烃类燃料

  • 网络hydrocarbon fuel
烃类燃料烃类燃料
  1. 流动燃料中产生的感应磁场将使烃类燃料发生电离,从而提高燃烧效率,即提高燃油的经济性。

    The magnetic field induced in the flowing fuel ionizes the hydrocarbon fuel to increase combustion efficiency , thus , increasing fuel economy .

  2. 本文方法已成功地用于国内首批烃类燃料结焦实验数据处理。

    The analysis in this paper has been successfully used for data processing of the first batch of coking experiments with hydrocarbon fuel in China .

  3. 共沉淀镍催化剂用于膜反应器中高碳烃类燃料水蒸气重整反应

    Application of Coprecipitated Nickel Catalyst to Steam Reforming of Higher Hydrocarbons in Membrane Reactor

  4. 合成高密度烃类燃料研究进展

    Development of Synthesized High-Density Hydrocarbon Fuels

  5. 高超音速推进用吸热型烃类燃料的热稳定性研究Ⅱ.添加剂的合成与评价

    Study on thermal stability of endothermic hydrocarbon fuels for hypersonic propulsion ⅱ . autoxidation mechanism and additives evaluation

  6. 合成氨原料气醇烃化过程精制过程在达到气体净化要求的同时副产甲醇和烃类燃料,是一种较为先进的工艺,对该过程进行模拟、分析和优化可达到进一步节能减排的目的。

    Refining process via alcoholization and hydrocarbonylation for ammonia synthesis feedstock gas is an advanced process for it can obtain useful byproducts methanol and hydrocarbon fuels simultaneously .

  7. 吸热型烃类燃料是一种热安定性好、可以利用其化学热沉的燃料,其热沉能够满足高超音速飞行的需要。

    Endothermic hydrocarbon fuels ( EHF ) can provide sufficient heat sink for hypersonic scramjet cooling , the total hint sink of EHF come from the physical heating of the fuel and endothermic chemical reaction .

  8. 高张力笼状烃类燃料和添加纳米级微粒的燃料拥有更大的密度(一般大于1gcm3)和燃烧热值,是极具发展前景的新一代燃料。

    The high | strain caged hydrocarbons and high | density fuels with nanoparticle additives are most promising candidate fuels , because of their higher density ( usually over 1g / cm 3 ) and combustion value .

  9. 本文介绍了煤油传热试验结果及沉积物形成的速率,分析了烃类燃料的冷却特点。

    The experimental results of the heat transfer and the deposit formation rate for kerosene fuel are presented and analyzed in this paper , with the highlights on the analysis of the cooling characteristics of hydrocarbon fuels .