The Biomedical Waste Incinerator is used for Incineration of each type of Biomedical Waste.The Disposal of such Biomedical waste is a very important as it is a dangerous wastes forhuman life, and It is only possible with a perfect incinerator.Operational RequirementsIt shall be operated by manual and automated mode.The combustion efficiency (CE) shall be at least 99.00%.The combustion efficiency is computed as follows:C.E.= __%CO2______ x 100%CO2 + %COEmission Standards: Lower emission rates are preferred.Parameters Concentration in mg/Nm3 (12% CO2 correctionMax total dust 30mg/m3Max Sulphur Dioxide 200mg/m3Max Nitrogen dioxide 400mg/m3Max Carbon 100mg/m3MonoxideMinimum stack height shall be 30 metres above ground.Volatile organic compounds in ash shall not be more than 0.01%.System ConfigurationBiomedical Waste Incinerator, complete unit.Technical SpecificationsIncinerator:It shall be Electrical or Diesel Fired Incinerator or Controlled Air & pyrolytic.Type of Waste: Biomedical WasteIt shall have burning capacity 10-15 kg/hr.Fuel: DieselBurner: Monoblock fully automatic burners.Temperature: Primary Chamber 800 ± 50 oC, Secondary Chamber 1050 ± 50 oC.Type of Waste: Biomedical waste with moisture content up to 85%.Destruction Efficiency: 99%.It shall have separate digital display of temperature for both chambers.It shall have provision for measuring primary & secondary chamber temperatures using externalthermo coupler.
The Biomedical Waste Incinerator is used for Incineration of each type of Biomedical Waste.The Disposal of such Biomedical waste is a very important as it is a dangerous wastes forhuman life, and It is only possible with a perfect incinerator.Operational RequirementsIt shall be operated by manual and automated mode.The combustion efficiency (CE) shall be at least 99.00%.The combustion efficiency is computed as follows:C.E.= __%CO2______ x 100%CO2 + %COEmission Standards: Lower emission rates are preferred.Parameters Concentration in mg/Nm3 (12% CO2 correctionMax total dust 30mg/m3Max Sulphur Dioxide 200mg/m3Max Nitrogen dioxide 400mg/m3Max Carbon 100mg/m3MonoxideMinimum stack height shall be 30 metres above ground.Volatile organic compounds in ash shall not be more than 0.01%.System ConfigurationBiomedical Waste Incinerator, complete unit.Technical SpecificationsIncinerator:It shall be Electrical or Diesel Fired Incinerator or Controlled Air & pyrolytic.Type of Waste: Biomedical WasteIt shall have burning capacity 10-15 kg/hr.Fuel: DieselBurner: Monoblock fully automatic burners.Temperature: Primary Chamber 800 ± 50 oC, Secondary Chamber 1050 ± 50 oC.Type of Waste: Biomedical waste with moisture content up to 85%.Destruction Efficiency: 99%.It shall have separate digital display of temperature for both chambers.It shall have provision for measuring primary & secondary chamber temperatures using externalthermo coupler.
Smaller cremators that will run diesel and will be capable of doing all the other dogs/cats/pets that we have. We only cremate pets individually so this is what we require. Have your company as member of Markis Hospital waste management group as planer or supplier, contractor of solutions or operating partners of the solution of hospital waste management in the projects we are developing, starting with Larissa and Volos. Members of Markis waste management group will also have the possibility to provide training and technical services to the health sector of Greece and other countries via the TSC which we plan to make the same time in Larissa (enclosed diagram indicates the role of each party joining Markis waste management group). ● Able to burn 25-30kg per hour ● Consist of two chambers to ensure significant reduction in emission ● Be capable of temperature in range of 800c to 1000c ● Low maintenance design ● Must be Diesel fuelled ● Need more than 15amp 220- 250V power ● kW Consumption power consumption to be stated ● Onboard or in-built fuel storage storage tank & should use no more than 12L of dies el per hour to burn 25-30kg of waste ● Solid waste reduction in range of 90-97% ( should be routinely achieved) 1. – 2 medical waste autoclaves 350ltr and 100ltr 2. – 1 medical waste shredder 3. – 3 medical macerators 4. – 27 Waste transfer trolleys.
Smaller cremators that will run diesel and will be capable of doing all the other dogs/cats/pets that we have. We only cremate pets individually so this is what we require. Have your company as member of Markis Hospital waste management group as planer or supplier, contractor of solutions or operating partners of the solution of hospital waste management in the projects we are developing, starting with Larissa and Volos. Members of Markis waste management group will also have the possibility to provide training and technical services to the health sector of Greece and other countries via the TSC which we plan to make the same time in Larissa (enclosed diagram indicates the role of each party joining Markis waste management group). ● Able to burn 25-30kg per hour ● Consist of two chambers to ensure significant reduction in emission ● Be capable of temperature in range of 800c to 1000c ● Low maintenance design ● Must be Diesel fuelled ● Need more than 15amp 220- 250V power ● kW Consumption power consumption to be stated ● Onboard or in-built fuel storage storage tank & should use no more than 12L of dies el per hour to burn 25-30kg of waste ● Solid waste reduction in range of 90-97% ( should be routinely achieved) 1. – 2 medical waste autoclaves 350ltr and 100ltr 2. – 1 medical waste shredder 3. – 3 medical macerators 4. – 27 Waste transfer trolleys.
