PROJECT FEASIBILITY REPORT FOR COMMON BIOMEDICAL...
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M/s BMW Solutions PROJECT FEASIBILITY REPORT FOR COMMON BIOMEDICAL WASTE TREATMENT FACILITY Proposed By M/s BMW Solutions ( Dr Hemant Mittal) At Village- Ratua Ratanpur , Tehsil- Berasia Dist-Bhopal (MP )
Transcript of PROJECT FEASIBILITY REPORT FOR COMMON BIOMEDICAL...
M/s BMW Solutions
PROJECT FEASIBILITY REPORT
FOR
COMMON BIOMEDICAL WASTE
TREATMENT FACILITY
Proposed By
M/s BMW Solutions
( Dr Hemant Mittal)
At
Village- Ratua Ratanpur , Tehsil- Berasia
Dist-Bhopal (MP )
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1. Identification of project and project proponent
M/s. BMW Solution proposes Common Bio Medical Waste Treatment Facility in the
dist of Bhopal. The Proposed project of addition of CBWTF as a part of the Common
Hazardous Waste Treatment, Storage and Disposal facilities (TSDFs) of falls under
Category B, schedule 7(da) as per the EIA notification 14th Sep, 2006 and
subsequent amendments dated 1st December, 2009 & 17th April, 2015. The setting
up of CBWTF attracts the recent directions of National Green Tribunal dated 28th
November, 2013 making Environmental Clearance from MoEF&CC mandatory.
M/s BMW Solutions is a proprietorship organization and owned by Dr Hemant Mittal
having office at 61, Thana Road, Shahjahanbad, Bhopal (MP)
2. Brief Description of Nature of The Project
A Common Bio-medical Waste Treatment Facility (CBWTF) is a set up where bio-
medical waste, generated from a number of healthcare units, is suitably treated to
reduce adverse effects that this waste may pose. The treated waste may finally be sent
for disposal in a secured landfill or for recycling purposes.
Proposed project of setting up of the Common Bio-medical Waste Treatment Facility
for treatment of 250 kg per hour rotary kiln based bio medical incineration
project , includes Incinerator, Autoclave, Shredder, Storage and Effluent Treatment
Facility. Following will be the capacity of the facility :
Sl.
No. Equipment
Number Installed Capacity
1 Rotary Kiln 01 250 kg per hr
2 Autoclave 02 1.5 m3
3 Shredder 01 120 kg per hour
4 Effluent Treatment Plant 01 10 KLD
3. Need for the project and its importance to the country and or region
Ministry of Environment, Forests & Climate Change (MoEF & CC), Govt. of India has
notified the Bio-Medical Waste Management Rules 2016. In accordance to the rule,
every occupier of a Health Care Establishment (HCE shall either set up requisite bio-
medical waste treatment facilities on site or ensure requisite treatment of the bio-
medical waste at an approved Common Biomedical Waste Treatment Facility. No
untreated bio-medical waste shall be kept stored beyond a period of 48 hours.
Keeping in view the difficulties faced by private Hospitals, Nursing Homes and Clinics
that cannot make their own arrangements due to high cost involved in Treatment
facilities, there was need for centralized system for treatment. Most of the tribal
villages have very poor transportation and communication infrastructure. Most of the
hospitals do not have adequate arrangement for disposal of the hospital waste.
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A Common Biomedical Waste Treatment Facility (CBWTF) is now proposed to be set
up by where bio-medical waste, generated from a number of healthcare units, will be
suitably treated to reduce adverse effects that this waste may pose. The Bio-medical
Waste (Management & Handling) Rules, provides an option to the Bio-medical waste
generators to get the biomedical waste treated and disposed at the secured landfills.
The objective for the proposed project is to Establish an Integrated Common Bio-
medical Waste Treatment facility including the Incinerator, autoclave, shredder and
effluent treatment unit.
Collection of Segregated Biomedical waste and its transportation, storage, treatment and disposal in accordance to the Bio medical Waste Management Rules 2016.
Compliances with statutory and environmental norms.
Develop concise waste management principles.
Introduce a continuing waste management education program for all staff to increase awareness of Occupational Health & Safety issues and waste minimization principles.
Adopt policies and procedures to minimize the environmental impacts of waste treatment and disposal.
Reporting to regulatory authorities as needed.
4. Demand –Supply Gap
As per the guideline, one CBWTF facility will cover 150 km area and 10000 beds.
However as per the record available, there is one common facility at Govindpura
Industrial area, Bhopal (MP). Considering the number of nursing home and hospitals
with beds, the existing facility is not able to meet the requirement of the city.
There area around 2853 HCF’s in MP state. The estimated quantity of BMW generated
in MP is around 9409 kg/day.
Following are the data available for the State of MP
Total no. of healthcare facilities (HCFs) 2853
Total no. of beds ( approx) 71417
No of common biomedical waste treatment facilities (CBWTFs)/private agencies
Operational 15
Under construction Nil
No. of HCFs utilizing CBWTFs/private
agencies
2793
No. of HCFs having own treatment and
disposal facilities
60
No. of HCFs applied for authorization 2853
No. of HCFs granted authorization INP
Total no of onsite treatment equipment ( Excluding CBWTFs) installed by HCFs
Incinerator with APCD 02
Incinerator without APCD 0
Autocalve 163
Microwave 0
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Hydroclave 0
Shredder 572
Total no of equipment installed at
CBWTFs
15
Following are the data available for the district of Bhopal
Location Number of
Nursing Home
Number of
Hospitals
Total number
of Beds
Estimated waste
quantity in kg
150 KM Approx. 200 100 10000 5000
Hence the project will cover 150 km area with 10000 number of beds.
5 Imports vs. Indigenous production
No imports for production have been proposed for the project.
6 Export possibility
The project is a common treatment facility for safe disposal of biomedical waste. No
export possibility is envisaged.
7 Domestic/export markets
Not envisaged.
8 Employment generation (direct and indirect) due to the project
During Construction phase the labors and workers will be hired from nearby villages.
Total 40 numbers of persons are proposed to hired for Plant operations and
transportation including staff, skilled and unskilled workers.
9 Project Description
Types of project: A Common Bio-medical Waste Treatment Facility (CBWTF) is
required for the treatment of the biomedical waste generated from a number of
healthcare units to reduce adverse effects that this waste may pose. Proposed project
of setting up for treatment of 250 kg per hour rotary kiln based bio medical
incineration project which also includes Incinerator, Autoclave, Shredder, Storage
and Effluent Treatment Plant.
1. Location of the Project
District/State Taluka Village Khasara No Area in acres
Bhopal (MP) Huzur Rauta 218/1/2/1 = 0.237 ha 218/2/1 = 0.237 ha
0.474 acres
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Ratanpur
Railway line:
Sukhi Sewaniya Railway station is the closest railway station which is approx. 15.75 km in SE direction from site.
Roadways:
Road ways: The site is proposed in the dist of Bhopal and well connected through road network. The nearest SH-23 road is 0.250 km from the site.
Airways:
The closest air terminal is the Bhopal Airport which is 20.50 km at S direction from
the Site.
