Size: 940 x860x2700 mm Material: STAINLESS STEEL STACK, REFRACTORY CONCRETE LINING SPECIAL INSULATION MATERIAL With burner: 15 C 20 KW Temperature: PRIMARY CHAMBER = 800°C AND SECONDARY CHAMBER = 850 – 1200° C Sufficient heat generation for secure and complete combustion 600-800 °C in the first chamber and >1000 °C in the second chamber Easy transportation on standard EURO-pallets Constructed in a modular fashion easy on-site movement and assembly with a minimum of equipment and technical skills; For the destruction of problematic waste like sharps, amputates and body parts, wet or moist matter; Off-gas quality: moderate smoke emissions during one quarter of the total incineration time; no visible emission during three quarters. AS PER INTERNATIONAL STANDARDS The remaining ash approximately 5-10% in weight and below 1% in volume of the original waste AS PER INTERNATIONAL STANDARDS Chimney height at least 5 m above the incinerator 5m ABOVE FROM THE GROUND Temperature resistance of the lining at least 1,200 °C
Size: 940 x860x2700 mm Material: STAINLESS STEEL STACK, REFRACTORY CONCRETE LINING SPECIAL INSULATION MATERIAL With burner: 15 C 20 KW Temperature: PRIMARY CHAMBER = 800°C AND SECONDARY CHAMBER = 850 – 1200° C Sufficient heat generation for secure and complete combustion 600-800 °C in the first chamber and >1000 °C in the second chamber Easy transportation on standard EURO-pallets Constructed in a modular fashion easy on-site movement and assembly with a minimum of equipment and technical skills; For the destruction of problematic waste like sharps, amputates and body parts, wet or moist matter; Off-gas quality: moderate smoke emissions during one quarter of the total incineration time; no visible emission during three quarters. AS PER INTERNATIONAL STANDARDS The remaining ash approximately 5-10% in weight and below 1% in volume of the original waste AS PER INTERNATIONAL STANDARDS Chimney height at least 5 m above the incinerator 5m ABOVE FROM THE GROUND Temperature resistance of the lining at least 1,200 °C
Capacity of destruction in weight: 60 Kg/h. It should be able to operate not less than 10 hours/day This incinerator must be able to destruct all combustible wastes produced by hospitals, private clinics, laboratories, institutes, etc… Design Specification : Types A, B, C, D, and E of medical waste “PYROLYTIC” combustion, by controlling the gasification of…
Capacity of destruction in weight: 60 Kg/h. It should be able to operate not less than 10 hours/day This incinerator must be able to destruct all combustible wastes produced by hospitals, private clinics, laboratories, institutes, etc… Design Specification : Types A, B, C, D, and E of medical waste “PYROLYTIC” combustion, by controlling the gasification of…
Researchers at the University of York have concluded that PyroPure (UK) technology has the capacity to alter the way in which toxic waste is destroyed in clinical environments and state pharmacists, hospitals and manufacturers across the united kingdom should consider trialling the system. The statement follows a six month Innovate UK-funded Knowledge Transfer Partnership project…
Controlled air medical waste incinerator designed for incineration of bio-medical waste generated at a blood-processing center. The waste to be treated mainly includes bio-waste (i.e. bodily fluids), infectious and hazardous waste such as syringes, needles, and other medical waste (i.e. silicon rubbers, plastic, textiles, papers, packs, etc.) Operational Specs Physical Specs Combustion Chamber Volume (m3) 8.80m3 Burn Rate* up to 1,500kg per hour Average Fuel Consumption 65 kg per hour or more (7 diesel burners) Operational Temperature 850 – 1320°C Gas Retention in Secondary Chamber Large secondary chamber Temperature Monitoring Yes Average ash residue (%) 3% Thermostatic Device Yes 1000l diesel flue tank Venture gas scrubber Hydraulic Ram Feeding System Diesel Powered Large Incinerator Minimum Specification Required Standards 1) Bidder or Manufacturer ISO 9001 Certified 2) Respecting international emission standards Electrical characteristics 3) A 230V, 60Hz single-phase electrical source. 4) Protections against over-voltage and over-current line conditions. 5) Compliance with applicable Ghanaian standards and regulations. Operational characteristics 6) Two-stage incineration with dual chamber combustion 7) Burn rate: 15 – 20 Kg/h 8) Capacity: not less than 130 L 9) Concentrations of most pollutants in stack gases below detection limits 10) Diesel fuel 11) Electronic system control 12) Easy to operate and minimal training 13) Any accessory or dedicated device necessary to the proper functioning and utilization of the equipment included PLEASE REFER TO BROCHURES ATTACHED FOR DETAILED SPECIFICATION
