The UBE CO₂ separator works in gas separation processes, employing a selective permeation method to separate gases from a mixture. Regarding CO₂ separation, this membrane can be used in purifying biomethane by removing carbon dioxide from biogas efficiently. UBE, with over 40 years of experience in gas membrane development, utilizes polyimide hollow fiber membranes and the latest technologies, establishing itself as a leader in innovation and reliability.
The CO₂ separation process relies on hollow fiber membranes, allowing molecules with higher permeability rates (H₂O, CO₂,O₂) to pass through more quickly than those with lower rates (CH4). This selective process results in biomethane, with a purity up to 99.5% with a 99.8% yield while consuming minimal energy.
Biogas, derived from organic waste through anaerobic decomposition, plays a crucial role in the industrial sector, addressing sustainability, energy efficiency, and waste management. Its versatile applications contribute to decentralized energy generation, waste reduction, and emission mitigation, aligning with responsible and environmentally-friendly business practices. Industries are increasingly recognizing the importance of adopting sustainable energy sources.
In conclusion, the UBE CO₂ separator is an advancement in gas separation membranes, particularly in biogas upgrading. Its effectiveness in selectively separating carbon dioxide contributes to the production of high-purity biomethane, an important key in the transition to a greener and more sustainable technologies. As industries seek cleaner and more efficient solutions, UBE’s commitment to sustainability and innovative membrane technology positions it as a valuable partner in addressing the challenges of the evolving energy landscape.
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