No. of burners: 2 Nos. (1 No. in Primary Chamber and 1No. in Secondary Chamber)Type: Monoblock fully automaticFuel: DieselFuel Oil Storage Tank:Shall provide suitable capacity of oil storage tank.Material of Construction: Mild steel.Facility for visual checking of fuel shall be there.It shall have diesel consumption monitoring system.It shall come with diesel oil level indicator, piping with valves & N.R. valve.Control Panel:Type: Manual & Automated PLC based control panel with printer & recording device.Material of Construction: CRCA sheetIt shall have digital temperature controller.Epoxy powder coated washable paint finish.It shall have audio-visual alarm system.Chimney of 30 meters Height:Material of Construction: Mild SteelIt shall be self-supporting type.Height shall be 30 meters from ground level.Paint The chimney is painted externally with two coats of heat resistant aluminum paintShall provide ladder till the top.It shall have 3mm thick rubber lining from inside for protection.It shall come with aviation lamp, lightening arrestor, stack, drain, inspection platform, samplingport.Consumption certificate:The bidder must submit diesel consumption for a daily operation of 6 hours.Turnkey:Prices offered shall be inclusive of all civil works, electrical requirements including cabling andswitches required for installation & commissioning of the equipment.Bidder shall submit detail drawings, design, and layout plan of civil works.The bidder shall submit the details of BOQ of civil and electrical works.Accessories, spares and consumablesAll standard accessories, consumables and parts required to operate the equipment, includingall standard tools and cleaning and lubrication materials, to be included in the offer. Biddersmust specify the quantity of every item included in their offer (including items not specifiedabove).Operating EnvironmentThe system offered shall be designed to store and to operate normally under the conditions ofthe purchaser’s country. The conditions include Power Supply, Climate, Temperature,Humidity, etc.Power supply: 220-240 VAC, 50Hz single phase/400 C 420 VAC, 50Hz three phase asappropriate fitted with appropriate plug. The power cable must be at least 3 meter in length.Standards and Safety RequirementsIt shall have approval of “Pollution Control Board” of purchaser’s country.All mandatory approvals required for the installation and operation of incinerator shall be doneby the bidder.Must submit ISO 9001 ANDCE or USFDA approved product certificate.User TrainingMust provide user training (including how to use and maintain the equipment).WarrantyComprehensive warranty for 2 years after acceptance.Maintenance Service during Warranty PeriodDuring the warranty period supplier must ensure preventive maintenance along withcorrective/breakdown maintenance whenever required.Installation and CommissioningThe bidder must arrange for the equipment to be installed and commissioned by certified orqualified personnel; any prerequisites for installation to be communicated to the purchaser inadvance, in detail.
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.
Laboratory waste Management system 01. Liqued water purification system. 02. Number of laboratories – 05 03. The estimated liquid water waste – 6000 L including a. chemicals b. toxins c. Bio Hazardous materials. Temporary allocated space for purifications system- 30×20 The following should be indicating in the biding document 1.Method of disposing treated waste water 2.Method of discarding the sludge 3.To follow ISO standard/regulations of Central Environment Authority[CEA] 4.Time frame for construction 5.Request the cost for each item of the project [Consultancy/designing/construction] as well for the whole project. 6.Warranty period and maintaincne. a. Pre-assembled, containerized type b. Burning rate: 100 – 120kg / hour c. Minimum operating temperature: 8500c (Primary combustion) d. Maximum operating temperature: 14500c (afterburner chamber) e. Secondary Burning capacity: Compulsory. f. Density insulation: 20 mm high g. Refractory casting: minimum 65mm h. Heavy duty refracting lining to withstand 15000c i. Average burn out time: maximum 3.0 hrs j. Fuel type: fuel oil (diesel) k. Fuel consumption in L/hr: 7.5 to 9 l. Residency time in secondary chamber: 2 secs. m. Residue ash post 100kg Max 3.8 kg n. Installation period Maximum 7days.