Controlled air medical waste incinerator designed for incineration of bio-medical waste generated at a blood-processing center. The waste to be treated mainly includes bio-waste (i.e. bodily fluids), infectious and hazardous waste such as syringes, needles, and other medical waste (i.e. silicon rubbers, plastic, textiles, papers, packs, etc.) Operational Specs Physical Specs Combustion Chamber Volume (m3) 8.80m3 Burn Rate* up to 1,500kg per hour Average Fuel Consumption 65 kg per hour or more (7 diesel burners) Operational Temperature 850 – 1320°C Gas Retention in Secondary Chamber Large secondary chamber Temperature Monitoring Yes Average ash residue (%) 3% Thermostatic Device Yes 1000l diesel flue tank Venture gas scrubber Hydraulic Ram Feeding System Diesel Powered Large Incinerator Minimum Specification Required Standards 1) Bidder or Manufacturer ISO 9001 Certified 2) Respecting international emission standards Electrical characteristics 3) A 230V, 60Hz single-phase electrical source. 4) Protections against over-voltage and over-current line conditions. 5) Compliance with applicable Ghanaian standards and regulations. Operational characteristics 6) Two-stage incineration with dual chamber combustion 7) Burn rate: 15 – 20 Kg/h 8) Capacity: not less than 130 L 9) Concentrations of most pollutants in stack gases below detection limits 10) Diesel fuel 11) Electronic system control 12) Easy to operate and minimal training 13) Any accessory or dedicated device necessary to the proper functioning and utilization of the equipment included PLEASE REFER TO BROCHURES ATTACHED FOR DETAILED SPECIFICATION
Supply, Installation and Commissioning of DIESEL FIRED INCINERATORS Medical Waste Incinerator, 100 to 120 Kg/hr Application For incineration, general and pathological Capacity 100 C 120 kg/h burn rate Type Two combustion chambers type; primary and Secondary, controlled/forced combustion air type with a flue gas emission scrubbing unit Operating time Minimum 8 hours daily Operating temperature From 850 0C to 1200 0C, Automatic controlled Residual Ash 5 to 10% Construction Constructed from heavy duty mild or aluminized steel Or equal and approved equivalent Insulation material Refractory material lining similar or equal to calcium Silicate and hot face combination of heavy duty brickwork Internal Construction Fixed hearth type complete with gratings, concave bottom and charging door, lined with refractory material Charging Door Suitable for manual loading of wastes and with smooth Dear seal equivalent of Ceramic seals with hinges. Door Lock Automatic, Electric type Ash removal door Provided, for removing resultant bottom ash leftovers from the Primary chamber Gratings Provided Loading Manual loading of waste Primary Burner Fully automatic, with fuel, temperature and speed controls with ignition system flame detector Air fan Complete with safety features, flame failure Diesel fired fuel injector type Flange mounted Blower Provided. 3 phase for supplying excess combustion air through the distribution system with speed control system Temperature Minimum exit 850 0C Observation port To be provided with protective glass type 3.3 Secondary chamber
