This document provides information on the Bio Medical Waste Management Rules, 2016 in India. It introduces the rules and their objective of providing regulatory framework for managing bio-medical waste. It defines bio-medical waste and explains the types of waste generated from healthcare facilities. It emphasizes the importance of proper waste segregation and describes the 4 waste categories and their treatment and disposal requirements according to the rules. Improper management can pose health and environmental risks. The rules aim to standardize waste management practices across India.
THIS presentation EXPLAINS biomedical waste management IN EASY WAY
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The document provides information on bio-medical waste management rules in India. It discusses that bio-medical waste is waste generated from healthcare facilities and includes human tissues, blood, chemicals, sharps etc. The rules classify waste into different color coded categories and prescribe standards for segregation, collection, storage, transport and treatment of waste. It highlights that improper management of bio-medical waste poses health and safety risks. The rules have been amended over time to better regulate waste management. Strict adherence to the waste management procedures outlined in the rules is important to ensure safety of health workers and the public.
This document discusses biomedical waste management. It defines biomedical waste as waste generated during healthcare activities that requires safe handling due to potential pathogens. The waste is categorized as infectious, pathological, sharp, pharmaceutical, radioactive, and general. Proper management includes segregation, storage, transportation, and treatment of waste through incineration, autoclaving, or secured landfilling. Nurses play an important role in ensuring proper waste segregation and handling standards are followed within healthcare facilities. Failure to properly manage biomedical waste can spread infection and harm both healthcare workers and the environment.
Bio Medical Waste Management And Handling Rules 1998ASHISH SINGH
The document discusses India's Bio-Medical Waste (Management and Handling) Rules 1998 which were established to regulate the management of biomedical waste from healthcare facilities. It defines biomedical waste and categories it based on potential hazards. The rules require all waste generators to treat and dispose of waste properly to prevent risks to public health and the environment. Facilities must segregate waste, maintain records, and report any accidents. The rules aim to formalize waste handling practices in India and prevent improper disposal of biomedical waste.
The document discusses biomedical waste management. It defines biomedical waste and notes that improper management poses health risks. The rules for management in India are outlined, including categories of waste and treatment methods like incineration and autoclaving. Proper procedures for storage, transportation, and disposal are important to implement the rules and prevent health and environmental issues.
The document outlines the key aspects of the Bio-Medical Waste Management Rules 2016 in India. It defines bio-medical waste as any waste generated during diagnosis, treatment or immunization of humans or animals. It categorizes waste into 4 categories - yellow, red, white and blue and specifies waste types in each category. The rules mandate segregation of waste at source into appropriate color coded bins, appointment of waste management committees in large hospitals, and duties of waste generators and operators. It aims to ensure proper management of biomedical waste in India.
THIS presentation EXPLAINS biomedical waste management IN EASY WAY
Important links- NOTES- https://mynursingstudents.blogspot.com/
youtube channel
https://www.youtube.com/c/MYSTUDENTSU...
CHANEL PLAYLIST-
ANATOMY AND PHYSIOLOGY-https://www.youtube.com/playlist?list...
COMMUNITY HEALTH NURSING- https://www.youtube.com/playlist?list...
CHILD HEALTH NURSING- https://www.youtube.com/playlist?list...
FIRST AID- https://www.youtube.com/playlist?list...
HCM- https://www.youtube.com/playlist?list...
FUNDAMENTALS OF NURSING- https://www.youtube.com/playlist?list...
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#VITAMIN_A,#FUNCTIONS,#SOURCE, #DEFICIENCY,#DISEASE,#NIGHTBLINDNESS#XEROPHTHALMIA,#BITOTSPOT,#CORNEALXEROSIS, #CONJUNCIVALXEROSIS, YELLOWFRUITS,#MYSTUDENTSUPPORTSYSTEM, #rashes,#nursingclasses, #communityhealthnursing,#ANM, #GNM, #BSCNURING,#NURSINGSTUDENTS, #WHO,#NURSINGINSTITUTION,#COLLEGEOFNURSING,#nursingofficer,#COMMUNITYHEALTHOFFICER
The document provides information on bio-medical waste management rules in India. It discusses that bio-medical waste is waste generated from healthcare facilities and includes human tissues, blood, chemicals, sharps etc. The rules classify waste into different color coded categories and prescribe standards for segregation, collection, storage, transport and treatment of waste. It highlights that improper management of bio-medical waste poses health and safety risks. The rules have been amended over time to better regulate waste management. Strict adherence to the waste management procedures outlined in the rules is important to ensure safety of health workers and the public.