2. Details of alternate site: The proposed projects have no alternative site. As the site is
identified to cover good range of medical facilities in the major cities of the state
Parameters Criteria Observation
Lake of Pond ( Distance from SW body)
Should not be within 200 mt
No lake of pond is located within 200 mt from the site The nearest water boy is Rivre Chamari at 2.80 km
River Should not be within 100 mt
The nearest water boy is Rivre Chamari at 2.80 km
Flood Plain Should not be within 100 mt of flood plain
Not in a flood plain
Highway State or national Should not be within 500 mt
No national highway qithin 500 mt. The state highway- 23 Bhopa- Bairasia is 250 mt from the site
Habitation – Notified Habituated area
Should not be within 500 mt
Nearest notifed habitation is Ratua Ratanpur at 1.25km in NE direction
Public Park Should not be within 500 mt`
No public park within 500 mt
Critical Habitat area in which one or more
endangered species alive
Not suitable There is no endangered spices in the site.
3. Size or magnitude of operation:
The proposed facility is extended up to 1.17 acre (0.474 ha) land. The total cost of the project is Rs.2.20 Cr. The following are the proposed equipment’s to be installed in the plant. Bio Medical waste quantity is required 1MT to 6 MT per day for operation of the project.
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Sl.
No. Equipment
Number Installed Capacity
1 Rotary Kiln 01 250kg per hr
2 Autoclave 02 1.5 m3 double chamber LOG-4
3 Shredder 01 120 kg per hour
4 Effluent Treatment Plant 01 10 KLD
5 Project Description With Process Details:
List of Major Plant & Machineries
Rotary Kiln –Incinerator –Multiple Chamber
Air Pollution Control Device
Chimney
Steam Based Bio Medical Autoclave
Bio Medical Shredder
Hypochloride Washer
Centrifugal Liquid Filter
Effluent Treatment Plant
Transport NG Vehicle
Wheel Barrows
Plastic containers
Components of Integrated Bio-Medical Waste Management
An integrated waste management system for bio-medical waste must look into various
stages of the process. These key components can be broadly classified into the
following:
Waste Segregation: Waste segregation will reduce the load of bio-medical waste and
this also minimizes the environmental impacts associated with further processing.
Waste will have to be segregated into domestic refuse, hazardous waste and infectious
waste separately.
Further the infectious waste will have to be segregated into plastics, metals, and other
infectious waste generated. Segregation is done effectively if performed at source.
CPCB has issued clear guidelines for colour coded segregation.
Waste Collection and Transport: Facility / unit have to ensure that there are no
environmental or human health impacts while collecting & transporting Bio-Medical
waste.
Treatment/ Storage/ Disposal: Treatment/ Storage and disposal of the waste have
various options available. Waste treatment can be effectively performed by two
operations running parallel to each other:
A Disinfecting Unit
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A Disinfecting unit is one that will effectively kill all the microorganisms. Autoclaving,
Microwaving, Hydroclaving and Chemical disinfection processes are the most
prevalent technologies used for disinfection of pathogens from the bio-medical waste.
Autoclave used for the purpose of bio-medical waste management is expected to be
dedicated for the purpose and is expected to operate under standards specified by
CPCB. Medical Waste shall not be considered treated unless the time, temperature
and pressure indicated in the standards are reached (for eg. 1210 C, 15 psi for 1 hour
for normal autoclave).
Microwave and Hydroclave disinfection units are similar in application to that of an
autoclave. Microwave technology cannot be applied for cytotoxins, hazardous or
radioactive waste, contaminated animal carcasses, body parts and large metal items.
Microwave should completely and consistently kill the bacteria and other
microorganisms.
Chemical disinfection is a process of disinfection wherein chemical disinfectants like
chlorine and its derivatives or their disinfectants are used in a closed process to attain
complete killing of the pathogens.
A Destruction Unit
A Destruction unit is one that will completely destroy the waste into safe end
products. High temperature incinerators are used to achieve this. Incineration is a
process by which combustible materials are burnt, producing combustion gases and
non-combustible residue and ash. The combustible gases are vented into the air after
treatment through air pollution control devices. Ash and other non combustible
residue remain after the destruction/ incineration process is disposed off securely into
a landfill site.
Waste Storage
Waste Storage is an applicable option for effective storage of certain hazardous waste
like mercury and cytotoxins that do not have a cost-effective treatment technology as
yet. Waste Disposal is primary performed by deep burial of waste into secure landfills.
Waste disposal
Waste disposal is an option which remains to exist irrespective of the treatment
options, in case of disinfection waste material post-disinfection needs to be land filled
and in case of incineration the non combustible residue and ash needs to be disposed
off into a landfill and thus landfill remains to be an integral part of an integrated bio-
medical waste management facility.
Process Description
M/s BMW solutions proposes to establish an Integrated Common Bio-medical Waste
Treatment Facility includes Incinerator, Autoclave, Shredder and Effluent Treatment
Plant.
Treatment Technology
Incineration through rotary kiln
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This is a high temperature thermal process employing combustion of the waste under
controlled condition for converting it into inert material and gases. Incinerators can be
oil fired or electrically powered or a combination of both. Broadly, three types of
incinerators are used for biomedical waste: multiple hearth type, rotary kiln and
controlled air types. All the types have primary and secondary combustion chambers
to ensure optimal combustion. These are refractory lined.
Rotary kiln : burning of bio medical waste at 800 c° to 950 °c de grading of organic
Secondary chamber : re burning of flue gas up to 1050 °c -1200°c de gradeing of in
organic
Gas dilution chamber : reduce the concentration and temprature of thermal treated
flue gas
Fly ash control device : high temperature bag filter to prevent fly ash from thermal
treated gas
Ventury : high pressure ejector venturi unit for liqid quenching treatment of thermal
treated exhaust gas
Flue gas treatment media tank : 6kl 5-7% NAOH water tank lined with isothalic FRP
with high pressure pumping unit
Mist eliminator : post quenching and filtering of exhaust gas and seprat mist from
gas ( de misting )
Id fan : high capacity ID fan for sucking the high quantity of negative
pressure generating the whole unit
Gas ducting ; containing passage of gases
Chimany : discharge the treated gas from the machine to 35 mtr above from ground
level
Specification Of Rotary Kiln
1) Capacity 250 KH Per Hour
2) Type ` Cylindrical Horizontal ( Solid Waste Feeding)
3) Inclination 2.5°
4) Revolution (Rpm) .2 To 1rpm(Vfd)
5) Volume 12.4m³
6) Moc (Shell) Sa 516 Gr70-30 20mm Thk
7) Chamber Pressure 10-20mm Wc
8) Travel Speed 6.02mtr/ Hr
9) Refractory Thick 12 Inch
10) Grith Gear Moc En 19 Forged 8 Module Spur Gear Type
11) Drive Gear Box Elecon / Reputed Company Make
12) Gear Box Ratio 1:60 Ratio Foot Mounted 22nm
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13) Drive Motor 20 Hp Simense Make 3 Ph Class S4 Duety
Induction Motor
14) Inner Diameter Of Kiln 1600mm
15) Inner Length Of Kiln 6200mm
16) Tyre Wheel 250wide 2 Set
17) Flue Gas Velocity 1.3mtr / Sec
18) Ash And Resudes Sepration Ash Seprator With Hot Ash Removel
Screw Convayor
19) Gas Leakage Privention Unit High Pressure Airsealing For Privent
Flue Gas Leakage
20) Back Pressure Privention From
Charging Door Compressed Door Mechanisum
21) Explosion Safety Explotion Davit Arrangement (Internal)
22) Waster Loading Mechanisum Bucket Elevator With Hoper
23) Waste Reciving From Kiln Side Hoper Unit With Saftey Door
24) Waste Feeding Mechanisum Hydralic Ram And Pusher
25) Hydralic Unit 10hp With Power Pack
26) Rotary Air Lock Valve 6 Inch Nb
27) Nature / Category Of Waste Incinerable Bio- Medical Waste With
Maximum 85% Moisture Content.
