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机译:石油基和可生物降解塑料废物催化热解,获得高价值化学品
Energy and Materials for Sustainability (EMS) Research Croup Division of Physical Science Faculty of Science Prince of Songkla University Hat-Yai Songkhla 90112 Thailand;
Energy and Materials for Sustainability (EMS) Research Croup Division of Physical Science Faculty of Science Prince of Songkla University Hat-Yai Songkhla 90112 Thailand Center of Excellence for Innovation in Chemistry Faculty of Science Prince of Songkla University Hat-Yai Songkhla 90112 Thailand;
Energy and Materials for Sustainability (EMS) Research Croup Division of Physical Science Faculty of Science Prince of Songkla University Hat-Yai Songkhla 90112 Thailand;
Center of Excellence in Catalysis and Catalytic Reaction Engineering Department of Chemical Engineering Faculty of Engineering Chulalongkorn University Bangkok 10330 Thailand Bio-Circular-Green-economy Technology & Engineering Center BCCeTEC Department of Chemical Engineering Faculty of Engineering Chulalongkorn University Bangkok 10330 Thailand;
Biotechnology for Bioresource Utilization Laboratory Department of Industrial Biotechnology Faculty of Agro-Industry Prince of Songkla University Hat-Yai Songkhla 90112 Thailand;
Catalytic pyrolysis; Plastic wastes; Polylactide; Petroleum-based plastics; Spent FCC; Zeolite;
机译:同时生产富含生物量/塑料废物的催化共热分解的富含生物油和碳纳米材料,以及热解气体的型号催化升级
机译:用于合成气生产的废塑料和混合废塑料的热解-催化-干燥重整
机译:Fe / Al_2O_3催化剂的不同废塑料的热解催化:高价值氢,液体燃料,碳纳米管和可能的反应机制
机译:用于塑料废物减少的复合和加工水力 - 可生物降解薄膜。第II:维珍/废物聚合物共混物的热和化学印刷
机译:从废聚烯烃塑料的快速热解中可持续生产化学品和燃料
机译:通过催化热解将生物质废物一步热化学转化为超疏水碳材料
机译:用于合成气生产的废塑料和混合废塑料的热解 - 催化 - 干法重整
机译:塑料废物的催化热解 - 迈向经济上可行的过程