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Chinese Academy of Sciences Develops New Route
On July 12, the reporter learned that researchers from Dalian Institute of Chemical Physics, Chinese Academy of Sciences have developed two new routes to prepare renewable pendant tetrahydrodicyclopentadiene (JP-10 fuel) via lignocellulose platform compound-furfuryl alcohol. Chinese Academy of Sciences Develops New Route for Furfuryl Alcohol to Produce "Super Fuel" to Effectively Reduce Preparation Cost Synthesis of Renewable JP-10 Fuel from Lignocellulose Platform Compound Furfuryl alcohol is an important chemical obtained from hemicellulose in agricultural and forestry wastes, which has been industrialized for decades. Researchers have developed two new routes for synthesizing JP-10 high density fuel from furfuryl alcohol, which can achieve a yield of about 65% (calculated on carbon). After preliminary economic analysis, the biomass route can reduce the preparation cost of JP-10 fuel. Chinese Academy of Sciences Develops New Route for Furfuryl Alcohol to Produce "Super Fuel" to Effectively Reduce Preparation Cost JP-10 fuel is a classic one-component high-density aviation fuel. Compared with common aviation kerosene, JP-10 fuel has obvious performance advantages in density, freezing point, thermal stability and so on, so it is also called "super fuel". Currently, JP-10 fuel is usually prepared from cyclopentadiene derived from fossil resources, which is relatively expensive and cannot be widely used in civil aviation due to limited raw material resources. Chinese Academy of Sciences Develops New Route for Furfuryl Alcohol to Produce "Super Fuel" to Effectively Reduce Preparation Cost The synthesis of renewable aviation fuel from lignocellulose is a hot research topic in international biomass catalytic refining. At present, the existing reports on lignocellulose aviation kerosene at home and abroad mainly focus on the synthesis of common aviation kerosene.