This document discusses biomedical waste management. It defines biomedical waste as waste generated during healthcare activities that requires safe handling due to potential pathogens. The waste is categorized as infectious, pathological, sharp, pharmaceutical, radioactive, and general. Proper management includes segregation, storage, transportation, and treatment of waste through incineration, autoclaving, or secured landfilling. Nurses play an important role in ensuring proper waste segregation and handling standards are followed within healthcare facilities. Failure to properly manage biomedical waste can spread infection and harm both healthcare workers and the environment.
Bio Medical Waste Management And Handling Rules 1998ASHISH SINGH
The document discusses India's Bio-Medical Waste (Management and Handling) Rules 1998 which were established to regulate the management of biomedical waste from healthcare facilities. It defines biomedical waste and categories it based on potential hazards. The rules require all waste generators to treat and dispose of waste properly to prevent risks to public health and the environment. Facilities must segregate waste, maintain records, and report any accidents. The rules aim to formalize waste handling practices in India and prevent improper disposal of biomedical waste.
The document discusses biomedical waste management. It defines biomedical waste and notes that improper management poses health risks. The rules for management in India are outlined, including categories of waste and treatment methods like incineration and autoclaving. Proper procedures for storage, transportation, and disposal are important to implement the rules and prevent health and environmental issues.
The document outlines the key aspects of the Bio-Medical Waste Management Rules 2016 in India. It defines bio-medical waste as any waste generated during diagnosis, treatment or immunization of humans or animals. It categorizes waste into 4 categories - yellow, red, white and blue and specifies waste types in each category. The rules mandate segregation of waste at source into appropriate color coded bins, appointment of waste management committees in large hospitals, and duties of waste generators and operators. It aims to ensure proper management of biomedical waste in India.
This document provides information on biomedical waste management. It defines biomedical waste and discusses its various categories. It explains how biomedical waste is generated in healthcare facilities and needs to be properly segregated, stored, transported, and disposed of. The key steps in biomedical waste management are segregation according to waste type, proper labelling, collection from waste sources, short-term storage, transportation to treatment facilities, and final disposal. Worker safety is important, and personal protective equipment like gloves and protective clothing should be used when handling biomedical waste.
The document discusses biomedical waste management. It defines biomedical waste as waste generated during diagnosis, treatment, or immunization of humans or animals. It notes that biomedical waste includes infectious waste, pathological waste, sharps waste, pharmaceutical waste, genotoxic waste, chemical waste, and radioactive waste. The document also outlines the Ministry of Environment and Forest's classification of biomedical waste into 10 categories and the recommended treatment and disposal methods for each category. Key sources of biomedical waste are identified as hospitals, clinics, labs, and other healthcare facilities.
The document provides an overview of biomedical waste (BMW) in India, including its definition, categories, generation and management issues. Some key points:
- BMW includes waste generated from healthcare facilities and includes sharps, infectious, pathological and pharmaceutical waste.
- India generates over 3 million tonnes of BMW annually from over 95,000 healthcare facilities. Treatment and disposal of BMW is inadequate, posing risks to health and environment.
- The Biomedical Waste Rules of 1998 govern BMW management and require segregation, storage, transportation, treatment and disposal of different BMW categories. However, compliance remains a challenge.
This document provides information on biomedical waste (BMW) management. It defines BMW and discusses its sources and categories. Significant amounts of hazardous BMW are generated daily, posing infection and toxicity risks if not properly handled. The World Health Organization estimates that 15% of hospital waste is infectious and has linked contaminated medical equipment to millions of viral infections annually. The document outlines Indian and international BMW rules and treatment/disposal methods. Proper segregation, containment, transport and treatment are necessary to safely manage this waste and protect public health.
Biomedical waste generation and management.pptJayRaval48
This document provides an overview of biomedical waste generation and management in India. It discusses that biomedical waste is generated from various medical facilities and includes human tissues, blood, chemicals, and other potentially infectious materials. The waste is categorized into 10 groups and proper management includes segregation, storage, transportation, and treatment. Common treatment methods include incineration, autoclaving, chemical disinfection, and irradiation which aim to safely dispose of waste and prevent health and environmental risks. Proper biomedical waste management is important for public health.
This document summarizes the Biomedical Waste Management Rules of 2016 in India. It discusses that hospital waste can harm health workers, the public and environment if not properly disposed. The rules classify biomedical waste into 4 color-coded categories and place duties on occupiers to safely handle, store, transport and treat biomedical waste. The objectives are to protect against disease spread, injuries and protect human health and the environment. Segregation and treatment of biomedical waste is important to reduce infection risks and promote recycling.
