Microwave
pyrolysis
equipment
Features of Microwave Pyrolysis Equipment
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Microwave pyrolysis is a specialized technology that heats and decomposes waste plastics at low temperatures (350 ~ 450°C) in an oxygen-free environment.
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High Efficiency & Precision Heating : By utilizing microwave absorbers (such as SiC or Carbon Black) for direct and indirect heating, this system reduces power consumption and heats raw materials more effectively. It offers higher yields and greater accuracy compared to conventional heating methods.
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Polymer Decomposition : High-energy microwaves break down the long carbon chains of polymers, reverting them back into pyrolysis oil (a petrochemical feedstock) or monomers.
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Eco-Friendly Performance : Compared to traditional incineration or pyrolysis methods, it increases energy efficiency and reduces carbon emissions, and can also process waste plastic mixed with foreign substances.
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"Urban Oil Field" Realization : This technology enables a "circular economy" by converting plastic waste into high-quality pyrolysis oil or chemical raw materials, effectively acting as an urban oil field.
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Compact & Decentralized Systems : Unlike traditional large-scale plants, this technology is easy to implement as a small-scale, decentralized system. This significantly reduces transportation costs and improves geographical accessibility.
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Example of a polymer pyrolysis plant
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P&ID for polymer pyrolysis
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Microwave pyrolysis
Aluminum Pouch
Recycling Facility
Aluminum Pouch Recycling Equipment
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Aluminum pouches (packaging coated with aluminum) are composite materials consisting of aluminum and plastic, making them traditionally difficult to recycle through conventional means.
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The recycling process follows these stages: Sorting → Washing → Shredding → Microwave Pyrolysis. Plastics can be reused as pyrolysis oil, and separated aluminum can be reused as ingots after melting.
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Since plastic itself has low reactivity with microwaves, it is mixed with a susceptor material that has high microwave reactivity. This allows the mixture to reach temperatures of up to 1000℃ in an extremely short period.
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This process uses this heating mechanism to carry out thermal decomposition, classifies and stores the residue, and melts and resells the remaining aluminum.
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Aluminum pouch pyrolysis furnace
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Aluminum pouch pyrolysis process
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Microwave aluminum melting furnace
Waste
recycling
facilities
Waste Silicon Upcycling Equipment
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This equipment converts waste silicon—generated during semiconductor and solar cell manufacturing processes—into reusable silicon compounds through microwave pyrolysis.
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Target Material: High-purity waste silicon from tech-manufacturing streams.
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Transformation: Utilizing microwave energy to chemically transform waste into value-added compounds
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Application: Promotes a circular economy by feeding materials back into the semiconductor and solar industries.
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Example of waste silicon resource recycling facility
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Preheating and mixing equipment
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Reaction equipment
Radioactive Waste Recycling & Valorization Equipment
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Carbon Isotope Recovery System : This equipment is designed to recover and recycle carbon radionuclides (such as Carbon-14) contained in spent ion-exchange resins, which are a common form of radioactive waste.
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Activated Carbon Decontamination System : This system removes radioactivity from spent activated carbon, decontaminating the material so it can be safely reused or repurposed.
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Boron Carbide (B4C) Carbonization Facility : A specialized thermal treatment facility that transforms powder into Boron Carbide—a high-value material—through a carbonization process.
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Carbon nuclide microwave processing facility
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Carbon nuclide recovery and recycling pilot facility
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Continuous AC radionuclide removal facility