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燃料能源的相互转化及其利用效率(上) 被引量:1

The Mutual Conversion of Fuel Energy and their Utilization Efficiency
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摘要 简要回顾人类使用燃料的历史发展过程,认为将不同类型的燃料相互转化,达到便于使用和提高能量利用效率的目的是当代科学技术的一大成就。文章分别叙述了固体、液体和气体燃料转化为合成气、气体燃料转化为液体燃料、固体燃料直接转化为液体燃料和氢能燃料四种转化过程,最后论述了物料和能量转化效率及综合经济评价。 Briefly reviewed the developing history of fuel utilization by mankind and concluded that the mutual conversion of different kinds of fuels in order to meet the convenient utilization and high energy utilization efficiency is a tremendous achievement of modern science and technique; Separately narrated four types of conversion: the conversion of solid, liquid and gas fuel to the synthetic gas; the conversion of gas fuel to the liquid fuel; the direct conversion of solid fuel to the liquid fuel and hydrogen energy fuel; Lastly, discussed the material and energy conversion efficiency and overall economic evaluation.
作者 陈俊武
机构地区 中国石油化工集团洛阳石油化工工程公司
出处 《石油规划设计》 2001年第2期3-6,38,共5页 Petroleum Planning & Engineering
关键词 固体燃料 气体燃料 液体燃料 气化 液化 转化过程 能源结构
分类号 TK01 [动力工程及工程热物理] TQ517 [化学工程]
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参考文献12

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同被引文献9

  • 1FRIDMAN A, NESTER S, LAWRENCE A, et al. Gliding arc gas discharge [J].Progress in Energy and Combustion,1999,25(2): 211 - 231.
  • 2CZENICHOVSKI A. Gliding arc applications to engi neering and environment control[J]. Pure & Appl Chemistry, 1994,66(6) : 1301 - 1310.
  • 3BENSTAALI B, MOUSSA D, ADDOU A, et al. Plasma treatment of aqueous solutes: some chemical properties of a gliding arc in humid air[J]. The European Physical Journal Applied Physics, 1998,4(2) : 171 - 179.
  • 4LEE D H, KIM K T, CHA M S, et al. Optimization scheme of a rotating gliding arc reactor for partial oxida tion of methane[J]. Proceeding of the Combustion Institute, 2007,31(2) : 3343 - 3351.
  • 5MUTAF-YARDIMCI O. Plasma catalysis in hydrocarbon processing by using non equilibrium plasma discharges[D]. Chicago:University of Illinois, 2001.
  • 6DALAINE V, CORMIER J, PELLERIN S. Study and modeling of a 50 Hz gliding discharge[J]. Optimization of Electrical and Electronic Equipment, 1998,1:161 - 166.
  • 7KADO S, URASAKI K, SEKINE Y, et al. Reaction mechanism of methane activation using non-equilibrium pulsed discharge at room temperature[J]. Fuel, 2003, 82(18) :2291 - 2297.
  • 8齐凤伟,陶旭梅,李洁,龙华丽,印永祥.热等离子体和催化剂协同作用重整甲烷和二氧化碳制备合成气[J].天然气化工—C1化学与化工,2007,32(5):32-35. 被引量:10
  • 9张军旗,杨永进,张劲松,刘强.常压、脉冲微波强化丝光等离子体作用下甲烷与二氧化碳的反应研究[J].化学学报,2002,60(11):1973-1980. 被引量:13

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二级引证文献4

石油规划设计
2001年 第2期

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