Burn Rate * 60 Kg / hr Ingredients to be burned Cotton, Rubber, PVC Sheets, PE Gloves, Oil, Plastic Bottles, Paper etc. Chambers * Dual Chamber. 1: Primary Controlled Air 2: Secondary Excess Air Temperature Monitoring Required Temperature Control to Primary & Secondary Chambers Required System Status & Alarms Required for all necessary parameters. Fittings & Accessories Complete Package is required ( Including Nozzles & Flanges etc.) Installation Requirements. As low as possible . Almost Plug & Play type. Dimensional Sketch, Operation & Installation Manuals. Required Off – Gas System Required Heat Insulation Required for indoor installation Delivery Karachi Sea Port – Pakistan The details of Components of incinerator is as follows: Component Name Features Range. Primary Chamber Temperature Required* 800 – 1000 deg C. Heating Source Natural Gas Secondary Chamber Temperature * 1100 – 1300 deg. C Heating Source Natural Gas + Propane or Fuel Oil as an additional source Off – Gas Residence Time 2 Seconds. Refractory Material Material * Alumina ( 56 – 80 % Pure ) Lining * SS 316L Life Span * 10 – 15 years. Rating Temperature 1600 – 1800 deg. C Media Slightly acidic Insulation Material […]
Industrial Type Wastage Incinerator Industrial Type Incinerator General Specification i.System Capacity: 100KG/h ii.Type of Waste: Municipal Waste (Paper, Plastic, Wood etc.) iii.Waste Feeding: Manual iv.Fuel: Natural Gas v.Incinerator Type: Double Chamber vi.Expernal Cladding: MS Sheet of suitable Gauge, Painted with corrosion resistant paint vii.Flue Gas Emission Discharged to the Atmosphere should meet Pakistan National Environment Quality Standards (NEQS) viii.User Friendly operation should be ensured by proper automation ix.Adequate Safety Features should be incorporated to protect the premises and operators against mishaps and accidents Primary Chamber i.Auto ON/OFF Burner ii.Auto Temperature Control iii.Excess Air Blower Fan iv.Chamber constructed of two layer refractory linging v.Compressing: Thermal insulator linging and refractory masonry linging sufficient enough to maintain normal temperature at outside Secondary Chamber Primary Chamber i.Auto ON/OFF Burner ii.Auto Temperature Control iii.Excess Air Blower Fan iv.The Chamber constructed of two layer refractory linging, comprising v.Thermal insulator linging and refractory masonry linging sufficient enough to maintain normal temperature at outside Control Panel Standard PLC Control Panel Note: All instruments/controller must be of high quality, preferably European/Japanese Origin Chimnery/Stack Made of MS Sheet, Sufficiently insulated and Lined with Refractory bricks (where required) to maintain normal temperature at outer surface Painted with High Quality Customer will be responsible for provision of electric supply and natural gas upto incinerator Heat and Corrosion Resistant Paint NOTE: Motors of all blowers/fans/pumps must be of high quality, preferably European/Japanese Origin
Features: Smoke and smell free High Temperature , refractory lining with excellent heat retention Quick heat up time Must have a secondary chamber Constant run fan Temperature monitoring Thermostat Control Technical Specifications Capacity: approx. 0.20 m3 Fuel consumption: 5 litres /hour Diesel Oil Min Operating Temp: 900oC Max Operating Temp: 1350oC Residence Time: 2 sec […]
1/ 200kgs/Hr medical waste incinerator. 2/ (CIF Term) Cost of shipping from factory to PAPUA NEW GUINEA seaport of LAE, Morobe province 3/ Cost of 2 Clover engineers to Supervise, Installation, Training our engineers and commissioning the medical; waste incinerator. Electrically controlled incinerator. Two-compartment incinerator with a capacity of 20 kg / hour. Incinerator with low maintenance and operating costs; Equipped with an automatic control panel and easy to use with electromagnetic locking of the door. A main waste reduction chamber of 900 ° C. A post secondary combustion chamber of gases generated in the primary chamber at least 1100 ° C. Carbon residues in ash less than 5% by weight in accordance with European Directive 2000/76 / EC. With refractory lining in materials of higher quality waste incinerator that is bigger than YD.30c incinerator that have a 100kg loading capacity preferably in another hospital in Bayelsa State.Burn Rate-150Kg/hour minimum Weight(Kg)-4000kg Secondary Chamber(double chamber with post-burning) Gas Retention Time 2 second Fuel Diesel Power Supply for control box 220V-240, single phase 50-60Hz Minimum operating temperature 1200 oC One year spare parts package for complete maintainability 10m hose pipe. 1100 litre fuel Tank +pipe system Containerised (the container will serve as housing) Additional chimney extension 1 metre high
Would this mean that the plant would operate only 12 hours per day? Normally operating the station 24 hours per day should be able to valorize 12 tons per day for an installation with a capacity of 500 kgs/hr. Would plant operations be operational on a basis of 24 hours per day, 7 days a week, all year long except for regular and preventive maintenance periods? How many hours per year could your process be operational? What would be your approach for larger projects aiming to valorize 1 000 tons per day? How much electricity could be produced using you technology based on a 1 000 tons per day installation to valorize urban wastes having a humidity factor of say 50% and a calorific value in the order of 2.5 MW/ton of wastes at the entrance of the waste-to-energy station (i.e. before pre-treatment of wastes)? What volume and characteristics of ashes would be produced from such solid wastes valorization? What would be the capital cost necessary to meet the requirement to valorize 1 000 tons per day of urban wastes? What would be the selling price of electricity per kWhour to meet targeted profitability? Could you valorize sludge volumes coming from sewage treatment plants and if so at what maximum humidity factor could you operate the station at? Considering that your process is an incineration process, oxygen will be required, therefore there will be some air emissions from the process, how can air emissions be controlled to meet environmental norms? What would be your implication in any project : would you prepare process engineering, electricity production engineering, engineering for site work, buildings, electrical hook up to existing electrical network? Do you have complete construction capabilities or would you require a local partner to carry out which portion of construction work? Would you also operate the station or use a local partner to operate the station? Can you quote a custom design that can accommodate this container size? What′s the MIN and MAX chamber temperature and its heating time from MIN to MAX temperature? Do you also manufacture the afterburner? How about the exhaust pipe?
