ENVIRONMENTAL CLEARANCE APPLICATION FOR PREFEASIBILITY REPORT FOR GRANT OF TOR

Transcription

1 ENVIRONMENTAL CLEARANCE APPLICATION FOR PREFEASIBILITY REPORT FOR GRANT OF TOR OF Common Bio-medical Waste Treatment Facility At Khasra no-90/0, Mundka, Udhyog Nagar Delhi Incineration Capacity: 500 kg/hr Autoclave Capacity: 400 kg/batch Shredder Capacity: 250 kg/hr Category 7(da) B Being Developed By: M/s HITECH WASTE SOLUTIONS PVT. LTD. D-43, Anupam Garden, Neb Sarai New Delhi

2 1 Introduction 1.1 About the common bio medical waste treatment facility (CBWTF) In the constitution of India it is clearly stated that it is the duty of the state to protect and improve the environment and safeguard the forests and wildlife of the country. It also imposes a duty on every citizen to protect and improve the natural environment including forests, lakes, rivers and wildlife. Environmental laws are the corner stones of the environmental protection. The environmental protection Act of 1986 came into force soon after the Bhopal Gas tragedy in 1984 and is considered umbrella legislation as it fills many gaps in existing laws such as Air and Water Acts. With aim to protect the environment there are different legislations to protect water, air and environment. Solid waste causes direct impact to environment as per Indian legislations solid waste is categorised in to the following categories : Municipal Solid Waste (MSW) Bio-Medical Waste (BMW) Hazardous Waste (HW) E-Waste Bio Medical Waste was defined under biomedical waste management and handling rules, 1998 which notified on 20thjuly The rule was amended time to time and the main features of the rules are: Segregation of Bio-Medical Waste from other waste Bio-medical waste should not be stored for more than 48 hours Waste shall be stored in following colour contains: Yellow: Red: Blue/White: Black: Incineration Waste Autoclave/ Microwave Chemical Treatment Autoclave/ Microwave Chemical Treatment Disposal to secured landfill site The biomedical waste generator will take authorization from state pollution control board There will be provision of common bio medical waste treatment facility Central Pollution Control Board (CPCB) has made guidelines for common Bio medical waste treatment facility (CBWTF) which has defined following criteria:

3 CBWTF should be located away from residential and sensitive areas CBWTF should have a minimum area of 1 acres CBWTF should at least cater 10,000 beds CBWTF should have following equipment for following process: Incineration Autoclave/ microwaving/hydroclaving Shredder Sharp pit/ Encapsulation Vehicle / Container washing facility Effluent Treatment Plant CBWTF should have following infrastructure: Treatment Equipment Room Main waste storage Room Treated Waste storage Room Administrative Room D.G. set room Site Security Green Belt Sign Board CBWTF should have proper record keeping CBWTF should have proper waste collection & transportation facility CBWTF needs to dispose the treated waste in following manner:

4 As per EIA notification 2006 the CBWTF is not covered under EIA notification. However, under Appeal no. 63 of 2012 at NGT, Principal Bench, New Delhi. MoEF official informed that the CBWTF may be covered under 7(d) of the Schedule to the EIA notification, (d) Common Hazardous waste management. Storage and disposal facilities (TSDFs) All integrated facilities having incineration and landfill or incineration alone All facilities having land fill only General Condition Apply In view of above M/s Hitech Waste Solutions Pvt Ltd is applying for the Environmental Clearance 1.2 Profile of the Promoter Hitech Waste Solution Pvt. Ltd. A group of professional, with the vision of entering into socially relevant and environmentally conscious areas, joined hands in year to promote the partnership firm in the name of Hitech Waste Solutions Pvt. Ltd THE TEAM: - 1. Mr. Vikas Ghallot, Director

