Innovative system designed to convert carbon dioxide (CO₂) into syngas (mixture of hydrogen and carbon monoxide) using electrolysis. Innovative electrochemical reaction technology that utilizes CO₂ and water from electrolyte to transform these raw materials into syngas under electrical energy influence. Process involves electron reception through cathode catalyst, while oxygen is released at anode catalyst.
High-Efficiency Conversion: Achieves efficient conversion of CO₂ and water through electrochemical reactions without need for high temperatures or additional energy inputs, significantly reducing energy consumption
Direct Capture and Utilization: Implements electrochemical capture and conversion approach enabling self-enrichment and direct CO₂ utilization, enhancing efficiency and lowering operational costs
Flexible Processing Scale: CO₂ processing capacity of single stack ranges from 50 to 2000 tons per year, suitable for varying production demands
High-Quality Syngas Products: Syngas purity can reach over 85%, with carbon-hydrogen ratio between 0.2/1 and 1/1, ideal for subsequent chemical synthesis
Long Service Life: Electrodes have lifespan of 5 to 7 years, reducing maintenance frequency and costs
Chemical Industry: Syngas serves as crucial raw material for production of high-value products such as synthetic fuels, methanol, and olefins
Renewable Energy: When combined with renewable energy sources like wind and solar, enables effective energy utilization and conversion, promoting sustainable development
Environmental Protection: By converting atmospheric CO₂ into usable chemical feedstocks, helps mitigate global warming and climate change issues
Capacity per Stack: 50 - 2000 tons CO₂/year
Syngas Purity: >85%
C:H Ratio: 0.2/1 to 1/1 (adjustable)
Electrode Lifespan: 5-7 years
Process: CO₂ + H₂O electrolysis → CO + H₂ + O₂