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Industry NewsKARGEN | MOF-Based CO2 Capture Technology & Solutions
About the Solution
In response to global carbon neutrality goals, CO2 capture, utilization, and storage (CCUS) have become a core technical pathway for industrial emission reduction and negative carbon emissions. KARGEN has developed full-scenario CO2 capture solutions based on MOF materials, covering flue gas capture, direct air capture (DAC), and confined space CO2 control. With high adsorption capacity, strong selectivity, and low-energy regeneration, our solutions provide efficient and sustainable CO2 capture services for industrial enterprises and negative carbon projects worldwide.
Technical Principles
Application Scenarios
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Industrial Flue Gas Capture
Suitable for power plants, cement plants, petrochemical plants, and steel mills with high CO2 concentration emissions. MOF materials offer strong temperature and moisture resistance, adapting to complex flue gas conditions. Captured CO2 can be recycled for chemical synthesis, food-grade applications, or geological storage. -
Direct Air Capture (DAC)
Ideal for regions without centralized emission sources, negative carbon projects, and confined spaces such as submarines and space stations. The technology operates at room temperature and atmospheric pressure with compact equipment, consuming only 60% of the energy of traditional DAC technologies. -
Confined Space CO2 Control
Applied in submarines, space stations, underground bunkers, and high-end office buildings. MOF materials rapidly reduce CO2 concentrations to safe levels with low regeneration energy consumption, eliminating the need for frequent adsorbent replacement and ensuring personnel safety and comfort.
Technical Advantages
Superior Performance: Higher adsorption capacity and selectivity than traditional activated carbon and zeolites, with 50% higher capture efficiency in the same volume.
Low Energy Consumption: Regeneration at room temperature or moderate temperatures, reducing energy consumption by 40-60% compared to traditional amine washing methods.
Strong Stability: Temperature, moisture, and acid-base resistance, adapting to complex industrial working conditions with long service life.
Engineering Feasibility: Large-scale production capacity, modular equipment design, and controllable costs, suitable for large-scale project deployment. Environmental Friendliness: Green synthesis of MOF materials with zero pollution emissions, supporting sustainable development.