5 Mr. Vikas Ghallot is a young and enthusiastic Post-Graduate entrepreneur having in-depth business experience in various companies carrying out activities of Bio-Medical Waste as operator of facilities in Haryana and Delhi. He has vast experience of 8 years in promotion of business as well as in marketing field of BMW treatment facilities. As a founder partner/ director, he has established following 3 BMW treatment facilities in NCT of Delhi & Haryana State: M/s Metro Bio care Services Pvt Ltd (Formerly M/s Bio Care Technological Services), 55, Railway Road, Samaipur, Delhi-42- Established in M/s Vulcan Waste Management Pvt Ltd (Formerly M/s Vulcan Waste management Company), Bhondsi, District Gurgaon, Haryana- Established in M/s Biotic Solutions, 46, SSI Industrial Area, GT Karnal Road, Delhi-33- Established in Present Affiliation: Managing Director M/s Vulcan Waste Management Pvt Ltd. CBWTF at Gurgaon, Haryana. Director M/s Biotic Waste Solutions P Ltd. CBWTF at NCT of Delhi. 2. Mr. Kuldeep Panwar, Director Mr. Kuldeep Panwar is a young and dynamic Graduate and software professional. He is having more than 6 years of experience of setting up the BMW Treatment facility and its operation. He has in-depth knowledge and experience in management of Bio Medical Waste. As a founder partner/ director, he has established following two BMW treatment facilities in NCT of Delhi & Haryana State: M/s Vulcan Waste Management Pvt Ltd (Formerly M/s Vulcan Waste management Company), Bhondsi, District Gurgaon, Haryana- Established in M/s Biotic Solutions, 46, SSI Industrial Area, GT Karnal Road, Delhi-33- Established in Present Affiliation: Managing Director M/s Vulcan Waste Management Pvt Ltd. CBWTF at Gurgaon, Haryana. Director M/s Biotic Waste Solutions P Ltd. CBWTF at NCT of Delhi. 3. Mr. Jaswant Singh Rawat, Sr. Manager (Admin)

6 Mr. J.S. Rawat is a retired Vice President of M/s Rajasthan Syntex Ltd., Rajasthan. He has vast experience as administrator at top level of different Govt. and Private Organizations like General Manger National Textile Corporation, Govt. of India. Present Affiliation: Sr. Manager (HRD & Marketing) M/s Vulcan Waste Management Pvt. Ltd. CBWTF at Gurgaon, Haryana. 4. Mr. Abhishek Hooda, Manager Marketing Mr. Abhishek Hooda has good experience in Marketing of Bio-Medical Waste management, his marketing skills has helped us reach new heights in our trade. Services Offered Health care waste is a heterogeneous mixture, which is very difficult to manage as such. However, the problem can be simplified and its dimension reduced considerably if a proper management system is planned. Company can render the following services for better management of bio-medical waste: 1.3 Management & training of staffs and agencies, generating bio-medical waste. Collection, reception, storage, transportation, storage, treatment and disposal of biomedical waste generated from health care centres such as hospital, nursing homes, diagnostic centres, clinics, dispensaries etc. Transportation : Mobile van as per guidelines for transportation of Bio Medical Waste. Incineration : Dual chambered rotary Incinerator (oil-fired), with air pollution device.( wet rotary incinerator) control Autoclaving : Autoclave Chemical Treatment : Chemical treatment system with Effluent treatment plant. Shredding : Autoclaved plastic waste is shredded before final disposal to ensure prevention of reuse and also acts as identifier that the waste has been disinfected and is safe to dispose off. We will impart training programs in various government and non-government organizations and health care establishments on Bio-Medical Waste Management. It starts from the segregation of bio-medical waste at point of generation into various color-coded containers to ensure proper treatment of the waste. Proper guidance is essential in this regard. Segregation charts, calendars, stickers and other informative details are prepared and distributed.

7 1.4 Need of the Project The project is located near Mundka, Udhyog Nagar, Delhi which has many healthcare Units and approx tons/day waste is generated Manpower The following staffs is also engaged apart from the management Manager (Operation & Admin) : 1 Marketing Executives : 12 Accounts : 2 Supervisor (Plant & Transportation) : 4 Junior Staff : 3 Operator for incinerator : 6 Operator for Auto clave : 2 Driver : 18 Helper : 20 2 Project Description 2.1 Site Location Site is located Mundka, Udhyog Nagar, Delhi and important public access services are given below. Mundka Rly Station : 0.74 Km N Nearest Airport : Indira Gandhi International Airport, Km SE Nearest Highway : NH-10 Adjacent 2.2 Plant Capacity Incinerator : 500 kg/hr (Rotary Kiln) Autoclave : 400 Kg/Batch Boiler : Oil fired baby boiler Shredder : 250 Kg/hr D.G. Set : 125 KVA with Acoustic Enclosure