28) Source Of Energy Diesel
29) Fuel Burner’s Fully Automatic Burners (Oil Or Gas burner)
30) Heat Loss Fraction 0.05
31) Combustion Efficiency At Least 99 %.
32) Design Temperature 1400 0c
33) Preheating Time Maximum One Hour.
34) Temperature In Primary Chamber 800 + 50 0 C.
35) O2 Content In Primary Chamber 6 %.
Post Gas Combustion Chamber
1) Type `Cylindrical Statical
2) Inclination Vertical 90°
3) Volume 7.6m³
4) Moc (Shell) Sa 516 Gr70-30 12mm Thk
5) Chamber Pressure 10-20mm Wc
6) Refractory Thick 12 Inch
7) Inner Sizeof Chamber 1250mm
8) Inner Length Of Chamber 6200mm
9) Tyre Wheel 250wide 2 Set
10) Flue Gas Velocity 1.9 Mtr / Sec
11) Ash And Residues Separation Ash Separator With Hot Ash Removal Screw
Conveyor
12) Gas Leakage Prevention Unit High Pressure Airsealing For Privent Flue Gas
Leakage
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13) Explosion Safety Explosion Davit Arrangement (Internal) Top
With Counter Weight Linked With Plc Control
14) Retention Time Of Flue 2To2.2Second.
Gases In Chamber
Post Gas Combustion Chamber
1) Type ` Cylindrical L Type
2) Vessel Orientation 180° Horizontal-90° Vertical
3) Volume 8.3m³
4) MoC (Shell) SA 516 Gr70-30 8mm THK
5) Chamber Pressure 10-20mm WC
6) Refractory Thick 12 Inch
7) Inner Diameter 1200mm
8) Inner Length 6200mm
9) Fresh Air Source Forced Air Fan
10) Flue Gas Velocity 1.9 Mtr / Sec
11) Ash Separation 10microne High Temperature Bag Filter Unit
12) Bag Filter Cleaning Pulse Jet Compressed Air
13) Explosion Safety Explosion Davit Arrangement At Post Gas Burning
Chamber (Internal)
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Air Pollution Control System (APC)
The gases after being burnt at 1050oC shall be run into a ventury scrubber followed by
a flooded scrubber with water quenching arrangement. The scrubber shall be an
alkaline scrubber to neutralize the gases and ensure trapping of any pollutants
escaping into the environment. The purpose of water quenching is to reduce the
temperature of the gases which are at high temperature. The clean gases are let out
into the environment. The scrubbed water shall be collected into a sump, where the
water is neutralized, and then sent into a cooling tower from where the water is
recirculated into the scrubber after cleaning them of their particulates by way of
pressure sand filter and activated carbon filter. The system is thus a zero discharge
system in terms of water discharges and is pollution free.
The high pressure Venturi scrubbing system shall be retrofitted to the incinerator.
This Air Pollution Control device takes care of the flue gases exiting from the dilution
chamber which shall pass through the scrubbing system where water and 5% caustic
soda solution is sprayed on the flue gases by S.S. nozzles at a very high pressure. The
Venturi Scrubber shall be High Pressure Type manufactured from S.S. 316L sheet.
The system shall have Venturi nozzles made from S.S. 316L. The pressure drop in
system shall be 350 mm WC and scrubbing media circulation rate 3000 LPH. Outlet
temperature of the flue gases shall be around 85 to 95 0C. The complete accessories
like valves, fittings shall also be provided. Centrifugal type re-circulation pump of
suitable size. Casing and Impellor of the pump shall be manufactured from stainless
steel / HDPE. In addition to it a dosing pump unit shall be retrofitted to maintain the
PH value of the scrubbing media.
Droplet Separator : A sprat Tower Scrubber shall also be provided which is fitted
(Mist eliminator) with the Venturi Scrubber to separate the water droplets from the flue
gases. It shall be manufactured from mild steel internally FRP lined material and shall
have the de-mister pad which separates the water droplets. The flue gases existing
from the Venturi scrubbing system shall travel through the droplet separator where
they shall be again mix up with the water for more cooling. It shall be Cyclonic Static
type with tangential entry to remove carry over water / drops. Water droplets usually
are carried off by the gas stream exiting the scrubber known as a white plume. A mist
eliminator is a stationary piece of equipment that removes most of the entrained water
droplets from the gas and will reduce the moisture collected at the induced draft fan
and other down stream equipment. The temperature shall be maintained between 85-
90 0C at the exit.
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Feeding of Waste
The feeding of the waste to the rotary kiln chamber is done automatically by
Electrically motorized operated waste Charging elevator. The packed waste is loaded
in the hopper type waste ram pusher and pressing of the switch moves the waste into
the rotary kiln burning chamber this eases in charging the waste and thus safety of
operator. The bucket type elevator waste charging unit is so designed to load waste
from the waste collection room
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Stack Height: Minimum stack height shall be 30 meters above the ground and shall
be attached with the necessary monitoring facilities as per requirement of monitoring
of „general parameters‟ as notified under the Environment (Protection) Act, 1986 and
in accordance with the Central Pollution Control Board Guidelines of Emission
Regulation Part-III.
1. Base Diameter 1300mm
2. Top Diameter 550mm
3. Type Conical Self Supported (Msrl),Mild Steel Internal Rubber Lined Chimney.
4. The internal hard rubber lined chimney is manufactured from Mild Steel pipes of 350
mm dia. and minimum thickness of 5 mm. With a conical bottom of 1300 mm dia.
and the height of chimney shall be 30 Meters. Caged ladder, Gas sampling Platform ,
Gas sampling nozzle, top platform, Aviation lamp assembly with cable , Lightning
arrester with jumpers ,Rain cowl , Bottom manhole , Chimney Drain , Base plate with
compression Ring and stiffness ,Chimney Base template for foundation casting (R C C
) , Foundation bolts , Hardware’s, The RCC foundation for the chimney shall be in
your scope of work.
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Autoclave
An autoclave is a specialized piece of equipment designed to deliver 1210 0C
temperature under 15 psi pressures to a chamber, with the goal of decontaminating or
sterilizing the contents of the chamber. Decontamination is the reduction of
contamination to a level where it is no longer a hazard to people or the environment.
The project proponent intends to establish an autoclave with above principle. To
ensure safety and quality control, all bio-hazardous materials and items contaminated
with potentially infectious agents should be decontaminated before use or disposal.
Such items include, but are not limited to: culture media, surgical instruments,
laboratory equipment, glassware, and biomedical waste including sharps.
Shredder
Shredding is a process by which waste are de-shaped or cut into smaller pieces so as
to make the waste unrecognizable. Shredder has non- corrosive sharp blades capable
for shredding of plastic waste, sharps, bottles, needles, tubings, and other general
waste. The low speed two shaft systems is effective for shredding hard and solid waste.
The dis-infected waste shall then be segregated into HDPE, PP, rubber, latex, glass
and metal. The segregated materials shall then be shredded completing the process of
dis-infection and ensuring non-recycling of the waste materials for medical/ food
grade purposes.
Waste Treatment and Disposal Scheme
Depending on the category/nature of the waste the following treatment and disposal method are employed according to Bio-Medical Waste Management Rules 2016.
Category Type of Waste Type of Bag or Container to be used
Treatment and Disposal options
Yellow a) Human Anatomical Waste: Human tissues, organs, body parts and fetus below the viability period (as per the Medical Termination of
Pregnancy Act 1971, amended from time to time).
