PYROLYSIS

Pyrolysis, usually in the absence of oxygen, water vapor, or heated CO2 in the reactor, is the process by which a material is heated to cause the molecules to decompose into fuel (gas, liquid, and carbon black). Due to the decomposition under anoxic conditions, fewer emissions are conducive to reducing the atmospheric environment and secondary pollution. Most of the sulfur and heavy metals in the waste are fixed in carbon black. The pyrolysis products vary significantly with the pyrolysis temperature.



Treatment objects: digestate, plastic, straw, combustible garbage, industrial organic waste (including organic hazardous waste), municipal sludge, paper sludge, oil sludge, etc.







Reactor types and features


Type

Spiral pyrolysis

Rrotary kiln pyrolysis

Multi-stage pyrolizer

Application

1) dispersing domestic waste.

2) industrial wastes.

3) carbon production from biomass.

4) some hazardous wastes.


1) tire cracking.
2) industrial sludge and oil sludge.
3) domestic waste.
4) some hazardous wastes.


1) sludge disposal.
2) disposal of industrial waste salt.
3) activated carbon reactivation.


Features

1) Easily controllable reaction time.

2) Efficient energy use, customized products according to demands.

3) Good sealing and improved environment & safety.

4) adjustable gaseous composition of the volatile matter.

5) not suitable for super-scale plants.

1) wide application range, simple operation.
2) the balance operation of high moisture content material can be realized.
3) the pyrolysis time can be controlled according to the material properties.
4) high power demand, poor sealing, and large land occupation.

1) Easily controllable reaction time.

2) wide application range.

3) vertical furnace, small land occupation.

4) Certain requirements on moisture content.




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JADE compared to traditional pyrolysis technology


Pyrolysis Technology

JADE Pyrolysis

Traditional Pyrolysis

Syngas quality

Calorific value 15-17 MJ/KG.

2 - 3 times of syngas from traditional pyrolysis gasifiers.


Caloric value 4-7 MJ/KG.

Tar reforming

Tar reformed, solved the tar problem thoroughly.

More stable operation.

Can not solve tar blockage problem completely.

Unstable operation.

Flue gas treatment

Avoid fly ash and dioxins secondary pollution of flue gas by purification and reforming.

Low investment in flue gas treatment.


Syn-gas usually not purified prior to burning in the 2nd combustion chamber.

Requires many process in flue gas treatment.


Energy utilization

Optimized utilization of the system's high-temperature sensible heat, high heat treatment efficiency, highly efficient energy usage, and low operation energy consumption.

Low efficiency energy usage. Requires auxiliary fuel.

High operating costs.


Resource utilization

Adjustable output ratio of gas, oil, and carbon based on customers’ needs and wastes properties.

High adaptability and resources utilization level.

Difficult to carry out process designs according to other raw materials and the diverse needs of customers.






Learn more about anaerobic digestion.
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