This document discusses guidelines for biomedical waste management according to the BMW rules of 1998, 2011, and 2016 in India. It defines biomedical waste and outlines the objectives of proper waste management. It describes the classification of waste into categories based on risk level and provides guidelines for segregation, treatment, and disposal of each waste category according to the color-coding system. The risks of improper waste management to health and the environment are also discussed.
This document discusses biomedical waste management in India. It defines biomedical waste and outlines the various sources that produce this type of waste, including hospitals, clinics, labs, and more. It then categorizes and classifies biomedical waste according to the Ministry of Environment and Forests into 10 categories based on the type of waste and appropriate treatment and disposal methods. Some of the key problems related to biomedical waste management in India are also discussed.
The document discusses bio-medical waste management issues and challenges faced by hospitals. It outlines various environmental laws related to waste management. It explains that healthcare waste includes waste generated in hospitals, laboratories, and research facilities. The basic principles of bio-medical waste management include segregation, containment, processing, storage and disposal of waste. Key challenges include lack of awareness, non-compliance with rules, inadequate protection of healthcare workers, and improper waste disposal. Addressing these issues requires robust policies, training, monitoring, and allocating sufficient resources.
This document discusses biomedical waste management rules in India. It states that biomedical waste is any waste generated during diagnosis, treatment, or immunization of humans or animals. All hospitals, clinics, laboratories, etc. must comply with the Biomedical Waste Management Rules. The rules require segregating waste into colored containers based on type and storing waste safely. Improper management can spread diseases, while proper management reduces infections and community health hazards. Segregation is important to minimize waste and enable efficient treatment of each category.
Biomedical waste is waste produced during diagnosis, treatment, or research involving humans or animals. About 15% of hospital waste is considered biomedical waste, including infectious waste (10%) and non-infectious waste like chemicals (5%). Untreated biomedical waste can cause injuries, infections, pollution, and other risks if not properly managed and treated. The Biomedical Waste Management Rules of 2016 provide guidelines for segregation, collection, storage, transport, treatment and disposal of biomedical waste to ensure safety. Waste is classified into 4 categories and treated using methods like incineration, autoclaving, or chemical disinfection depending on the category.
COVID19 PANDEMIC: ISSUES AND CHALLANGES IN BIOMEDICAL WASTE MANAGEMENTTanmayZoology
The document discusses biomedical waste (BMW), its sources, classification, management steps, and risks. It notes that BMW includes waste from healthcare facilities and comprises contaminated sharps, infectious, pathological and pharmaceutical waste. It classifies BMW as hazardous or non-hazardous. The key steps in BMW management are segregation, collection, storage, transportation, treatment and disposal. Common treatment methods include incineration, autoclaving, chemical disinfection. Untreated BMW poses infection and toxicity risks to waste handlers, the public and environment.
This notification outlines new rules for the management of biomedical waste in India called the Bio-Medical Waste Management Rules, 2016. It summarizes the previous 1998 rules and the need to review them to more effectively implement regulations and improve waste collection, handling, and disposal. Key aspects of the new rules include expanded scope of application, definitions of terms, duties of waste generators and operators, and authorization requirements for handling biomedical waste.
The health of patients is important to hospitals making it imperative to properly dispose of biomedical waste. Having the proper biomedical waste containers is part of keeping patients safe from illnesses they could contract while in the hospital.
The document summarizes the key aspects of the Biomedical Waste Management Rules 2016 and its 2018 amendment in India. It defines biomedical waste and explains the importance of proper management. It outlines the classification of waste into 4 color-coded categories and their treatment and disposal options. It describes the steps of waste segregation, collection, transportation, and disposal. It highlights some major changes introduced in the 2018 amendment like phasing out of chlorinated plastic and establishing a barcode system.
bio medical waste management & handling- rules and gui_2Arvind Kumar
This document discusses the development and key aspects of India's Bio-Medical Waste (Management & Handling) Rules. It outlines:
- The origins of the rules in response to directives from the Supreme Court in 1996 and standards from the Central Pollution Control Board.
- The rules have been amended several times, most recently in 2003, and require authorization, annual reporting, and establish an advisory committee.
- The rules mandate segregation, packaging, transportation and storage of bio-medical waste according to waste category and treatment method. There are 10 categories of waste and specific treatment requirements for each.
