Hydrogen Energy
Hydrogen Energy
Waste Plastic Pyrolysis
Waste Plastic Pyrolysis
Hydrogen Production Plant Using Waste Plastic Pyrolysis Oil
- Waste plastic is sorted and decomposed, and the resulting pyrolysis oil is introduced into the reforming process to produce syngas.
- The produced syngas is heated to 700°C and mixed with high-temperature steam. Through reforming reactions with carbon monoxide and water, hydrogen is generated.
- After cooling, impurities are removed through filters, and hydrogen is first extracted. Then, through a water gas shift (WGS) reaction, high-purity hydrogen is produced.
- Finally, hydrogen with 99.99% purity is obtained through PSA (Pressure Swing Adsorption).
In 2022, selected as a materials & parts technology development project by the Korea Evaluation Institute of Industrial Technology (KEIT), focusing on:
- Separation and reforming reactions
- Development of long-life catalysts
- Optimization of the WGS reaction and pilot plant construction/operation
Hydrogen Production Plant Using Waste Plastic Pyrolysis Oil
- Waste plastic is sorted and decomposed, and the resulting pyrolysis oil is introduced into the reforming process to produce syngas.
- The produced syngas is heated to 700°C and mixed with high-temperature steam. Through reforming reactions with carbon monoxide and water, hydrogen is generated.
- After cooling, impurities are removed through filters, and hydrogen is first extracted. Then, through a water gas shift (WGS) reaction, high-purity hydrogen is produced.
- Finally, hydrogen with 99.99% purity is obtained through PSA (Pressure Swing Adsorption).
In 2022, selected as a materials & parts technology development project by the Korea Evaluation Institute of Industrial Technology (KEIT), focusing on:
- Separation and reforming reactions
- Development of long-life catalysts
- Optimization of the WGS reaction and pilot plant construction/operation
