GEELY AUTO(HK:00175) Zhong Guo Hua Gong Bao·2025-08-22 02:36Core Viewpoint - Geely's carbon dioxide hydrogenation to methanol pilot project marks a significant advancement in the self-iteration and upgrade of core technologies, laying the foundation for industrial application of this technology [1] Group 1: Technology Development - The carbon dioxide hydrogenation to methanol technology effectively utilizes high-concentration CO2 emissions from industries such as coking, steel, and thermal power to produce methanol, which can replace imported crude oil [1] - The catalyst preparation is crucial as it directly affects reaction efficiency and the feasibility of industrialization [1] - The new generation of catalysts developed by Geely achieves over 99% total CO2 conversion rate and methanol selectivity, with a more than 20% increase in methanol space-time yield and a catalyst lifespan of over 3 years [2] Group 2: Economic Impact - The new process technology reduces the comprehensive energy consumption for methanol production by 10% and lowers the cost per ton of methanol by 6% [2] - The pilot project aims to validate the performance improvements of the new generation catalyst and gather critical data for large-scale industrial application [2] Group 3: Environmental Goals - This technology is a key component in Geely's construction of a green methanol circular economy, integrating methanol preparation, transportation, refueling, and CO2 capture [3] - The technology can couple with high-carbon industries such as coal chemical, steel, and power plants, creating a circular economy model of "carbon waste—resource utilization—recycling" to support China's dual carbon goals [3]