 120 Sent to TSDF 2 ETP Sludge Kg/day 2.5 Sent to TSDF 3 Waste oil lts/month 12 Sent to Authorized Recyclers 4 Used batteries No.s/year 4 Sent to Authorized Recyclers

4. Site Analysis 4.1 Plant Location M/s. Godavari Bio Management proposed to establish Bio-Medical Waste Treatment Facility of capacity 3 TPD in an area of 1.28 acres at Sy. No 258, Marripudi Village, RangampetaMandal, East Godavari district, Andhra Pradesh with capital cost of Rs. 2.2 crore.

The site is having a latitude 1702’4.26” (N) and longitude 8204’21.30” (E). The nearest habitation from the site is Marripudi village at a distance of 1.1 Km in southwest direction. there are no Reserve forests in the study area. The main approach road to the site road connecting Marripudi to Peddapuram at distance of 0.67 km in west direction.

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5. Planning Brief: The project is envisages to be completed by August 2017. Consultants are identified for preparing the detailed project report.

6. Proposed Infrastructure: 6.1 Power Requirement and Supply/Source The required energy shall be drawn from AP Transco. The power shall be drawn from DG set of capacity 65 KVA during load shut downs.

6.2 Utilities List of Utilities S.No Utility Capacity 1 Incinerator or Plasma Pyrolysis 250 Kg/hr 2 Autoclave 830 lts 3 Shredder 100 Kg/hr 4 DG Set* 65 KVA * DG set will be used during load shut down.

Equipments All the above equipment can be sourced indigenously and the lead time to supply the equipment will not exceed 10 weeks.

6.3 Waste management Liquid Effluents The effluent generated from the proposed Bio-medical waste treatment facility is mainly from Floor washings, Vehicle washings, Incinerator scrubbers and domestic wastewater. Wastewater from washings and incinerator scrubber are sent to effluent treatment plant and treated wastewater reused for floor washings while domestic effluent sent to septic tank followed by soak pit.

Air Pollution The sources of air emission expected from the proposed bio-medical waste treatment facility from stand by DG set of 65 KVA and incinerator of capacity 200 Kg/hr. DG set shall be provided with stack height based on the CPCB formula for effective stack height, Scrubbers shall be provided to incinerator before letting out the emissions from incinerator.

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Solid waste The ash from incinerator, sludge from ETP are sent to TSDF and other wastes like used oil and used batteries shall be sent to authorized recyclers.

7. Rehabilitation and Resettlement (R&R) Plan Not applicable as the land area is only 1.28 acres already acquired.

8. Project Schedule & Cost Estimates 8.1 Likely date of start of construction and likely date of completion (Time schedule for the project to be given) The project is envisages to be completed by March 2017.

8.2 Estimated project cost along with analysis in terms of economic viability of the project The estimated cost of the project is approximately Rs. 2.2 crore

Project Cost Rs. In Crores Cost of Land Land Development 0.2 Civil Construction 0.35 Plant and Machinery 1.2 Effluent Treatment Plant 0.15 Vehicles 0.3 Project Cost 2.20

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GODAVARI BIO MANAGEMENT SY. NO. 258, MARRIPUDI VILLAGE, RANGAMPETA MANDAL, EAST GODAVARI DISTRICT, ANDHRA PRADESH