8 Air Pollution Control Device : separator and mist eliminator. Quencher followed by Venturi Scrubber with droplet Effluent Treatment Plant : Physio-Chemical Treatment Plant Vehicles : Mahindra Pickup Vans-8, Tata Safety gadgets : Gloves, Mask, Apron, Gumboots 2.3 Details Of Raw Material Plastic Containers : As per requirement Plastic Bags : As per requirement Diesel : ltrs/day Spares : As per requirement of Plant and machinery Chemicals : sodium Hypochlorite, caustic soda, quick lime etc. Safety Gadget : Gloves, apron, mask, boots etc. 2.4 Operational Methodology The Bio-Medical Waste generated in the health care units has to follow a specified path from source of its generation to its final disposal at the facility in accordance with the Bio- Medical Waste (Management & Handling) Rules, 1998 and standards prescribed by the Pollution Control Authorities.. The process of BMW Management involves: Collection of segregated waste from health care establishments, Transportation in specially designed closed vehicles from the Health Care Unit to the CBWTF, Treatment of BMW by incineration or autoclaving at CBWTF, Shredding of treated waste & its disposal. The responsibility of Health Care Unit for the safe disposal of Bio-Medical Waste ends once the segregated BMW is handed over to the operator of CBWTF. The hospital waste consists 60-65% of incinerable waste and 35% - 40% autoclavable waste. Therefore, it is necessary that hospital waste is properly handled, segregated and stored by trained staff of health care establishments. The clients shall be advised to keep four containers as per BMW Rules.

9 2.5 Flow Chart

10 2.6 Details of Product and By-Product The unit will install a maximum capacity of 10 tons/day and after treatment the following waste shall be generated. S.No. Product / Waste Category Quantity Units 1 Plastic 2.0 Tons/day 2 Sharps (Encapsulated) 0.02 Tons/day 3 Sharps(non-encapsulated 0.3 Tons/day 4 Ash 0.5 Tons/day 5 MSW 8 Kg/day 6 Oil and Grease 4 Litres/month 2.7 Waste Water Management Water Use & Wastewater Discharge During the process water will be used at following points: 1. Washing 3500 Lt./ day 2. Venturi Scrubber (makeup water) 1000 Lt./day 3. Boiler 500 Lt./day 4. Domestic use 1000 Lt./day 5. Others Nil The wastewater generation will be from two points: Lt./day Floor & vehicle washing 3200 Lt./day 2. Boiler blow down 300 Lt./day 4. Domestic use 400 Lt./day Lt. /day Water from Venturi Scrubber will be re-circulated after passing through the cooling tower & oil & grease trap to remove the ash contents of scrubbing process. The process of collection, handling and processing shall not involve any direct process water usages of discharge of waste water, but some water will be used for cleaning and washing of

11 flue gas which forms the waste water discharge stream, for the unit requiring treatment and control facilities. Another source of waste water generation within the complex will be vehicle washing. The company will maintain a fleet of dedicated vehicles to collect the wastes from these hospitals. All the vehicles will be washed and disinfected daily at the site which generates sufficient quantity of waste water. In addition the storage area as well as the other waste handling areas will also be washed with water daily. All these wash stream forms the major effluent discharge from the unit. Occasionally, once a week a small part of the scrubber circulation water is discharged as bleed off from the system to maintain the quality of scrubber water within the desired specifications Expected Characteristics of Raw Effluent Sample S. No. Parameters Value 1. ph Oil & Grease Total Suspended Solids C Designed Parameters for the Expected Characteristics Of The Treated Waste Water S. No. Parameters Value 1. ph Oil & Grease <10 3. Total Suspended Solids < C <30 5. COD < Bio Assay Test 90% surviving after 96 hours * All concentration values are in mg/i excepting that of ph Equalization cum holding tank with a total effective volume of about 6000 lts capacity and having the capacity to hold all waste water discharged in a day will be constructed underground to maintain gravity flow. This is more than adequate for the plant and will give it a very good flexibility to operate the effluent treatment system once in a day.