1. Petrol: diesel 2. Consumption: 8-10liter/hour 3. Capacity: to cremate (carrion and spoils) 350-400kg/hour 4. Temperature: 900-1350?C 5. Operation temperature: -30~40?C 6. Incinerator weight: 1800-2000 kg 7. Volume: 0.70-0.80m/cube 8. Exterior dimension: 1.4-1.6*1.0-1.15m (L*W) 9. Trial able 10. Incinerator mouth size: 50-60cm (W), 65-75cm (L) Ignition by Diesel Minimum burning temperature 1200 Celsius Burning capacity of 20 Tons per day. Cooling by water Burn Rate 100Kg/h Shipping Weight 4000kg Capacity 300Kg MINIMUM Max. Burn out time 3.0 hrs. Avg. Ash Residue 3% Heavy Duty refracting lining to withstand 15000C Min. Operating Temperature 8500C Max. Operating Temperature 14500C Residency Time in Secondary Chamber 2 sec. Density Insulation (high) 22mm Avg. Fuel Consumption p/hr 7 to 9ltr Fuel Dual, box & Oil/Diesel Temperature Monitoring YES Auto ignition YES Refractory Casting (min.) 65mm Refractory Casting (min) 65mm INCINERATORS Biological waste disposal system (INCINERATOR). Incinerator must meet the following specifications: Combustion Capacity (kW) = 581 ±10% Combustion Capacity (kcal/h) = 500,000±10% Combustion Capacity – Solid waste IMO spec, (kg/h) = 100 IMO spec. (I/charge) Minimum Zero 0 to Maximum = 250 Combustion Capacity – Sludge oil IMO spec, (l/h) (at 20% water content) -66±10% Max. l/h (at approx. 50% water content) = 100 ±10% Weight approx. (kg) = 4,850 ±10%
Containerized Mobile Incinerator with buring rate from 10kgs per hour and 20/30/50kgs per hour capacity. We fixed incinerator system inside the container already, local customer fix the electric system and smoke chimney. This product is moveable by truck to other location. All system completed with diesel oil fired. Completed with Double combustion chamber. Fixed […]
Aboriginal Affairs and Northern Development Canada (AANDC). Handbook of Reclamation Techniques in the Yukon, (1999). Alaska Department of Environmental Conservation and Alaska Energy Authority. Burning Garbage and Land Disposal in Rural Alaska, (2004). http://www.akenergyauthority.org/AEAdocuments/BurningGarbage.pdf Canadian Council of Ministers of the Environment (CCME). Canada-Wide Standards for Dioxins and Furans Emissions from Waste Incinerators and […]
This picture indicate how to contact the incinerator diesel oil tube and also the temperature probe.
The Application of Open Burning and Incineration The Department of Environment does not promote or endorse the burning and incineration of solid waste. This method of waste management should be implemented only after the owner or operator has made all reasonable and determined efforts to implement sound waste management planning and practices. Opportunities to reduce […]
Three sets incinerator with 1oo kgs per hour capacity dispatch to Africa customer.
Incinerator means same with cremator if you said incineration, but there is some difference. a.) incinerator for waste. VS cremator for animals b.) incineration to be ash and clean it. VS cremation and collect ash into pet cremation urns. c.) waste stack disorderly.VS pet in chamber individual. d.) waste material complicated. VS pet is body. […]
New incinerator delivery for our poultry project to burn dead chickens in Oman.