Quality Fully Enclosed Domestic Waste Incinerator with High Incineration Efficiency and Negative Pressure Design factory

Fully Enclosed Domestic Waste Incinerator with High Incineration Efficiency and Negative Pressure Design

Name: Fully Enclosed Domestic Waste Incinerator with High Incineration Efficiency and Negative Pressure Design
Brand: Chongqing Huanxiang Industrial. Co., Ltd.
SKU: Customized
Availability: InStock

Basic Properties

Place of Origin: Chongqing-China

Brand Name: Huanxiang

Certification: CE,ISO,KEMA,GOST

Model Number: Customized

Trading Properties

Minimum Order Quantity: 1 Piece

Price: To Be Negotiated

Payment Terms: T/T,L/C,Western Union

Supply Ability: To Be Negotiated

Waste Treatment Equipment

Waste Treatment Machine

Waste Treatment Machinery

Product Summary

Fully enclosed domestic waste incinerator with high-temperature pyrolysis gasification technology. Features automatic ignition, negative pressure operation, 95% waste reduction, and compliance with GB18485-2001 emission standards. Ideal for hospitals, hotels, and enterprises.

Product Details

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fully enclosed domestic waste incinerator

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fully enclosed domestic incinerator

Combustion Chamber Temperature: 850-1200℃

Flue Gas Residence Time: ≥2s

Processing Capacity: 30-500kg/h

Supply Voltage: 380V/50Hz

Total Installed Power: <50Kw

Water Consumption: <1T/h

Product Description

Fully Enclosed Domestic Waste Incinerator

China domestic waste incinerator is a domestic waste incineration treatment equipment developed by our company by introducing the world's advanced incinerator technology and organizing technical experts to tackle key problems. The equipment features fully enclosed design, small size, high incineration efficiency, reasonable process, leading technology, and high degree of harmlessness. It is an ideal waste treatment solution for various hospitals, hotels, stations, large commercial institutions, enterprises, and institutions.

The domestic waste incinerator adopts patented high-temperature pyrolysis gasification technology, which conforms to the 3T+E design principle. The entire system operates under negative pressure. When the temperature of the primary combustion chamber exceeds 550°C, the combustion engine automatically shuts down; when the temperature of the secondary combustion chamber exceeds 850°C, the combustion engine automatically shuts down. The entire operation process does not require fuel combustion, saving operating costs. The system is completely closed, preventing flue gas leakage, with combustion chamber temperature stably controlled at 850-1200°C and flue gas residence time ≥2s, ensuring dioxin harmful substances are fully decomposed and discharged according to standard.

Incinerator technical diagram showing temperature zones

Multi-function Garbage Incinerator

Product Overview

Suitable for rural household waste, medical waste, pet animal carcasses, industrial waste, etc.
Incineration calorific value: mixed calorific value approximately 2800 Kcal/Kg
Furnace body type: vertical cylindrical type
Equipment processing capacity: 30-500 kg/h per cycle
Ignition method: automatic ignition
Manual ash discharge, manual feeding, auxiliary fuel: liquefied gas (low calorific value 10495 Kcal/Kg)
Pressure in furnace: negative pressure design, no backfire, -3 to -10 mmH₂O column

System Composition

Shredder, screw conveyor, primary incineration room, secondary incineration chamber, water mist cooling and dust removal tower, cyclone dust removal tower, dry absorption filtration tower, pulse bag dust collector.

Main Performance Index

Supply voltage	380V/50Hz
Total installed power	<50 Kw
Processing capacity	4 T/d
Garbage reduction rate	>95%
Water consumption	<1 T/h
Fuel consumption	Approximately 5-25 kg/h (varies according to waste calorific value)
Nitrolime consumption	6 Kg/h
Activated carbon consumption	2 Kg/h
Exhaust emissions	Complies with GB18485-2001 "Pollution Control Standard for Municipal Solid Waste Incineration"
Noise	Complies with Class II standard requirements of GB12348-90 "Industrial Enterprise Boundary Noise Standard"
Mean time between failures	>3000 h

Incinerator performance metrics visualization

Operation Process

Dry garbage enters the shredder from the feed hopper and is processed into fragments approximately 20mm in length, then sent by the screw feeder to the primary incineration chamber for incineration. The primary incineration chamber is combusted by the burner, with temperature controlled at 850-1000°C.

After pyrolysis, drying, decomposition, coking, and full combustion, the dry waste reduction rate reaches more than 95%, and the remaining ash is automatically discharged. The high-temperature smoke generated by combustion enters the secondary combustion chamber and is burned again by the burner.

The temperature exceeds 1100°C. When the smoke is fully burned, the production of dioxins can be effectively avoided. After secondary combustion, the flue gas enters the cyclone dust removal tower under the action of the induced draft fan. The dust-containing gas generates centrifugal force during rotation, throwing dust particles with density greater than the gas to the tower wall, removing approximately 75% of flue gas dust.

After initial dust removal, the gas enters the water mist cooling and dust removal tower, fully combining with ultra-fine water mist, quickly cooling the temperature to approximately 200°C. Through rapid cooling, residual dioxins in the flue gas are effectively eliminated and further dust is removed.

The flue gas then enters the dry absorption filter tower, where it is desulfurized and deacidified through the "spray reactor + activated carbon injection device," with harmful substances adsorbed to remove odor. The dry dust is further filtered through the pulse bag filter, resulting in no peculiar smell and no foul odor, with smoke discharged to the atmosphere through the chimney up to standard.

The remaining ash and dust collected during the treatment process are stored in bags, sealed, and buried regularly to prevent soil pollution.

Project Examples

Incinerator project installation example

1 to 20 Tons Direct-fired Medical Waste Incinerator

Direct-fired medical waste incinerator unit

Medical waste incinerator technical specifications

System Composition

Primary combustion chamber, secondary combustion chamber and dust collector, dust removal device, various connecting elbows and flue, exhaust fan, independent chimney, diesel delivery system, ignition temperature control burner, secondary burner, blower and air supply system, pipeline platform, secondary room operating platform, temperature control system, electrical system, instrument control system, platform and support required for system installation and maintenance.

Medical waste incinerator system components

Medical waste incinerator installation diagram

Process Flow

Waste is fed into the main furnace body, where under the dual effects of high temperature and vortex jets, the waste fully contacts oxygen and is ignited and burned by an ignition temperature-controlled burner. According to the 3T burning principle (temperature, time, vortex), it is burned at one time.

The room is fully gasified, oxidized, pyrolyzed, and burned, and the high-temperature exhaust gas generated enters the secondary combustion chamber and dust collector. The generated flue gas is burned at high temperature (1200-1400°C) to optimize combustion effect and damage removal.

The main furnace body employs a water-cooled circulation system to control flue gas temperature below 1000°C. The flue gas enters the cyclone dust removal system, where the dry absorption method removes heavy metals and small particles. After cyclone dust removal, it enters the water curtain spray cooling system, reducing temperature to within 300°C.

The flue gas enters the bag dust removal system to remove fine dust, and finally the up-to-standard gas is introduced into the chimney through the exhaust system and discharged into the atmosphere. The ash produced after combustion is removed by the ash removal device, screened, and transferred to landfill.