TY-JUR A2 - Watanabe,Masaru Au - Liu,晓芳奥王,瑞利 - 2018DA - 2018/12/17 TI - 碳水化合物升级到生物燃料候选5-乙醇替代(EMF)SP - 2316939 VL - 2018 AB- 由于其高能量密度(8.7千瓦时L.)(8.7千瓦时L.)被认为是柴油有前途的生物燃料和添加剂的5-乙氧基甲基呋喃布(EMF)被认为是柴油的有希望的生物燃料和添加剂-1)。已经开发了几种催化材料,用于在相对温和的反应条件下合成来自不同原料的EMF。虽然过去几十年进行了大量的研究,但不令人满意的生产选择性大部分限制在50%-70%的范围内,并且用作基材的经典果糖限制了大规模燃料制造的应用。To address these production improvements, this review pays attention to evaluate the activity of various catalysts (e.g., mineral salts, zeolites, heteropolyacid-based hybrids, sulfonic acid-functionalized materials, and ionic liquids), providing potential research directions for the design of novel catalysts for the achievement of further improved EMF yields. SN - 1687-806X UR - https://doi.org/10.1155/2018/2316939 DO - 10.1155/2018/2316939 JF - International Journal of Chemical Engineering PB - Hindawi KW - ER -