Yellow coloured non chlorinated plastic bags
Incineration or Plasma Pyrolysis or deep burial*
(b)Animal Anatomical Waste : Experimental animal carcasses, body parts, organs, tissues, including the waste generated from animals used in experiments or
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testing in veterinary hospitals or colleges or animal houses.
(c) Soiled Waste: Items contaminated with blood, body fluids like dressings, plaster casts, cotton swabs and bags containing residual or discarded blood and blood components
Incineration/ deep burial*or Plasma Pyrolysis Or In absence of above facilities, Autoclaving or micro-waving/ hydroclaving followed by shredding or mutilation or combination of sterilization and shredding.
(d) Expired or Discarded Medicines: Pharmaceutical waste like antibiotics, cytotoxic drugs including all items contaminated with cytotoxic drugs along with glass or plastic ampoules, vials
Yellow coloured non-chlorinated plastic bags or containers
Expired `cytotoxic drugs and items contaminated with cytotoxic drugs to be returned back to the manufacturer or supplier for incineration at temperature >1200 0C or to common bio-medical waste treatment facility or hazardous waste treatment, storage and disposal facility for incineration at >12000C Or Encapsulation or Plasma Pyrolysis at >12000C. All other discarded medicines shall be either sent back to manufacturer or disposed by incineration..
(e) Chemical Waste: Chemicals used in production of biological and used or discarded
disinfectants.
Yellow coloured containers or non-chlorinated plastic bags
Disposed of by incineration or Plasma Pyrolysis or Encapsulation in hazardous waste
treatment, storage and disposal facility.
(f) Chemical Liquid Waste : Liquid waste generated due to use of chemicals in production of biological and used or discarded disinfectants, Silver X-ray film developing liquid, discarded Formalin,
Separate collection system leading to effluent treatment system
After resource recovery, the chemical liquid waste shall be pre-treated before mixing with other wastewater. The combined discharge shall conform to the discharge norms given in Schedule- III.
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infected secretions, aspirated body fluids, liquid from laboratories and floor washings, cleaning, house-keeping and disinfecting activities etc
g) Discarded linen, mattresses, beddings contaminated with blood or body fluid.
Non-chlorinated yellow plastic bags or suitable packing material
Non- chlorinated chemical disinfection followed by incineration or Plasma Pyrolysis or for energy recovery. In absence of above
facilities, shredding or mutilation or combination of sterilization and shredding. Treated waste to be sent for energy recovery or incineration or Plazma Pyrolysis.
(h) Microbiology, Biotechnology and other clinical laboratory waste: Blood bags, Laboratory cultures, stocks or specimens of microorganisms, live or attenuated vaccines, human and animal cell cultures used in research, industrial laboratories, production of biological, residual toxins, dishes and devices used for cultures.
Autoclave safe plastic bags or containers
Pre-treat to sterilize with non-chlorinated chemicals on-site as per National AIDS Control Organisation or World Health Organisation guidelines thereafter for Incineration.
Red Contaminated Waste (Recyclable)
(a) Wastes generated from disposable items such as tubing, bottles, intravenous tubes and sets, catheters, urine bags, syringes (without needles and fixed needle syringes) and vaccutainers with their needles cut) and gloves.
Red coloured non-chlorinated
plastic bags or containers
Autoclaving or micro-waving/ hydroclaving
followed by shredding or mutilation or combination of sterilization and shredding. Treated waste to be sent to registered or authorized recyclers or for energy recovery or plastics to diesel or fuel oil or for road making, whichever is possible. Plastic waste should not be sent to landfill sites.
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White (Translucent)
Waste sharps including Metals: Needles, syringes with fixed needles, needles from needle tip cutter or burner, scalpels, blades, or any other contaminated sharp object that may cause puncture and cuts. This includes both used, discarded and contaminated metal
sharps
Puncture proof, Leak proof, tamper proof containers
Autoclaving or Dry Heat Sterilization followed by shredding or mutilation or encapsulation in metal container or cement concrete; combination of shredding cum autoclaving; and sent for final disposal to iron foundries (having consent to operate from the State Pollution Control Boards or Pollution Control
Committees) or sanitary landfill or designated concrete waste sharp pit.
Blue (a) Glassware: Broken or discarded and contaminated glass including medicine vials and ampoules except those contaminated with cytotoxic wastes.
Cardboard boxes with blue colored marking
Disinfection (by soaking the washed glass waste after cleaning with detergent and Sodium Hypochlorite treatment) or through autoclaving or microwaving or hydroclaving and then sent for recycling.
(b) Metallic Body
Implants
Cardboard boxes with blue colored marking
Part -2
All non-chlorinated plastic bags shall be as per BIS standards prevailing Plastic Waste
Management Rules.
Chemical treatment using at least 10% Sodium Hypochlorite having 30% residual
chlorine for twenty minutes or any other equivalent chemical reagent that should
demonstrate Log104 reduction efficiency for microorganisms as given in Schedule- III.
Mutilation or shredding will be to an extent to prevent unauthorized reuse.
There will be no chemical pretreatment before incineration, except for microbiological,
lab and highly infectious waste.
Incineration ash (ash from incineration of any bio-medical waste) shall be disposed
through hazardous waste treatment, storage and disposal facility, if toxic or hazardous
constituents are present beyond the prescribed limits as given in the Hazardous Waste
(Management, Handlin and Transboundary Movement) Rules, 2008 or as revised from
time to time.
Dead Fetus below the viability period (as per the Medical Termination of Pregnancy Act
1971, amended from time to time) can be considered as human anatomical waste.
Such waste should be handed over to the operator of common bio-medical waste
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treatment and disposal facility in yellow bag with a copy of the official Medical
Termination of Pregnancy certificate from the Obstetrician or the Medical
Superintendent of hospital or healthcare establishment.
Cytotoxic drug vials shall not be handed over to unauthorised person under any
circumstances. These shall be sent back to the manufactures for necessary disposal at
a single point. As a second option, these may be sent for incineration at common bio-
medical waste treatment and disposal facility or TSDFs or plasma pyrolysis at
temperature >12000C.
Residual or discarded chemical wastes, used or discarded disinfectants and chemical
sludge can be disposed at hazardous waste treatment, storage and disposal facility. In
such case, the waste should be sent to hazardous waste treatment, storage and
disposal facility through operator of common bio-medical waste treatment and
disposal facility only.
On-site pre-treatment of laboratory waste, microbiological waste, blood samples, and
blood bags should be disinfected or sterilized as per the Guidelines of World Health
Organisation or National AIDS Control Organisation and then given to the common
bio-medical waste treatment and disposal facility.
Installation of in-house incinerator is not allowed. However in case there is no
common biomedical facility nearby, the same may be installed by the occupier after
taking authorization from the State Pollution Control Board.
Syringes should be either mutilated or needles should be cut and or stored in tamper
proof, leak proof and puncture proof containers for sharps storage. Wherever the
occupier is not linked to a disposal facility it shall be the responsibility of the occupier
to sterilize and dispose in the manner prescribed.
Bio-medical waste generated in households during healthcare activities shall be
segregated as per these rules and handed over in separate bags or containers to
municipal waste collectors. Urban Local Bodies shall have tie up with the common
bio-medical waste treatment and disposal facility to pickup this waste from the
Material Recovery Facility (MRF) or from the house hold directly, for final disposal in
the manner as prescribed in this Schedule.
1. Standards For Incineration.-
Proposed incinerators shall meet the following operating and emission standards-
A. Operating Standards
1) Combustion efficiency (CE) shall be at least 99.00%.