- Facilities must meet operating standards for incineration, including a minimum 99% combustion efficiency and
This document discusses bio-medical waste (BMW), its sources, categories, and management. It notes that BMW has emerged as a global issue and safe, cost-effective management methods are needed. The major sources of BMW are hospitals, labs, research centers, and other healthcare facilities. BMW is categorized into 10 types including infectious waste, sharps, pharmaceutical waste, and more. The document outlines the risks of improper BMW handling and the legislation in place, the Bio-Medical Waste Management and Handling Rules, to ensure safe disposal. Color-coded segregation and treatment/disposal methods are prescribed for each waste category.
This document provides information on biomedical waste management. It defines biomedical waste and discusses its various categories. It explains how biomedical waste is generated in healthcare facilities and needs to be properly segregated, stored, transported, and disposed of. The key steps in biomedical waste management are segregation according to waste type, proper labelling, collection from waste sources, short-term storage, transportation to treatment facilities, and final disposal. Worker safety is important, and personal protective equipment like gloves and protective clothing should be used when handling biomedical waste.
The document discusses biomedical waste management. It defines biomedical waste as waste generated during diagnosis, treatment, or immunization of humans or animals. It notes that biomedical waste includes infectious waste, pathological waste, sharps waste, pharmaceutical waste, genotoxic waste, chemical waste, and radioactive waste. The document also outlines the Ministry of Environment and Forest's classification of biomedical waste into 10 categories and the recommended treatment and disposal methods for each category. Key sources of biomedical waste are identified as hospitals, clinics, labs, and other healthcare facilities.
The document provides an overview of biomedical waste (BMW) in India, including its definition, categories, generation and management issues. Some key points:
- BMW includes waste generated from healthcare facilities and includes sharps, infectious, pathological and pharmaceutical waste.
- India generates over 3 million tonnes of BMW annually from over 95,000 healthcare facilities. Treatment and disposal of BMW is inadequate, posing risks to health and environment.
- The Biomedical Waste Rules of 1998 govern BMW management and require segregation, storage, transportation, treatment and disposal of different BMW categories. However, compliance remains a challenge.
This document provides information on biomedical waste (BMW) management. It defines BMW and discusses its sources and categories. Significant amounts of hazardous BMW are generated daily, posing infection and toxicity risks if not properly handled. The World Health Organization estimates that 15% of hospital waste is infectious and has linked contaminated medical equipment to millions of viral infections annually. The document outlines Indian and international BMW rules and treatment/disposal methods. Proper segregation, containment, transport and treatment are necessary to safely manage this waste and protect public health.
Biomedical waste generation and management.pptJayRaval48
This document provides an overview of biomedical waste generation and management in India. It discusses that biomedical waste is generated from various medical facilities and includes human tissues, blood, chemicals, and other potentially infectious materials. The waste is categorized into 10 groups and proper management includes segregation, storage, transportation, and treatment. Common treatment methods include incineration, autoclaving, chemical disinfection, and irradiation which aim to safely dispose of waste and prevent health and environmental risks. Proper biomedical waste management is important for public health.
This document summarizes the Biomedical Waste Management Rules of 2016 in India. It discusses that hospital waste can harm health workers, the public and environment if not properly disposed. The rules classify biomedical waste into 4 color-coded categories and place duties on occupiers to safely handle, store, transport and treat biomedical waste. The objectives are to protect against disease spread, injuries and protect human health and the environment. Segregation and treatment of biomedical waste is important to reduce infection risks and promote recycling.
This document discusses guidelines for biomedical waste management according to the BMW rules of 1998, 2011, and 2016 in India. It defines biomedical waste and outlines the objectives of proper waste management. It describes the classification of waste into categories based on risk level and provides guidelines for segregation, treatment, and disposal of each waste category according to the color-coding system. The risks of improper waste management to health and the environment are also discussed.
This document discusses biomedical waste management in India. It defines biomedical waste and outlines the various sources that produce this type of waste, including hospitals, clinics, labs, and more. It then categorizes and classifies biomedical waste according to the Ministry of Environment and Forests into 10 categories based on the type of waste and appropriate treatment and disposal methods. Some of the key problems related to biomedical waste management in India are also discussed.
The document discusses bio-medical waste management issues and challenges faced by hospitals. It outlines various environmental laws related to waste management. It explains that healthcare waste includes waste generated in hospitals, laboratories, and research facilities. The basic principles of bio-medical waste management include segregation, containment, processing, storage and disposal of waste. Key challenges include lack of awareness, non-compliance with rules, inadequate protection of healthcare workers, and improper waste disposal. Addressing these issues requires robust policies, training, monitoring, and allocating sufficient resources.