12 The effluent will then be pumped to a reaction tank where alum, lime and polyelectrolyte will be added. The liquid content in the tank will be mixed by means of electric mixer. After mixing, effluent will be pumped in the settling tanks. The suspended solids will settle down in this conical hopper type chamber and the clear treated water will overflow and will be used for horticulture within the plant area. Part of the treated water will also be used as make up water for the scrubber system for washing of flue gas from the incinerator. The treated effluent quality will comply with the requirements of Pollution Control Board. The sludge generated will be taken off the reaction tank from the bottom and will be pumped to the sludge filter press to make the semi dry cake form. The filtrate of the sludge thickener will be again collected in the equalization tank Effluent Treatment Plant (ETP) The effluent treatment plants consist of the following units : Screening and Oil and grease chamber: Number : One Capacity : 1000 Lt. MOC : Brick masonry with smooth surface Equalization Tank: Number : One Capacity : Lt. MOC : Brick masonry with smooth surface Reaction Tank: Number : One Capacity : 2500 Lt. MOC : HDPE Settling Tank: Number : One Capacity : 5000 Lt.

13 MOC : HDPE Feeding Pump: Capacity : 2000 Lt./hr MOC : SS H.P. : 1 H.P. Dosing Tanks Number : Three (HDPE) Capacity : 50 Lt. each Sludge Pumps: Capacity : 1000 Lt./hr MOC : SS H.P. : 1 H.P. Filter Press Number : One Capacity : 16 Plates of 18 x 18 inches. MOC : Cast Iron 2.8 Air Pollution Control System (APCS) It will be for final flue gasses trapping. The unit will further bring down the pollution level in emission within specified limits set out by the Pollution Control Board. The venturi scrubber and droplet separator shall be provided as one unit. A lean concentration of NaOH Solution and water will be used to neutralize the flue gasses/solutions CONSTRUCTIONAL FEATURES OF ROTARY KILN INCINERATOR Main Combustion Chamber/Primary Chamber This will be fabricated out of Mild Steel confirming to IS and will be refractory lined from inside with refractory castable backed by insulation castable. It will be equipped with automatic waste feeding system, ash removal system and rotary type which will not require waste raking. In this model, the primary chamber will keep rotating at a low sped to ensure excellent quality of incineration. The chamber will have a slight inclination that ensures continuous and automatic evacuation of ash. The primary chamber will be provided with

14 automatic burners to control and maintain temperature deg C. Higher temperature will be attained by adjusting the temperature through Digital Temperature Controller provided on the control panel. The chamber refractories are suitable to withstand temperature upto 1400 deg. C and the burners will be installed accordingly. The primary chamber will be complete with Gearbox drive mechanism and structure supports Post Combustion Chamber/Secondary Chamber This will also be fabricated out of Mild Steel confirming to IS 2062 and refractory lined from inside with refractory bricks confirming to IS-8 and IS This will be equipped with automatic burner. A temperature indicating controller will be provided, which will be connected to the control panel. The operating temperature will be deg. C. The secondary chamber will be so designed so as to ensure a minimum 1 second residence time to gas flow Electrical Control Panel The control panel supplied with the incinerator will be placed separately. It will consist of PLC along with display unit. A printer will be provided which will be connected to the display unit to take recording of critical parameters on a regular basis. The display unit will automatically and continuously monitor and record date, time, batch number and operating parameters such as temperature in both the chambers. The panel will be duly powder coated. It will house the primary and secondary burner controls, all the temperature controllers, motors starters, isolator switches, overload relays for burners and fans and audio-visual alarms for abnormal workings. All electrical power, earth and control cabling from the control panel to the individual drives and components will be provided by us. The control panel will be pre-wired Quencher Hot gases will be cooled to near the saturation level in the quenching system. If not cooled, the hot gas stream will evaporate a large portion of the scrubbing liquor, adversely affecting collection efficiency and damaging scrubber internal parts. If the gases entering the scrubber are too hot, some liquid droplets may evaporate before they have a chance to contact pollutants in the exhaust stream, and others may evaporate after contact, causing captured particles to become re-entrained. Cooling the gases will reduce the temperature and therefore, the volume of gases, increases the overall efficiency of the Air Pollution Control Devices in the incinerator Venturi Scrubber The flue gases from the secondary chamber will then be sent to venturi scrubber. Venturi scrubber is high-energy device (minimum pressure drop of 350mmWC) fabricated out of Stainless Steel SS 316L Grade where particulate matter as well as acidic pollutants are scrubbed. Here the acidic gases will be removed by absorption with caustic soda and the particulates by the inertial impaction energy. A high-pressure drop across the venturi scrubber, will impart sufficiently high energy, which will help in atomizing the scrubbing