2) The Combustion efficiency is computed as follows:
%C02
C.E. = ----------------------- X 100
%C02 + % CO
3) The temperature of the primary chamber shall be a minimum of 8000C and the
secondary chamber shall be minimum of 10500C + or - 500C.
4) The secondary chamber gas residence time shall be at least two seconds.
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B. Emission Standards
S.No. Parameter
Standards
Limiting concentration in mg Nm3 unless
Sampling Duration in minutes, unless stated
1 Particulate matter 50 30 or 1NM3 of sample volume, whichever is more
2 Nitrogen Oxides NO NO2 expressed asNO2
400 30 for online sampling or grab sample
3 HCL 50 30 or 1NM3 of sample volume, whichever is more
4 Total Dioxins and Furans
0.1ngTEQ/Nm3 (at 11%O2)
8 hours or 5NM3 of sample volume, whichever is more
5 Hg and its compounds
0.05 2 hours or 1NM3 of sample volume, whichever is more
6 CO2 correction 12%
Note:
All standards for incineration mentioned above shall be compiled from the date of
commissioning of plant
1. Wastes to be incinerated shall not be chemically treated with any chlorinated
disinfectants.
2. Ash from incineration of biomedical waste shall be disposed of at common hazardous
waste treatment and disposal facility. However, it may be disposed of in municipal
landfill, if the toxic metals in incineration ash are within the regulatory quantities as
defined under the Hazardous Waste (Management and Handling and Transboundary
Movement) Rules, 2008 as amended from time to time.
3. Only low Sulphur fuel like Light Diesel Oil or Low Sulphur Heavy Stock or Diesel,
Compressed Natural Gas, Liquefied Natural Gas or Liquefied Petroleum Gas shall be
used as fuel in the incinerator.
4. Monitoring of the stack gaseous emissions (under optimum capacity of the incinerator)
will be done once in three months through a laboratory approved under the
Environment (Protection) Act, 1986 and record of such analysis results shall be
maintained and submitted to the prescribed authority. In case of dioxins and furans,
monitoring will be done once in a year.
5. Continuous emission monitoring system for the parameters as stipulated by State
Pollution Control Board or Pollution Control Committees in authorization and transmit
the data real time to the servers at State Pollution Control Board or Pollution Control
Committees and Central Pollution Control Board will be installed
6. All monitored values shall be corrected to 11% Oxygen on dry basis.
7. Incinerators (combustion chambers) shall be operated with such temperature,
retention time and turbulence, as to achieve Total Organic Carbon content in the slag
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and bottom ashes less than 3% or their loss on ignition shall be less than 5% of the
dry weight.
8. Combustion gas analyzer to measure CO2, CO and O2 will be installed.
Standards For Autoclaving Of Bio-Medical Waste
The autoclave should be dedicated for the purposes of disinfecting and treating bio-
medical waste.
1. When operating a vacuum autoclave, medical waste shall be subjected to a minimum
of three pre-vacuum pulses to purge the autoclave of all air. The air removed during
the pre-vacuum, cycle should be decontaminated by means of HEPA and activated
carbon filtration, steam treatment, or any other method to prevent release of
pathogen. The waste shall be subjected to the following:
2. Temperature of not less than 121°C and pressure of 15 psi per an autoclave residence
time of not less than 45 minutes; or
3. Temperature of not less than 135°C and a pressure of 31 psi for an autoclave
residence time of not less than 30 minutes;
4. Medical waste shall not be considered as properly treated unless the time,
temperature and pressure indicators indicate that the required time, temperature and
pressure were reached during the autoclave process. If for any reasons, time
temperature or pressure indicator indicates that the required temperature, pressure or
residence time was not reached, the entire load of medical waste must be autoclaved
again until the proper temperature, pressure and residence time were achieved.
5. Recording of operational parameters: Each autoclave shall have graphic or computer
recording devices which will automatically and continuously monitor and record dates,
time of day, load identification number and operating parameters throughout the
entire length of the autoclave cycle.
6. Validation test for autoclave: The validation test shall use four biological indicator
strips, one shall be used as a control and left at room temperature, and three shall be
placed in the approximate center of three containers with the waste. Personal
protective equipment (gloves, face mask and coveralls) shall be used when opening
containers for the purpose of placing the biological indicators. At least one of the
containers with a biological indicator should be placed in the most difficult location for
steam to penetrate, generally the bottom center of the waste pile. The occupier or
operator shall conduct this test three consecutive times to define the minimum
operating conditions. The temperature, pressure and residence time at which all
biological indicator vials or strips for three consecutive tests show complete
inactivation of the spores shall define the minimum operating conditions for the
autoclave. After determining the minimum temperature, pressure and residence time,
the occupier or operator of a common biomedical waste treatment facility shall
conduct this test once in three months and records in this regard shall be maintained.
7. Routine Test: A chemical indicator strip or tape that changes colour when a certain
temperature is reached can be used to verify that a specific temperature has been
achieved. It may be necessary to use more than one strip over the waste package at
different locations to ensure that the inner content of the package has been adequately
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autoclaved. Common bio medical waste treatment facility shall conduct this test
during autoclaving of each batch and records in this regard shall be maintained.
8. Spore testing: The autoclave should completely and consistently kill the approved
biological indicator at the maximum design capacity of each autoclave unit. Biological
indicator for autoclave shall be Geobacillus stearothermophilus spores using vials or
spore Strips; with at least 1X106 spores. Under no circumstances will an autoclave
have minimum operating parameters less than a residence time of 30 minutes, a
temperature less than 121o C or a pressure less than 15 psi. The occupier or operator
of a common bio medical waste treatment and disposal facility shall conduct this test
at least once in every week and records in this regard shall be maintained.
Standards For Efficacy Of Chemical Disinfection
Microbial inactivation efficacy is equated to “Log10 kill” which is defined as the
difference between the logarithms of number of test microorganisms before and after
chemical treatment. Chemical disinfection methods shall demonstrate a 4 Log10
reduction or greater for Bacillus Subtilis (ATCC 19659) in chemical treatment systems.
Standards For Dry Heat Sterilization
Waste sharp can be treated by dry heat sterilization at a temperature not less than
1850C, at least for a residence period of 150 minutes in each cycle, which sterilization
period of 90 minutes. There should be automatic recording system to monitor
operating parameters.
i) Validation test for Sharp sterilization unit
Waste sharp sterilization unit should completely and consistently kill the biological
indicator Geobacillus Stearothermophillus or Bacillus Atropheausspoers using vials
with at least log10 6 spores per ml. The test shall be carried out once in three
months.
ii. Routine test
A chemical indicator strip or tape that changes colour when a certain temperature is
reached can be used to verify that a specific temperature has been achieved. It may be
necessary to use more than one strip over the waste to ensure that the inner content
of the sharps has been adequately disinfected. This test shall be performed once in
week and records in this regard shall be maintained.
Standards For Liquid Waste The effluent generated or treated from the premises of occupier or operator of a common bio medical waste treatment and disposal facility, before discharge into the sewer should conform to the following limits- Parameters permissible limits pH 6.5-9.0 Suspended solids 100 mg/l Oil and grease 10 mg/l BOD 30 mg/l
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COD 250 mg/l Bio-assay test 90% survival of fish after 96 hours in 100% effluent.