Supply, Installation and Commissioning of DIESEL FIRED INCINERATORS Medical Waste Incinerator, 100 to 120 Kg/hr Application For incineration, general and pathological Capacity 100 C 120 kg/h burn rate Type Two combustion chambers type; primary and Secondary, controlled/forced combustion air type with a flue gas emission scrubbing unit Operating time Minimum 8 hours daily Operating temperature From 850 0C to 1200 0C, Automatic controlled Residual Ash 5 to 10% Construction Constructed from heavy duty mild or aluminized steel Or equal and approved equivalent Insulation material Refractory material lining similar or equal to calcium Silicate and hot face combination of heavy duty brickwork Internal Construction Fixed hearth type complete with gratings, concave bottom and charging door, lined with refractory material Charging Door Suitable for manual loading of wastes and with smooth Dear seal equivalent of Ceramic seals with hinges. Door Lock Automatic, Electric type Ash removal door Provided, for removing resultant bottom ash leftovers from the Primary chamber Gratings Provided Loading Manual loading of waste Primary Burner Fully automatic, with fuel, temperature and speed controls with ignition system flame detector Air fan Complete with safety features, flame failure Diesel fired fuel injector type Flange mounted Blower Provided. 3 phase for supplying excess combustion air through the distribution system with speed control system Temperature Minimum exit 850 0C Observation port To be provided with protective glass type 3.3 Secondary chamber
hot medical waste disposing machine, Operation Condition: 8-16 hr/ day Control: Built-in data recording Operating temperature: Incinerator /Primary Combustion Chamber Primary Chamber: 900 – 1200 0C Type: continuous loading, Top Loading Capacity/Burn rate per hour: 250 -300 kg/hr Material: External- 3 layers Internal lining: a fire proof material of pre-fired refractory bricks with Aluminium lining, resistant to corrosive waste or gas and to thermal shock Secondary Combustion Chamber: Type: horizontal/vertical Temperature: 1200- 1300 oC Residence time of gases : >2 seconds Ash Residue: <5% of original waste size Ash Handling System: Both Automatic and manual removal of Ash. Must ensure removal/treatment of hazardous remnants of ash Flue gas treatment system : Capable of treating the flow of flue gas as the incinerator is operating at its maximum capacity Auxiliary device: Water level gauge, pressure sensor, PH sensor..etc Auxiliary device: Fuel cut-off device Waste feeding mechanism: Automatic pneumatic/hydraulic waste loading system or conveyor belt , capacity 650-800 L at a time Chimney (Stack): Type: Vertical type height:>7 meter’ Material: Fireproof cast, stainless steel OUTPUT: GAS- SMOKELESS,ODORLESS ASH -Max <5% of original waste size Reduction of Pollutant gas SO2, HCL, HF and line particulate Emission standard: WHO/ European Test report for emission testing provided? Heat exchange mode: Automatic Accessories: All standard accessories for incinerator, including but not limited to loading system, heat exchangers, pollution control system, ash removal system, including ladder and oil tanker (2500litre capacity). Operating Environment: The incinerator is capable to operate at the altitude of 2400mt above sea level. (according to the site conditions) Power Requirement: 220 Vac single phase or 380 Vac three phase 4 wire system 50HZ Installation Testing and Commissioning : to be conducted by certified or qualified personnel. Supplier shall provide the following documentation User (Operating) manual in English. Service (Technical / Maintenance) manual in English. Certificate of calibration and inspection from factory. Fast moving spare parts: Supplier is able to provide fast moving spare parts with quantities as described in the price schedule or their equivalent. Training: Supplier is able to provide training on operation, management and maintenance of incinerators. Warranty Comprehensive warranty for minimum 2 year. Maintenance Service during Warranty Period During warranty period supplier must ensure, corrective/breakdown maintenance whenever required. Supplier has a local agent or branch office in Ethiopia (please indicate the name and contact details of the agent) Supplier provides labor, lifting equipment and tools needed for the installation, testing and commissioning of the incinerator. The supplier will be responsible for the safety of its staff, workers and laborers during the installation, testing & commisssioning Able to provides all necessary information that would be used as an input for preparation of floor (platform) and room for the incinerator to be supplied such as the following; Lay outs (drawings) and pictures of the incinerators to be installed …