This document discusses biomedical waste management rules in India. It states that biomedical waste is any waste generated during diagnosis, treatment, or immunization of humans or animals. All hospitals, clinics, laboratories, etc. must comply with the Biomedical Waste Management Rules. The rules require segregating waste into colored containers based on type and storing waste safely. Improper management can spread diseases, while proper management reduces infections and community health hazards. Segregation is important to minimize waste and enable efficient treatment of each category.
Biomedical waste is waste produced during diagnosis, treatment, or research involving humans or animals. About 15% of hospital waste is considered biomedical waste, including infectious waste (10%) and non-infectious waste like chemicals (5%). Untreated biomedical waste can cause injuries, infections, pollution, and other risks if not properly managed and treated. The Biomedical Waste Management Rules of 2016 provide guidelines for segregation, collection, storage, transport, treatment and disposal of biomedical waste to ensure safety. Waste is classified into 4 categories and treated using methods like incineration, autoclaving, or chemical disinfection depending on the category.
COVID19 PANDEMIC: ISSUES AND CHALLANGES IN BIOMEDICAL WASTE MANAGEMENTTanmayZoology
The document discusses biomedical waste (BMW), its sources, classification, management steps, and risks. It notes that BMW includes waste from healthcare facilities and comprises contaminated sharps, infectious, pathological and pharmaceutical waste. It classifies BMW as hazardous or non-hazardous. The key steps in BMW management are segregation, collection, storage, transportation, treatment and disposal. Common treatment methods include incineration, autoclaving, chemical disinfection. Untreated BMW poses infection and toxicity risks to waste handlers, the public and environment.
This notification outlines new rules for the management of biomedical waste in India called the Bio-Medical Waste Management Rules, 2016. It summarizes the previous 1998 rules and the need to review them to more effectively implement regulations and improve waste collection, handling, and disposal. Key aspects of the new rules include expanded scope of application, definitions of terms, duties of waste generators and operators, and authorization requirements for handling biomedical waste.
The health of patients is important to hospitals making it imperative to properly dispose of biomedical waste. Having the proper biomedical waste containers is part of keeping patients safe from illnesses they could contract while in the hospital.
The document summarizes the key aspects of the Biomedical Waste Management Rules 2016 and its 2018 amendment in India. It defines biomedical waste and explains the importance of proper management. It outlines the classification of waste into 4 color-coded categories and their treatment and disposal options. It describes the steps of waste segregation, collection, transportation, and disposal. It highlights some major changes introduced in the 2018 amendment like phasing out of chlorinated plastic and establishing a barcode system.
bio medical waste management & handling- rules and gui_2Arvind Kumar
This document discusses the development and key aspects of India's Bio-Medical Waste (Management & Handling) Rules. It outlines:
- The origins of the rules in response to directives from the Supreme Court in 1996 and standards from the Central Pollution Control Board.
- The rules have been amended several times, most recently in 2003, and require authorization, annual reporting, and establish an advisory committee.
- The rules mandate segregation, packaging, transportation and storage of bio-medical waste according to waste category and treatment method. There are 10 categories of waste and specific treatment requirements for each.
- Facilities must meet operating standards for incineration, including a minimum 99% combustion efficiency and
This document discusses bio-medical waste (BMW), its sources, categories, and management. It notes that BMW has emerged as a global issue and safe, cost-effective management methods are needed. The major sources of BMW are hospitals, labs, research centers, and other healthcare facilities. BMW is categorized into 10 types including infectious waste, sharps, pharmaceutical waste, and more. The document outlines the risks of improper BMW handling and the legislation in place, the Bio-Medical Waste Management and Handling Rules, to ensure safe disposal. Color-coded segregation and treatment/disposal methods are prescribed for each waste category.