Sludge from Effluent Treatment Plant shall be given to common bio-medical waste treatment facility for incineration or to hazardous waste treatment, storage and disposal facility for disposal
Label for Bio-Medical Waste Containers or Bags
Biohazard symbol Cytotoxic hazard symbol Management proposes that, ash, residue from high temperature incineration and
other material residues from the process shall be collected into containers and shall be
disposed into a secure landfill. The Process Flow Chart, plan and ETP flow diagram for
the proposed CBWTF is given below in Figure 5.1 , 5.2 1nd 5.3.
Figure 5.1(A): Flow diagram for Common Bio-medical Waste Management Facility.
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Figure 5.1 (B) : Flow Chart showing Biomedical Waste Management Process
Figure 5.1 (C) : Flow Chart showing Biomedical Waste Management Process
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Figure 5.1(D): Block diagramme for Operation
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Collection and Transportation of Bio medical Waste
Biomedical Waste segregated in color coded containers as per Biomedical Waste
Management and Handling Rules shall be collected from various Health Care Facilities
located in the 150 Km radius (Covering 10000 beds) The collected waste shall be
transported in specially designed closed vehicle to the proposed CBWTF for treatment
and disposal. M/s BMW Solutions is intending to have 6- 7 closed vehicles for the
Collection & transportation of bio-medical waste to proposed facility.
10 Resource optimization/Recycling and reuse
The entire wastewater around -4 KLD shall be treatment in ETP will be used for floor
washing and gardening/green belt. The treated effluent recycled for the use in
scrubber will not be treated with hypochlorite solution. The plastic waste after
disinfection & shredding shall be given to registered recyclers.
11. Availability of water its source, Energy/Power requirement and source
Water requirement which is around -5 KL for the project will be met through bore
wells. Power requirement will be sourced from Madhya Pradesh Vidyut Vitaran
Company Ltd. D.G. set of 100 KVA will be installed as back up supply
12. Quantity of waste to be generated (liquid and solid) and scheme for their Management / disposal The Treated effluent shall meet the discharge standards laid down by MoEFCC/PCB
for disposal/reuse. The water recovered during treatment in ETP will be used for floor
washing and gardening/Green belt. The solid waste generation during wastewater
treatment & treatment of common Bio-medical waste will be disposed to Secured
landfill.
Details of Water Balance
Heads Water Consumption (KLD) Waste Water Generation (KLD)
Unit Proposed Proposed
Incineration 1200 ltr 400 ltr
Floor washing 800 ltr 680 ltr
Vehicle washing 1000 ltr 900 ltr
Steam Generation 100 ltr Nil
Green Belt 500 ltr Nil
Others 1400 ltr 1300 ltr
Total 5000 ltr 3280 ltr
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Treatment Scheme
The waste water generated from bio waste contains suspended particles, blood stains,
bacteria and other pathogenic organism etc.
Principle of operation for E.T.P.
While scrubbing emission/flumes generated from high capacity E.T.P plant (100kg &
above) lot of water is used for removing various gases & particulate matter from the
bio medical waste E.T.P. This waste water is required to be treated before discharge
however by installing ETP plant waste water can be recovered after treatment from
various stages of ETP Plant. The waste water contains chemical used in the usage of
medicines etc.
The initial characteristic of waste water normally contains the following parameter.
PH - 4.5-6
T.S.S. - 400-600mg/Lts.
BOD - 300-400mg /lts.
O & G. - 20-30mg/Lts.
COD - 800-1000 mg/ Lts.
The treatment of effluent generated from hospital will be done in three steps. Mainly
know as Primary, Secondary and Tertiary treatment. The effluent generated from the
bio medical plant should conform to the following limits:
PH - 6.5-9.0
T.S.S. - 100 mg/Lts.
BOD - 30 mg /lts.
O & G. - 10 mg/Lts.
COD - 250 mg/ Lts.
Bio-assay test - 90% survival of fish after 96 hours in 100% effluent
These limits are applicable to those hospital which are either connected with sewers
without terminal sewage treatment plant or not connected to public sewers, for
discharge into public sewers with terminal facilities, the general standards as notified
under the Environment (Protection) Act, 1986 shall be applicable.
Primary Treatment:
This is the first steps of inlet waste water mainly consist of removal of coarse particles,
oil and Greece and mixing co-agents in the water for removal of suspended solids
through sedimentations After this treatment scheme the BOD, TSS, COD & O& G
levels come down to 25% of initial levels.
Secondary Treatment:
This is the second step of wastewater treatment. it mainly consist of extensive
aeration of the Primary treated water , bacterial growth , addition of oxygen and
chemical which help in bacterial growth and lastly settlement of the biological waste
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as sludge. Normally it is found that the reduction levels in TSS, BOD, O & G and COD
after an efficient secondary treatment will be as under
Tertiary Treatment:
This is the final stage of treatment where the effluent after secondary treatment first
is mixed with Sodium Hypo Chloride and then effluent will be pass passed through
(DMF) dual media filter and (ACF) activated carbon filter where sand, anthracite and
activated carbon will be used as filtration media. Once the above limits achieved
thereafter the final outlet water will also confirms the Bio Assay test of 90% of fish
survival.
Description PH T.S.S.
mg.
Lts.BOD
mg.
Lts. O & G
mg.
Lts.COD
mg.
Lts.
Inlet water 4.5-6 400-600 300-400 20-30 5000-7000
Outlet
water
8-10 300-450 225-300 15-22.5 4500-5000
Description PH T.S.S.
mg.
Lts. BOD mg. Lts. O &
G mg.
Lts. COD mg. Lts.
Inlet water 6.5-9 128-150 96-128 <10 <250
Outlet
water
6.5-9 <100 <30 <10 <250
Description PHT.S.S.
mg.
Lts.BOD mg. Lts.O &
G mg.
Lts.COD mg. Lts.
Inlet water 8-10 300-450 225-300 15-22.5 3000
Outlet
water
6.5-9 128-150 96-128 <10 <250
Treatment of Effluent:
Effluent initially will be passed through Screen & grit chamber for the removal of
coarse particles before it enters into oil and grease trap. After this the effluent is being
stored in an underground tank where partial aeration is being done to keep the solids
into suspension for pumping ease.
The effluent then will be pumped from underground tank to flash mixer where Lime,
Alum and Polymer solution is being mixed. The capacity for the Reaction chamber/
Flash mixture cum flocculate is as per requirement.
After chemical mixing the effluent will be transferred to Primary lamella clarifiers by
gravity where settling of solids take place. The capacity of the lamella clarifiers will be
as per requirement having minimum retention time for 1hr. Clarified water will be
taken to aeration
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Details of Units of ETP
List of equipment’s
Holding, collection & equalization tanks (capacity of 4m³ fabricated from
M.S sheets & structural materials, internally FRP (fiber reinforced plastic to avoid corrosion and metal reactions)).
CFG (Centrifugal sediment arrester/Filter)capacity 2.5m³/hr
Fins heater (tubular fins heater arrangement for water boiling )
Aeration tank (6m³ capacity with compressed air sooting arrangement )
Air compressor (12.5kg/cm²)
Secondary Filtration unit
High pressure MGE FRP vessel.
High pressure ACF FRP vessel.
Sodium hypo chloride dosing unit.
Piping (High quality APVC piping and fittings).
Pumps (CNP SS304 Centrifugal Pump)
Resin column .8m3
13. Electric System
Total power required is 80 kW for the proposed project .
