Core Viewpoint - The collaboration between Shanxi Coal Chemical Institute and Sichuan Lutianhua Co., Ltd. aims to develop biomass-based long-chain alpha-olefins, addressing the high dependency on imported raw materials and high production costs associated with traditional petroleum routes [1][2]. Group 1: Project Overview - The project focuses on synthesizing long-chain alpha-olefins (C₆ and above) using biomass feedstocks, which can significantly reduce carbon emissions by over 60% compared to petroleum-based methods [2]. - The project will utilize a three-stage catalytic system involving hydrogenation, deoxygenation, and selective cracking of biomass oils, such as palm oil and waste oils [2]. Group 2: Technical Approach - The project employs a collaborative model involving research, engineering, and industrial application, with Shanxi Coal Chemical Institute leading the molecular sieve catalysis and catalyst design [3]. - The engineering phase will be supported by China Chemical SEDIN Engineering, ensuring continuous operation of the pilot plant for over 1,000 hours [3]. Group 3: Market and Product Focus - The products from this project will target high-value chemical markets, including high-end lubricants, oilfield additives, and environmentally friendly plasticizers, directly competing with major international players like ExxonMobil and Shell [1][2]. - Sichuan Lutianhua has a comprehensive production capacity across various chemical products, positioning it well to integrate biomass-based chemical production into its existing operations [4]. Group 4: Strategic Importance - The initiative aligns with China's "dual carbon" strategy, emphasizing the importance of biomass-based chemicals in global technological competition and industrial upgrading [1][2]. - The project aims to create a biomass-based fine chemical industry cluster, enhancing the overall value chain in the chemical sector [5].