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BMW.pptx
1. Bio Medical Waste Management Rules, 2016
Management and Implementation
Presented By:
Tripura State Pollution Control Board
Parivesh Bhawan, Pandit Nehru Complex, Gurkhabasti
Agartala, PIN-799006
2. Bio-Medical Waste (Management and Handling) Rules, 1998 was published vide notification
number S.O. 630 (E) dated the 20th July, 1998, by the Government of India in the erstwhile Ministry of
Environment and Forests, provided a regulatory frame work for management of bio-medical waste
generated in the country;
INTRODUCTION
Now, therefore, in exercise of the powers conferred by section 6, 8 and 25 of the Environment
(Protection) Act, 1986 (29 of 1986), and in supersession of the Bio-Medical Waste (Management and
Handling) Rules, 1998, except as respects things done or omitted to be done before such suppression,
the Central Government hereby makes the rules, namely Bio Medical Waste Management Rules, 2016
3. What is Bio Medical Waste
Biomedical waste is defined as “any solid, fluid and Semi-liquid or liquid
waste, including its container and any intermediate product, which is generated
during the diagnosis, treatment or immunization of human being or animals, in
research pertaining thereto, or in the production or testing of biological and the
animal waste any other similar establishment
These type of medical wastes may generate from hospitals, nursing homes,
clinics, dispensaries, veterinary institutions, animal houses, pathological laboratories,
blood banks, ayush hospitals, clinical establishments, research or educational
institutions, health camps, medical or surgical camps, vaccination camps, blood
donation camps, first aid rooms of schools, forensic laboratories and research labs etc
4. According to WHO
Nearly 85% of all waste generated by hospital is
general waste.
About 15% waste is Bio-medical Waste, which
includes
Infectious waste - 10%.
Non-infectious waste such as radioactive and
chemical wastes - 5%.
5.
6. We Should Remember….
In fact, only 15% of hospital waste i.e. “Biomedical
waste” is hazardous. But when hazardous waste is not
segregated at the source of generation and mixed with
nonhazardous waste, then 100% waste becomes
hazardous.
8. For Sound and Effective Management of Bio-Medical Waste following thing should be
remembered
Bio Medical Waste should never be mixed with these following wastes:
1. Radioactive Waste, covered under the provisions of the Atomic Energy Act, 1962
2. Hazardous Waste covered under the Manufacture, Storage and Import of Hazardous
Chemicals Rules
3. E-Waste covered under the provisions of e-Waste (Management and Handling) Rules,
2011
4. Battery Waste covered under the Batteries (Management and Handling) Rules, 2001
5. Solid Waste covered under the Municipal Solid Waste (Management and Handling)
Rules, 2000
9. Various Step towards Bio-
Medical Waste Management
Segregation
Packaging and Storage
Transportation
Treatment
Disposal
Inappropriate handling of Bio-
medical waste………
Health Hazard
Environmental
Degradation
11. Improper Management of BMW may Cause……….
Injuries from sharps leading to infection to all categories of
hospital personnel and waste handlers.
Infections in patients from poor infection control practices and
poor waste management.
Risk of infection outside hospital for waste handlers and
scavengers and at times, general public living in the vicinity of
the hospitals.
12. Risk of recycling of “Disposables” which are being repacked
and sold by unscrupulous elements.
Risk of spurious drugs due to repacking of disposed off drugs to
unsuspecting buyers.
Risk of air, water and soil pollution directly due to waste, or due
to defective incineration, emissions and ash.
Improper Management of BMW may Cause……….
13. The scope of the rules has been expanded to include
vaccination camps, blood donation camps, surgical camps or
any other healthcare activity.
Use of chlorinated plastic bags (excluding blood bags) and
gloves has to be phased out by the 27th March, 2019.
Provide training to all health care workers and immunize them
regularly against diseases like tetanus and Hepatitis B.
Features of Bio-Medical Waste Management Rule 2016
14. No healthcare facility (occupier) shall establish on-site
treatment and disposal facility, if a service of “common
bio-medical waste treatment facility’’ (CBMWTF) is
available at 75 kms.
Bio-medical waste has been classified into 4 categories
instead of 10 categories as per Biomedical Waste
(Management & Handling) Rules, 1998 to improve the
segregation of waste at source.
Features of Bio-Medical Waste Management Rule 2016
15. Segregation, Packaging and Storage
(Yellow Category)
(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).
(b) Animal Anatomical Waste :
Experimental animal carcasses, body parts, organs, tissues,
including the waste generated from animals used in
experiments or 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.
(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 etc.
(e) Chemical Waste: Chemicals used in production of biological and used or discarded disinfectants.
****Non Chlorinated Plastic bags should be used
16. (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, infected
secretions, aspirated body fluids, liquid from laboratories and floor washings, cleaning, house- keeping and
disinfecting activities etc.
******For Chemical Liquid Waste, separate collection system leading to Effluent Treatment System should
be installed in each and every Health Care Facility Centre
(g) Discarded linen, mattresses, beddings contaminated with blood or body fluid.
(h) Microbiology, Biotechnology and other clinical laboratory waste: Blood bags, Laboratory cultures,
stocks or specimens of micro-organisms, 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.