6. Site analysis
i. Connectivity
Common Biomedical Waste Treatment Facility is located on State Highway No. 23
at Ratua Ratanpur which is 17kms from Bhopal. The nearest railway station is at
Sukhi Sewania which is 15.75 km from the site. The airport situated at Bhopal and it
is 20.50 kms from the site.
ii. Land form, land use & land ownership:
The land is owned by Dr Hemant Mittal ( M/s BMW solutions ). It is pvt waste land
and being diverted for industrial purposes.
iii. Topography :-
The topography is almost plain with elevation of 488mRL.
S. No. Particulars Details
1 Co-ordinate 23°27'37.38"N- 77°24' 11.83"E
2 Height above mean sea level
488 mRL
3 Nearest Town Bhopal – 17km
4 Nearest Railway Station Sukhi Sewaniya – 15.75km
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5 Nearest Airport Bhopal – 20.50km
6 Nearest Highway/Road Bhopal- Berasia SH-23 – 200m - E
7 Hills/Valley None
8 Ecological Sensitive Zone
None
9 Reserve Forest Kotra chopra PF- 1.25km - SE
10 Nearest Village Ratua Ratanpur – 1.25km - NE
11 Nearest River/ Nalla Halali Dam – 9.50km- NE Halali Nadi - 8.15km- SE Chamari Nadi – 2.80km- SE
12 Surrounding Features Crusher and mine
iv. Existing land use pattern: The land use of the area is agricultural land and
being diverted for industrial use.
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Google Image of the site
v. Existing infrastructure: The site is located 17 km away from the Bhopal and the
facility will enjoy strong infrastructure present in the surrounding.
vi. Climate data from secondary sources:
Meteorological data month of 15th March, 16 to 14th April, 2016
Date
Temperature OC Relative
Humidity %
Morning
km/hr 8.00hr
Evening
km/hr
17.00hr
Cloudiness
%
Max Avg Min Max Avg Min Wind
Dirt
Wind
Speed
Wind
Dirt
Wind
Speed Mor Eve
15 35 27 18 64 48 32 SE 7.4 WNW 14.8 10 -
16 34 27 19 66 45 30 E 5.6 NE 9.3 - -
17 37 28 19 51 40 29 SE 14.8 WNW 24.1 - -
18 35 28 22 51 38 30 C 0 WSW 18.5 10 -
19 33 24 16 61 40 27 ENE 14.8 WNW 14.8 - -
20 34 26 17 55 36 23 SE 11.1 WNW 22.2 - 10
21 35 26 16 71 37 21 S 9.3 W 27.8 - -
22 34 25 16 64 43 28 WSW 7.4 NW 14.8 - -
23 36 26 17 61 41 30 NNW 3.7 WSW 3.7 10 -
24 36 28 19 55 39 20 SE 9.3 WSW 18.5 20 -
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25 36 29 22 60 32 12 C 0 C 0 - 30
26 36 28 19 37 24 9 WNW 14.8 W 18.5 - -
27 38 29 21 41 27 11 SSE 7.4 WNW 22.2 - -
28 38 29 19 41 24 11 N 5.6 W 18.5 10 -
29 38 30 22 32 19 10 NW 14.8 WSW 20.4 - -
30 38 29 20 30 20 9 NW 14.8 W 18.5 - 10
31 37 29 21 48 23 11 ENE 18.1 W 18.5 - -
1 36 28 19 39 19 9 WNW 9.3 W 22.8 - -
2 36 28 19 27 18 10 W 18.5 WSW 11.1 - -
3 37 29 21 39 22 12 WNW 18.5 NNW 14.8 - -
4 37 29 22 35 22 12 C 0 NW 5.6 - -
5 39 30 21 38 20 7 S 14.8 WSW 11.1 10
6 39 30 21 33 18 11 NNW 14.8 WSW 22.8 -
7 38 30 23 30 21 12 C 0 C 0 -
8 37 29 22 33 25 13 C 0 C 0 -
9 37 29 21 47 22 8 E 5.6 WNW 18.5 -
10 37 28 19 33 18 10 NE 9.3 WSW 9.3 -
11 37 28 19 35 19 10 NNE 7.4 SW 11.1 -
12 37 28 18 31 18 7 C 0 SSE 9.3 -
13 38 30 21 35 22 10 SE 7.4 SSW 5.6 - -
14 39 30 21 39 27 13 S 18.5 SW 9.3 - -
Meteorological data month of 15th April, 16 to 14th May, 2016
Date
Temperature OC Relative
Humidity %
Morning km/hr
8.30hr
Evening km/hr
17.30hr
Cloudiness
%
Max Avg Min Max Avg Min Wind Dirt
Wind Speed
Wind Dirt
Wind Speed
Mor Eve.
15 39 30 22 42 25 13 SW 7.4 W 9.3 - -
16 40 32 25 31 21 12 WSW 5.6 NNW 18.5 - -
17 39 31 24 48 29 15 C 0 C 0 - -
18 39 31 23 44 32 14 C 0 C 0 40 40
19 35 29 23 56 36 25 WSW 9.3 ENE 11.1 - -
20 36 29 22 56 35 19 NE 5.6 SSE 13.0 - -
21 37 29 22 49 30 17 SSE 9.3 W 7.4 - -
22 38 30 23 62 33 13 C 0 C 0 40 -
23 38 29 20 72 40 14 C 0 C 0 - 40
24 38 30 21 48 23 11 NNE 9.3 N 5.6 - -
25 41 31 22 40 21 9 E 7.4 WSW 9.3 - 10
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26 42 33 24 25 16 7 NW 14.8 W 16.7 - -
27 42 33 24 24 16 6 NW 5.6 NNW 14.8 40 -
28 41 33 26 32 19 9 NE 11.1 NNW 18.5 - -
29 41 33 26 28 18 8 SE 11.1 SSE 9.3 - -
30 42 34 27 30 20 8 W 11.1 NNW 22.2 30 40
1 42 34 27 28 14 8 WNW 22.2 W 22.2 - -
2 42 33 25 20 13 6 WNW 22.2 W 22.2 - -
3 39 33 27 25 17 9 WNW 22.2 W 24.1 - -
4 38 31 24 29 21 10 W 14.8 SW 14.8 - -
5 39 31 23 38 25 13 WSW 22.2 WSW 22.2 10 -
6 38 30 23 45 26 13 S 7.4 SW 44.4 - 10
7 40 32 24 47 25 10 S 5.6 NW 14.8 - 20
8 41 33 26 45 30 14 SSW 9.3 NW 14.8 - -
9 38 32 27 47 27 11 C 0 C 0 40 -
10 40 32 24 30 16 7 WSW 18.5 W 29.6 - -
11 39 31 24 31 17 9 NW 27.8 W 22.2 - -
12 38 32 25 41 23 13 WNW 14.8 WNW 29.6 - -
13 38 32 26 31 21 10 WNW 35.2 WSW 9.3 40 -
14 37 31 24 57 32 16 C 0 C 0 40 -
Meteorological data month of 15th May, 2016 to 14th June, 2016
Date
Temperature OC Relative
Humidity %
Morning km/hr
8.30hr
Evening km/hr
17.30hr
Cloudiness
%
Max Avg Min Max Avg Min Wind
Dirt
Wind
Speed
Wind
Dirt
Wind
Speed Mor Eve.