15 liquid and thus trapping the particulates. 5% caustic solution will be used as scrubbing liquid to neutralize the SO2 present in flue gases. The temperature of the flue gas at the outlet of the venturi scrubber will be approx C to ensure the saturation of the flue gas. The scrubbing medium will be ltrs/m3 of saturated flue gas at venture outlet. This will be done using a pump & piping made of Stainless Steel -316 grade Droplet Separator cum Re-circulation Tank The flue gases will then enter tangentially into the droplet separator, which will be of cyclonic type. By the action of centrifugal force, the larger droplets present in flue gases will settle down. The droplet separator will be manufactured out of Mild Steel Rubber lined. A Mild Steel Rubber lined water re-circulation tank of suitable capacity will be provided Mist Eliminator Mist eliminator will be provided manufactured of Mild Steel of 10mm thickness with 3mm rubber lining and gas cleaning media. 2.9 Power Requirement The power requirement of the plant will be 62.2 KW which will include the misc. plant operation load. To provide backup a DG set of 125 KVA will be provided. A table showing the break-up of load is shown below: 2.10 Transportation Vehicle- Specification A fleet of 14 dedicated vehicles designed as per the specification and guidelines of CPCB/ DPCC Separate cabins for driver/staff and the bio medical waste. The inner surface of the waste cabin will be smooth to minimize water retention, easy to wash and disinfect. The waste cabin will have provision for sufficient opening from rear side so that BMW can be easily loaded and unloaded. Each vehicle will be fabricated so as to carry BMW without any spillage, leakage and meeting the other statutory requirements. The vehicles will be properly labelled with the symbol of Biohazard as per schedule III of the Rules and will display the name, address and telephone number of the Company. The vehicles will be provided with the first aid kit to handle emergency situations. Vehicles will be equipped with communication equipment s and safety gadgets.

16 Apart from above, the GPS Tracking system will be installed in vehicles to monitor the movement of vehicles Washing Facility for Vehicle/Containers A separate area will be provided for washing of vehicles/containers. The floor will be smooth and impermeable so that liquid does not percolate into the ground. The liquid generated out of washing of vehicles and containers will be collected and treated in an Effluent Treatment Plant. The impermeable area will be of appropriate size so as to avoid to spillage of liquid during washing Sharp Pit/Encapsulation Encapsulation is the best method for the safe disposal of sharps. Needles/syringes will be mixed with rich cement and aggregate to make homogeneous mix to form concrete blocks of higher strength. M.S frames will be provided to make these blocks for smooth outer finish Waste Storage Area Main waste storage room will be provided near the entry of the Common Bio Medical Waste Treatment Facility to unload and store all the Bio Medical Waste that will be transported to the facility by vehicles. The Size of the room will be adequate to store all wastes transported to the CBWTF. The front portion of the room will be utilized for unloading the wastes from the vehicle and back or side portion shall be utilized for shifting the wastes to the respective treatment equipment. The area in front of the room will be made impermeable so that any liquid spilled during unloading does not percolate into the ground. The liquid, if any, generated during handling of waste and washing, shall be diverted to the inlet of ETP. In the main waste storage room, waste shall be stacked with clear distinction as per the color coding. The main waste storage room will be well ventilated, easy to wash floors and walls and will have smooth and fine surfaces Vehicle Parking Proper parking space will be provided within the confines of the CBWTF to park all the vehicles meant for collection and transportation of Bio Medical Waste Treatment Equipment Room A separate housing will be provided for each treatment equipment at the CBWTF. Each room will have well designed roof and walls, will be properly ventilated and easy to wash. The floor and interior finishing of the room will be such that chances of sticking/harbouring of micro-organisms are minimized. Smooth and fine flooring and tiles walls will be provided to a height of 2 metres from the floor. A separate cabin will be provided to supervise the operation of the equipment and to record the waste handling and equipment operation data. Attached to each equipment room there will be two waste storage rooms, one for the storage of untreated waste and another for treated waste. Following separate treatment rooms will be provided:

17 (i) Incinerator Room (ii) Autoclave Room (iii) Shredder Room 2.16 Treated Waste Storage Room A separate room will be provided for the storage of treated waste. The waste shall be stored in separate groups as per the disposal options. This room will also be provided with smooth and fine flooring and tiles on walls. The room will be well ventilated Administrative Room An administrative room will be provided within the CBWTF for general administration, record keeping, billing and other works related to operation and maintenance of CBWTF Site Security CBWTF will be provided with proper boundary walls to prevent unauthorized access to the site by human and livestock. Security guards will be provided for day and night security of the CBWTF Sign Boards An identification board will be provided and displayed at the entrance of the facility. The board will clearly display the name of the facility, the name, address and telephone number of the Operator and prescribed authority, the hours of operation and the telephone numbers of the person to contact in the event of emergency. Apart from above, other sign boards will also be displayed inside the CBWTF indicating the different activities and areas earmarked for treatment and storage of Bio Medical Waste, etc Green Belt The open area inside the CBWTF will be provided with proper green belt. Trees and plantation will be provided. The treated water will be used for horticulture purpose Collection of Bio Medical Waste The Collection of Bio Medical Waste will be carried out in a manner so as to avoid any possible hazard to human health and environment. Each and every care will be taken to ensure that the segregated Bio Medical Waste, handed over by the Health care unit, reach CBWTF without any damage, spillage and unauthorized access by public or animals etc. The Bio Medical Waste will be collected by our dedicated vehicles. The collection staff will collect the BMW from endpoint of healthcare units on daily basis and sign the Record Book to be maintained by the Healthcare unit in acknowledgement of waste collected. Our collection staff will not accept the non-segregated waste and such incident will be reported to the prescribed authority. The color coded bags handed over by the healthcare unit will be

18 collected by our staff in color coded containers. Sharps will be collected separately in puncture proof containers. All the collection staff will be equipped with protective gears for handling of Bio Medical Waste Transportation of Bio Medical Waste The bio Medical Waste collected will be transported to CBWTF in a fully covered specially designated vehicle. The vehicle will be designed as per the guidelines of CPCB. - Separate cabins will be provided for driver/staff and the bio medical waste cabin. - The base of the waste cabin will be leak proof and will be easy to wash and disinfect. - The inner surface of the waste cabin will be made of smooth surface to minimize water retention. - The vehicle will be properly labelled with the symbol of Biohazard as per schedule III of the Rules and will display the name, address and telephone number of the Company. - The waste cabin will have provision for sufficient opening from rear side so that Bio Medical Waste can be easily loaded and unloaded. - The vehicles will be provided with the first aid kit to handle emergency situations. - Mobile phones will be given at all the vehicles for effective supervision and monitoring the collection and transportation work Disposal of Treated Bio Medical Waste The treated bio medical waste will be disposed as under: Plastic waste after disinfection and shredding will be handed over to authorized plastic waste recycler. Disinfected sharps will be encapsulated on site. An ash pit will be provided inside the CBWTF for storage of Incineration ash. Ash pit will be non-leachate and will be covered properly to avoid any rain water entry. If available, the ash will be sent to TSDF site or secured landfill as specified by the prescribed authority. Oil and grease will be incinerated. Treated water will be used for gardening purpose Records of Waste Movements: Daily records will be maintained for the waste accepted and treated waste removed from the site. This record shall include the following minimum details:

19 Waste Accepted: - Records on day-to-day basis shall be maintained with respect to the waste collection date, name of the healthcare unit with bar cade, waste category as per BMW Rules, category-wise quantity of waste accepted, vehicle registration number used for collection of bio-medical waste from member health care facilities, time at which waste collected from member HCFs, name of the vehicle driver and his signature and waste receiving date & time (at CBWTF site). Similar information to be acknowledged 15 to the member health care facility by the CBWTF operator on daily basis. (b) Treated Waste Removed:- Date, treated waste Treated Waste Removed:- Date, treated waste type, Quantity, vehicle number and location of disposal. Logbook for the Treatment Equipment: A logbook will be maintained for each treatment equipment installed at the site and shall include the following: (a) The weight of each batch (b) The categories of waste as per the Rules. (c) The time, date and duration of each treatment cycle and total hours of operations. (d) The complete details of all operational parameters during each cycle. Log book to be maintained for operating the incinerator as well as the autoclave

20 3 Land Details The site is located in Mundka, Udhyog Nagar, Delhi and the land is a part of an Industrial area. Land area for unit is sqm. The Built-up area of the site is around 750 sqm. The topographical map is given in the Annexure II. 4 Project Schedule & Cost Estimates 4.1 Installation Plan Project Implementation Plan with Time Schedule Description of work Power connections Completion Period 15 days D. G. Set 15 days Placement of order for Plant & Machinery Land development Order for Transportation vehicles Civil Work Erection and cabling, wiring etc. Receipt of Plant & Machinery Receipt of vehicles Trial Runs Commercial Run 1 month 1 month 1 month 1 month 1.5 month 2 month 2 month 2.5 months 3 months

21 4.2 Estimated cost of project Fig. In lacs Land 21 (p.a) on Lease Plant & machinery Other fixed assests 5.00 Building & Working Shed Furniture & Fixtures 2.00 Total (Rs) Project Benefits 5.1 OUR MISSION To be environment conscious with superior and efficient services To be a reputed, service oriented and growing company To be determined to employ people who take pride in satisfying customer needs To manage bio medical waste effectively and successfully for safe and healthy environment 5.2 OUR PROMISE With utmost respect to Human Values we promise to serve our customer with integrity through complete Bio-Medical Waste Management Solutions, value for money product and services by being environment conscious day after day. We have already seen the hazards posed by the mishandling of Bio Medical Waste. It is generated primarily from health care establishments and is a relatively recent issue and there are a lot of gaps in information the management of Bio-medical waste is still in its infancy all over the world. Management of waste presupposes scientific approach to the process of waste generation, storage, transportation, treatment and its disposal. This arduous task can only be achieved by the synergistic efforts of the health care establishments, Government health department, Pollution Control Boards and service provider for Bio-Medical Waste Management. It is then that we can build a pollution free environment & planet Earth a better place to live in. 5.3 CONCLUSION We all have already seen the hazards posed by the mishandling of Bio Medical Waste. It is generated primarily from health care establishments and is a relatively recent issue and

22 there are a lot of gaps in information. The management of Bio-Medical Waste is still in its infancy all over the world. Management of waste presupposes scientific approach to the process of waste generation, storage, transportation, treatment and its disposal. This arduous task can only be achieved by the synergistic efforts of the health care establishments, Government health department, Pollution Control Boards and Service Provider for Bio-Medical Waste Management. It is then that we can build a pollution free environment & planet Earth a better place to live in.

23 Annexure I (Layout Plan)

24 LAYOUT PLAN 144 Feet N Feet Legends 1. OFFICE 2. ACCOUNTS SECTION 3. STORES 4. D.G SET 5. WASTE STORAGE ROOMS 6. AUTOCLAVE SECTION & BABY BOILER 7. ROTARY KILN INCINERATOR 8. SHREDDER ROOM 9. ETP 10. VEHICLE WASHING AREA 11. ASH STORAGE AREA 12. STAFF ROOM 13. GREEN BELT 14. CHIMNEY 15. MAIN GATE 16. GUARD ROOM 1

25 Annexure II (Topographical map)

26