Yellow Category continued………
17. Segregation, Packaging and Storage
(Red Category)
Contaminated Waste (Recyclable)
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.
Characteristics of Container: The containers
should be Puncture proof, Leak proof, tamper
proof containers
18. Segregation, Packaging and Storage
(White Category)
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
****Non Chlorinated Plastic bags should be used
19. (a) Glassware:
Broken or discarded and contaminated glass including medicine vials and ampoules except
those contaminated with cytotoxic wastes.
(b) Metallic Body Implants:
****Non Chlorinated Plastic bags should be used
Segregation, Packaging and Storage
(Blue Category)
20. Points Should Be Remembered During Segregation, packaging and Storage
1. No untreated bio-medical waste shall be mixed with other wastes.
2. The bio-medical waste shall be segregated into containers or bags at the point of generation in
accordance with Schedule I prior to its storage, transportation, treatment and disposal
3. The containers or bags referred to in sub-rule (2) shall be labeled as specified in Schedule IV.
4. Bar code and global positioning system shall be added by the Occupier and common bio-
medical waste treatment facility in one year time.
5. Untreated human anatomical waste, animal anatomical waste, soiled waste and, biotechnology
waste shall not be stored beyond a period of forty –eight hours:
6. Microbiology waste and all other clinical laboratory waste shall be pre-treated by sterilisation
to Log 6 or disinfection to Log 4, as per the World Health Organisation guidelines before
packing and sending to the common bio-medical waste treatment facility
21. SCHEDULE I
[See rules 3 (e), 4(b), 7(1), 7(2), 7(5), 7 (6) and 8(2)]
Part-1
Biomedical wastes categories and their segregation, collection, treatment, processing and
disposal options
Type of Bag or Container to be used
22. SCHEDULE IV
[See rule 8(3) and (5)] PartA
LABEL FOR BIO-MEDICAL WASTE CONTAINERS or BAGS
HANDLE WITH CARE
HANDLE WITH CARE
CYTOTOXIC HAZARDSYMBOL
Cytotoxic waste is the by-product of cytotoxic drug therapy administered to patients
(such as chemotherapy)
A biological hazard can be described as a threat to human life or health that is posed by a
biological substance(s).
23. 1. The operator of common bio-medical waste treatment facility shall transport the bio-
medical waste from the premises of an occupier to any off-site bio-medical waste
treatment facility only in the vehicles having label as provided in part ‘A’ of the Schedule
IV along with necessary information as specified in part ‘B’ of the Schedule IV.
2. The vehicles used for transportation of bio-medical waste shall comply with the
conditions if any stipulated by the State Pollution Control Board or Pollution Control
Committee in addition to the requirement contained in the Motor Vehicles Act, 1988 (59
of 1988), if any or the rules made there under for transportation of such infectious waste.
Guidelines should be followed during Transportation of Bio-Medical Waste
24. SCHEDULE IV (Part B)
LABEL FOR TRANSPORTING BIO-MEDICAL WASTE BAGS OR CONTAINERS
Waste category Number ........
Waste quantity…………
Day ............Month ..............
Year ...........
Date of generation ...................
Sender's Name and Address Receiver's Name and Address:
Phone Number ........ Phone Number ...............
Fax Number...............Fax Number .................
Contact Person ........ Contact Person .........
In case of emergency please contact :
Name and Address :
Phone No.
Note :Label shall be non-washable and prominently visible.
25. Transportation of Bio-Medical Waste in Health Care Facility Centre
The person should wear gloves in Hand, musk on face
covering nose, cap on head to prevent any kind of obnoxious
odour, infection during internal transportation of Bio-Medical
Waste in different wards of the HCFC for safe disposal of the
same.
26. Treatment and Disposal options
(Yellow Category)
(a) Human Anatomical Waste:
Human tissues, organs, body parts etc.
(b) Animal Anatomical Waste :
Experimental animal carcasses, body parts generated experiments or
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 or Plasma
Pyrolysis or deep burial
Incineration or Plasma Pyrolysis or
deep burial* In absence of above
facilities, autoclaving or micro-
waving/ hydroclaving followed by
shredding or mutilation or
combination of sterilization and
shredding.
27. (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 etc.
(e) Chemical Waste: Chemicals used in production of
biological and used or discarded disinfectants.
Expired cytotoxicdrugs 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.
Disposed of by incineration or Plasma
Pyrolysis or Encapsulation in hazardous
Waste treatment, storage and disposal facility.
28. (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, 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.