15 39 30 22 58 30 11 C 0 C 0 - -
16 38 32 26 30 23 12 WNW 16.7 W 9.3 10 -
17 39 32 25 47 28 15 NW 24.1 NNW 22.2 - 20
18 39 32 26 39 24 15 WNW 22.2 NNW 9.3 - -
19 42 33 26 37 20 10 E 14.8 N 5.6 - 40
20 41 34 23 47 23 10 NNW 11.1 W 11.1 - -
21 41 34 28 26 15 7 NW 14.8 WNW 25.9 40 40
22 42 33 24 26 15 7 W 14.8 NNW 18.5 - -
23 42 34 28 19 14 9 WNW 22.2 S 9.3 20 40
24 42 36 28 21 16 12 C 0 C 0 10 -
25 39 33 27 36 27 18 C 0 C 0 20 -
26 39 33 28 64 36 21 C 0 C 0 - -
27 40 33 26 50 28 10 C 0 C 0 - -
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28 42 34 26 46 23 10 S 11.1 NNW 18.5 - -
29 44 37 29 32 20 9 WNW 27.8 WNW 22.2 40 -
30 44 38 31 32 19 9 WNW 25.9 W 22.2 - -
31 44 36 28 37 21 13 W 29.6 W 11.1 - -
1 43 35 27 53 25 13 WSW 11.1 NNE 14.8 30 -
2 43 36 28 37 21 13 C 0 NNW 18.5 60 -
3 43 35 27 43 20 9 WBW 7.4 NNW 22.2 - -
4 44 36 28 33 18 9 W 11.1 NNE 14.8 - -
5 44 37 29 27 20 10 NW 25.9 NNE 22.2 10 -
6 45 38 30 34 24 13 NNW 22.2 NWN
W 18.5 - -
7 44 39 33 26 21 13 WNW 29.6 WNW 11.1 - 40
8 44 37 31 38 23 13 W 25.9 N 14.8 - 40
9 44 37 31 37 25 18 WNW 40.7 W 5.6 - 10
10 43 37 30 41 29 19 NNW 11.1 WNW 5.6 - -
11 43 37 28 47 31 14 WNW 11.1 WNW 5.6 - -
12 37 30 22 94 56 27 WNW 11.1 WNW 25.9 - -
13 38 32 26 56 36 21 W 18.5 W 25.9 - -
14 38 32 27 54 36 22 NNE 3.7 W - -
7 Planning brief:
a. Planning concept:
Detail Planning Concept has been given in the project report
.
b. Population projection: The project is small in magnitude. No influx of population
is expected as staff/labour shall be deployed from the surrounding .
c. Land use planning (breakup along with green belt etc.)
Particulars Unit Area in sq mt
Plant and Machineries Sqm 56
Office and administration Sqm 25
Waste storage area Sqm 20
Fuel storage area Sqm 5
Road Sqm 100
Green belt area Sqm 1570
Open Land Sqm 2958.822
Total 4734.822
d. Amenities/facilities
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Rest shelters, Toilets, drinking water facilities, first aid facilities , regular medical
check up facilities shall be provided to labours , staff and their families.
8. Proposed infrastructure
a. Industrial area (processing area)
The components of the CBWTF are:
Administration Building
Staff Locker and wash room
Vehicle Washing bay
Effluent Treatment Plant
Incinerator and Incineration shed
Sterilization room
Store room
Workshop
Security office
Transformer
DG set
Residential area (non processing area) The employees will make their own arrangements for their housing & allied amenities in nearby area. There is no need for any additional facilities.
b. Green belt
Total 33% area i.e. 1570 sq mt shall be dedicated for the green belt. Green belt will
be developed according to CPCB/PCB guidelines. Plants of the various species will
be developed in the plant and peripheral areas.
c. Social infrastructure
Schools, Colleges, Hospitals & Healthcare Centers, Shops & Bazaars, Community Centers, etc. are all available in nearby villages and towns.
d. Drinking water management (source & supply of water):
The Drinking water will be supplied through bore well with proper RO system.
e. Sewerage system: Solid waste generated during the Biomedical waste treatment
process and wastewater treatment process is mainly ash and sludge which will be
generated depending upon the hydraulic load. Sludge will be disposed off in
secured landfill. The disinfected plastic waste shall send for recycling to registered
recycler.
f. Industrial waste management:
As above
g. Solid waste management:
As above
h. Power requirement & supply/source:
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Power shall be evacuated through state electricity board. Back up supply through
DG set shall be ensured.
9 Rehabilitation and Resettlement (R & R) Plan:
No R&R plan is required as no displacement of people is proposed for the project.
10 Project Schedule and Cost estimates
The Total Cost for proposed project is Rs 220 lacs
a Likely date of start of construction and likely date of completion (time
schedule for the project to be given)
After obtaining environmental clearance and water / air consent the company shall start the project. Proposed date shall be April 2017 ( subject to clearances).
b. Estimated project cost along with analysis in terms of economic viability of
the project
Projected Balance Sheet
(Figures in lacs)
Moratorium
PARTICULARS Projected Projected Projected Projected Projected Projected
Projected Projected
Year Year Year Year Year Year Year Year
1 2 3 4 5 6 7 8
A LIABILITIES
Capital
1. Opening Capital 55.00 55.00 55.00 55.00 55.00 55.00 55.00 55.00
Unsecured Loans / Quasi Capital
2. Reserves & Surplus (Op.Bal.b/f.) 0.00 0.00 11.07 30.25 57.53 93.24 137.92 192.33
Add- Profit for the yr. 0.00 15.07 25.19 35.28 45.70 56.69 68.40 81.02
Less:- Drawings 0.00 -4.00 -6.00 -8.00 -10.00 -12.00 -14.00 -16.00
Capital 55.00 66.07 85.25 112.53 148.24 192.92 247.33 312.35
3. Term Liabilities
Term Loan 165.00 159.25 140.50 119.16 94.88 67.24 35.79 0.00
Add-Capitalised Interest 10.73
4.Bank OD 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
5.Unsecured Loan 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
6. Bank Borrowings:
For Working 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
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Capital
7. Current Liabilities 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
8.Creditors for Expenses 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
9. Provision 0.00 9.04 9.95 10.94 12.04 13.24 14.57 16.02
Sub Total: 230.73 234.36 235.70 242.64 255.15 273.40 297.68 328.37
B ASSETS
1. Fixed Assets
Gross Block 230.73 230.73 230.73 230.73 230.73 230.73 230.73 230.73
Less: Depreciation 0.00 -30.90 -56.88 -79.05 -98.10 -114.54 -128.76 -141.06
Net Block 230.73 199.83 173.85 151.68 132.62 116.18 101.97 89.66
2. Cash & Bank Balances 0.00 -0.69 24.21 50.66 79.29 110.76 145.71 184.81
3. Other Investment 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
4. Current Assets:
Inventories 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Trade Debtors 0.00 24.22 26.64 29.30 32.23 35.46 39.00 42.90
Deposits 0.00 11.00 11.00 11.00 11.00 11.00 11.00 11.00
Other Current Assets 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
5. Miscellaneous Expenditure 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
6. Non Current Assets 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Sub Total: 230.73 234.36 235.70 242.64 255.15 273.40 297.68 328.37
0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.0
11 Analysis of proposal
i. Financial and social benefits with special emphasis on the benefit to the local
people including tribal population, if any, in the area.
The proposed CBWTF project of for treatment of bio-medical waste, generated from a number of healthcare units is to reduce adverse effects that this waste may pose. The concept of CBWTF within a radius of 150 Km catering to 10000 beds has been introduced by the MoEFCC as a part of Biomedical Waste Management and Handling Rules 2016 as amended thereafter to prevent proliferation of treatment equipment area. It also reduces pressure on regulatory agencies for compliance monitoring. By operating the treatment equipment at CBWTF to its full capacity, the cost of treatment per kilogram gets significantly reduced.
M/s BMW Solutions
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