Innovative method designed to convert carbon dioxide into valuable chemicals and fuels using electrochemical reactions. Process utilizing renewable electricity to drive CO₂ reduction, transforming it into methane, ethylene, and other hydrocarbons.

Technical Features:

• Modular Design: Highly integrated modules for enrichment, electrolysis, and separation

• Enhanced Efficiency: Optimized integration of key processes

• Low Cost: Uses low-concentration CO₂ from flue gases

• Cost Reduction: Minimization of raw material costs

• Environmentally Safe: Pollution-free process

• Electrochemical Methods: Replacement of traditional chemical reactions

• Cleaner Operation: Ensures safer and greener operation

• High Conversion Efficiency: Direct conversion of low-concentration CO₂

• Effective Reduction: Significant decrease in CO₂ emissions

Integrated Processes:

• Raw gas enrichment

• Electrochemical reaction

• Product separation

• Direct CO₂ conversion

Technological Advantages:

• Environmental sustainability

• Energy efficiency

• Modularity for scalability

• Renewable energy compatibility

Applications:

• Flue gas treatment (CO₂ capture and conversion)

• Chemical industry (sustainable production of formic acid and methanol)

• Energy sector (energy storage materials and fuel cells)

• Industrial carbon footprint reduction

• Clean energy transition