...lack 热氧化降解塑炼法、thermal-oxidative plasticization 氧化热裂解、部分氧化裂解法、部分燃烧裂解法、oxidative pyrolysis ..
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大力开发生物质的热裂解制油技术,可将低品位的生物质能转化成高品质的、高能量密度,清洁、无污染而且二氧化碳排放为零的生物油液体燃料。
The technology of biomass pyrolysis can convert low-quality biomass into bio-oil that has the character of high-quality, high energy density, cleanness and zero carbon dioxide emission.
热氧化和热裂解过程中沉积物的生成是影响燃料安定性的重要因素。
The formation of deposits, which caused by thermal oxidation and thermal cracking, was the main factor on the stability of fuel.
烃源岩的热降解和储层中的烃类热催化裂解,生成有机酸和二氧化碳,引起深层碳酸盐岩发生溶解作用。
Organic acid and CO2, generated from thermal degradation of source rocks and thermo-catalytic cracking of hydrocarbons in reservoirs, destabilized and dissolved the carbonates at depth.
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