Specifications for Double Chamber Incinerator: Primary Combustion ・ The primary combustion chamber shall be accepted as the primary combustion zone. ・ The minimum combustion temperature of the primary chamber shall not be less than 800 degrees c Secondary Combustion ・ The residence time in the secondary chamber shall not be less than 2 seconds ・ The gas temperature as […]
Specifications for Double Chamber Incinerator: Primary Combustion ・ The primary combustion chamber shall be accepted as the primary combustion zone. ・ The minimum combustion temperature of the primary chamber shall not be less than 800 degrees c Secondary Combustion ・ The residence time in the secondary chamber shall not be less than 2 seconds ・ The gas temperature as […]
17.The primary burning room should have at least 2 burners. 18.The secondary burning room should have one burner. 19. Each system should have doors for ash, exit for air to the chimney and windows to allow looking inside and for maintenance. 20.Each system should have filtering system for gas processing with 2 tanks using ordinary water. Each water tank should have capacity of 1000 lt and should be fixed to the system and provided with water level indicator. 21.Each system should have special technology for separating waist products and humidity after gas processing. 22.Each system should have cooling capability after operation. 23.Each system m should be provided with exhaust pipe with 250 mm diameter and 10 m high. The base of the exhaust system should be 1000 mm. The exhaust pipe should be 6 mm and should be provide with heat insulator. The exhaust system should be provided with pressure indicator. It should also provide with ladder and Lightning Arrestor. 24.Electric power: should be 220 volt, 3 phase, 60 Hz, and the motor should not be less than 15 HP. 25.Each system should be provided with control panel and indicators and needed safety equipment and alarm systems. The control panel should show at least temperature in both the primary and secondary rooms and injectors of the filters and load. 26.Each system should be provided with alarm system for any breakdown or defect of any component of the system. 27.The following personal protective tools must be provide: a.Heat resistant garments for 20 persons. b.Heat resistant goggles for 20 persons. 28.All components of each system should be painted with silver color that is heat resistant.
17.The primary burning room should have at least 2 burners. 18.The secondary burning room should have one burner. 19. Each system should have doors for ash, exit for air to the chimney and windows to allow looking inside and for maintenance. 20.Each system should have filtering system for gas processing with 2 tanks using ordinary water. Each water tank should have capacity of 1000 lt and should be fixed to the system and provided with water level indicator. 21.Each system should have special technology for separating waist products and humidity after gas processing. 22.Each system should have cooling capability after operation. 23.Each system m should be provided with exhaust pipe with 250 mm diameter and 10 m high. The base of the exhaust system should be 1000 mm. The exhaust pipe should be 6 mm and should be provide with heat insulator. The exhaust system should be provided with pressure indicator. It should also provide with ladder and Lightning Arrestor. 24.Electric power: should be 220 volt, 3 phase, 60 Hz, and the motor should not be less than 15 HP. 25.Each system should be provided with control panel and indicators and needed safety equipment and alarm systems. The control panel should show at least temperature in both the primary and secondary rooms and injectors of the filters and load. 26.Each system should be provided with alarm system for any breakdown or defect of any component of the system. 27.The following personal protective tools must be provide: a.Heat resistant garments for 20 persons. b.Heat resistant goggles for 20 persons. 28.All components of each system should be painted with silver color that is heat resistant.
SPECIFICATIONS OF THE JKUAT INCINERATOR It should be a three chambered incinerator The load capacity of 250 kg The housing for the incinerator should be able to withstand the temperatures and other operational requirements. The chimney should have a strong refractory lining of special type of cement to withstand temperatures more than 1200oc. It should have a strong base for the machine to keep it stable, firm and secure during its operational lifespan. The primary (combustion) and the secondary (scorching) chambers to be fitted with burners for effective combustion. In the third chamber, scrubbers and precipitators will need to be installed as pollution control equipment before emission of gases into the atmosphere. A system for continuous emission Monitoring and Environmental Monitoring. A mechanism with which to treat the waste water before discharge into the sewerage system. Temperature control and monitoring devices (probe thermometer) should be availed to ensure that the right temperatures are attained in the chambers during operation. Motor (fans) sufficient to induce enough air into the combustion chambers and direct the gases towards the flue 9 chimney). High power electricity and emergency generator connection for automated ignition purposes. The chimney should be tall enough and be at least one meter above the tallest building in the vicinity. The fuel tank (industrial diesel) to be constructed next to but out side the incinerator housing for security purposes and to prevent fire hazards. Capacity of 250. Other Requirements Training of all the personnel involved in health care waste (HCW) management. The Automatic Feeding system of the Incinerator Automatic waste loading mechanism with conveyor belts. These will lead the waste into the first primary chamber. An Automatic bottom ashes discharge system.
SPECIFICATIONS OF THE JKUAT INCINERATOR It should be a three chambered incinerator The load capacity of 250 kg The housing for the incinerator should be able to withstand the temperatures and other operational requirements. The chimney should have a strong refractory lining of special type of cement to withstand temperatures more than 1200oc. It should have a strong base for the machine to keep it stable, firm and secure during its operational lifespan. The primary (combustion) and the secondary (scorching) chambers to be fitted with burners for effective combustion. In the third chamber, scrubbers and precipitators will need to be installed as pollution control equipment before emission of gases into the atmosphere. A system for continuous emission Monitoring and Environmental Monitoring. A mechanism with which to treat the waste water before discharge into the sewerage system. Temperature control and monitoring devices (probe thermometer) should be availed to ensure that the right temperatures are attained in the chambers during operation. Motor (fans) sufficient to induce enough air into the combustion chambers and direct the gases towards the flue 9 chimney). High power electricity and emergency generator connection for automated ignition purposes. The chimney should be tall enough and be at least one meter above the tallest building in the vicinity. The fuel tank (industrial diesel) to be constructed next to but out side the incinerator housing for security purposes and to prevent fire hazards. Capacity of 250. Other Requirements Training of all the personnel involved in health care waste (HCW) management. The Automatic Feeding system of the Incinerator Automatic waste loading mechanism with conveyor belts. These will lead the waste into the first primary chamber. An Automatic bottom ashes discharge system.