(h) Microbiology, Biotechnology and other clinical laboratory waste: Blood bags,
Laboratory cultures, stocks or specimens of micro-organisms, 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.
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.
Non- chlorinated chemical
disinfection followed by
incineration or Plasma
Pyrolysis
Pre-treat to sterilize
with non-chlorinated
chemicals thereafter
for Incineration.
29. Treatment and Disposal options
(Red Category)
Contaminated Waste (Recyclable)
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.
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. Autoclave
Hydroclave
30. 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 designated concrete waste sharp pit.
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
Treatment and Disposal options
(White Category)
31. Treatment and Disposal options
(Blue Category)
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.
(a) Glassware:
Broken or discarded and contaminated glass including medicine vials and ampoules except
those contaminated with cytotoxic wastes.
32. It shall be the duty of every occupier to-
•take all necessary steps to ensure that bio-medical waste is handled without any adverse effect to human
health and the environment and in accordance with these rules;
•make a provision within the premises for a safe, ventilated and secured location for storage of segregated
biomedical waste in colored bags or containers in the manner as specified in Schedule I, to ensure that there
shall be no secondary handling or inadvertent scattering or spillage by animals and the bio-medical waste from
such place or premises shall be directly transported in the manner as prescribed in these rules to the common
bio-medical waste treatment facility or for the appropriate treatment and disposal, as the case may be, in the
manner as prescribed in Schedule I;
•pre-treat the laboratory waste, microbiological waste, blood samples and blood bags through disinfection or
sterilisation on-site in the manner as prescribed by the World Health Organisation (WHO) or National AIDs
Control Organisation (NACO) guidelines and then sent to the common bio-medical waste treatment facility for
final disposal;
•phase out use of chlorinated plastic bags, gloves and blood bags within two years from the date of notification
of these rules;
Duties of the Occupier
33. • dispose of solid waste other than bio-medical waste in accordance with the provisions of respective waste
management rules made under the relevant laws and amended from time to time;
•not to give treated bio-medical waste with municipal solid waste;
•provide training to all its health care workers and others, involved in handling of bio medical waste at the time
of induction and thereafter at least once every year and the details of training programmes conducted, number
of personnel trained and number of personnel not undergone any training shall be provided in the Annual
Report;
•immunise all its health care workers and others, involved in handling of bio-medical waste for protection
against diseases including Hepatitis B and Tetanus that are likely to be transmitted by handling of bio-medical
waste, in the manner as prescribed in the National Immunisation Policy or the guidelines of the Ministry of
Health and Family Welfare issued from time to time;
34. •establish a Bar- Code System for bags or containers containing bio-medical waste to be sent out of the premises
or place for any purpose within one year from the date of the notification of these rules;
•ensure segregation of liquid chemical waste at source and ensure pre-treatment or neutralisation prior to mixing
with other effluent generated from health care facilities;
•ensure treatment and disposal of liquid waste in accordance with the Water (Prevention and Control of
Pollution) Act, 1974 ( 6 of 1974);
•ensure occupational safety of all its health care workers and others involved in handling of bio-medical waste by
providing appropriate and adequate personal protective equipments;
35. •conduct health check up at the time of induction and at least once in a year for all its health care workers and
others involved in handling of bio- medical waste and maintain the records for the same;
•maintain and update on day to day basis the bio-medical waste management register and display the monthly
record on its website according to the bio-medical waste generated in terms of category and colour coding as
specified in Schedule I;
•report major accidents including accidents caused by fire hazards, blasts during handling of bio-medical waste
and the remedial action taken and the records relevant thereto, (including nil report) in Form I to the prescribed
authority and also along with the annual report;
•make available the annual report on its web-site and all the health care facilities shall make own website within
two years from the date of notification of these rules;
36. •inform the prescribed authority immediately in case the operator of a facility does not collect the bio-medical
waste within the intended time or as per the agreed time;
•establish a system to review and monitor the activities related to bio-medical waste management, either
through an existing committee or by forming a new committee and the Committee shall meet once in every
six months and the record of the minutes of the meetings of this committee shall be submitted along with the
annual report to the prescribed authority and the healthcare establishments having less than thirty beds shall
designate a qualified person to review and monitor the activities relating to bio-medical waste management
within that establishment and submit the annual report;
•maintain all record for operation of incineration, hydro or autoclaving etc., for a period of five years;
•existing incinerators to achieve the standards for treatment and disposal of bio-medical waste as specified in
Schedule II for retention time in secondary chamber and Dioxin and Furans within two years from the date of
this notification.