Engineered for
Efficient Resource Recovery

The production process is based on the pyrolysis technology that is environmentally friendly thermal decomposition of WEEE and ASR waste into components for commercial-grade products manufacture.

Delivered products:

Dry residue =>

• Carbon

Screening residue (depending on the composition of waste WEEE):

• Precious metals
• Copper fractions
• Fiberglass

Boiler fuel =>

• used for its intended purpose

Pyrolysis gas:

• used for the plant operation

TDP-2-2000 ADVANTAGES:

• minimum emissions into the air
• low labor force participation
• high performance
• mobility
• maximum degree of purification from third-party materials
• high degree of recovery of precious materials

1. The raw material is continuously fed into the pyrolysis chamber by the screw conveyor.
2. Fuel is self-fed from fuel tank. After the process is stabilized, the burner is switched to produced pyrolysis gas.
3. Cooled mixture enters the separator where it is divided on different fractions:

• Pyrolysis oil is sent to the storage tank
• Pyrolysis gas is sent to the burner
• Cooled dry residue is discharged by screw conveyor and sent to components recovery

The production process is based on the pyrolysis technology that is environmentally friendly thermal decomposition of WEEE and ASR waste into components for commercial-grade products manufacture.

Delivered products:

Dry residue =>

• Carbon

Screening residue (depending on the composition of waste WEEE):

• Precious metals
• Copper fractions
• Fiberglass

Boiler fuel =>

• used for its intended purpose

Pyrolysis gas:

• used for the plant operation

TDP-2-200 ADVANTAGES:

• continuous processing mode
• low energy intensity
• mobility
• ease of extraction of precious metals from the dry residue processing
• built-in cooling system
• modernized gas cleaning system

1. The raw material is continuously fed into the pyrolysis chamber by the screw conveyor.
2. Fuel is self-fed from fuel tank. After the process is stabilized, the burner is switched to produced pyrolysis gas.
3. Cooled mixture enters the separator where it is divided on different fractions:

• Pyrolysis oil is sent to the storage tank
• Pyrolysis gas is sent to the burner
• Cooled dry residue is discharged by screw conveyor and sent to components recovery.

The production process is based on the pyrolysis technology that is environmentally friendly thermal decomposition of WEEE and ASR waste into components for commercial-grade products manufacture.

Delivered products:

Dry residue =>

• Carbon

Screening residue (depending on the composition of waste WEEE):

• Precious metals
• Copper fractions
• Fiberglass

Boiler fuel =>

• used for its intended purpose

Pyrolysis gas:

• used for the plant operation

TDP-2-800 ADVANTAGES:

• ecological safety – lack of emissions into atmospheric air
• no need to use a pyrometallurgical process
• low power consumption
• mobility
• ensuring the homogenization of precious metals
• automated control system

1. The raw material is continuously fed into the pyrolysis chamber by the screw conveyor.
2. Fuel is self-fed from fuel tank. After the process is stabilized, the burner is switched to produced pyrolysis gas.
3. Cooled mixture enters the separator where it is divided on different fractions:

• Pyrolysis oil is sent to the storage tank
• Pyrolysis gas is sent to the burner
• Cooled dry residue is discharged by screw conveyor and sent to components recovery.