气体燃料

qì tǐ rán liào
  • gaseous fuel
气体燃料气体燃料
  1. 气体燃料再燃对NOx还原的影响

    Effects of Gaseous Fuel Reburning on NOx Reduction

  2. 气体燃料再燃是研究较多的降低烟气中NOx含量最有效的方法之一。

    Gaseous fuel reburning pertains to one of the most effective methods being extensively studied for the reduction of NOx content in flue gases .

  3. 气体燃料发动机空燃比的H∞控制

    Air-Fuel Ratio Control Using H_ ∞ Theory on a Gaseous-Fuel Engine

  4. 基于混合灵敏度优化的鲁棒特征结构配置气体燃料发动机空燃比的H∞控制

    Air-fuel Ratio Control of a Gaseous-fuel Engine Based on the Mixed-sensitivity Design

  5. 掺烧LPG气体燃料对柴油机经济性的影响

    Influence of Blending LPG Fuels on the Economy of Diesel Engines

  6. 高辛烷值气体燃料LPG作为替代能源被广泛地加以应用。

    LPG as a new alternative fuel with high octane is being used broadly .

  7. 气体燃料组分变化对SG2-6A燃气轮机燃烧室性能的影响

    Effects of alternative fuel components on performances of a gas turbine combustor

  8. 在低热值气体燃料中掺入氢气能够有效降低CO和HC排放,但同时会大幅的增加NOx排放。

    Hydrogen addition can decrease CO and HC emissions effectively , but the amount NOx emission increases obviously meanwhile .

  9. 气体燃料发动机排气道中HC氧化的CFD研究

    A CFD Study on the Effect of Exhaust Port to the Oxidation of HC in Gaseous Fuel Engine

  10. 基于该燃烧装置,研究了气体燃料LPG和液体燃料轻柴油在不同氧化剂环境下的稳态燃烧火焰特性。

    With the burner , the characteristics of steady-state combustion flame of LPG and lightweight diesel fuel in different oxidizer environment were studied .

  11. 对于气体燃料发动机的点火提前角控制和闭合角控制,则暂时还采用发动机上现有的汽油机控制单元ECU来控制。

    The control of the engine ignition timing and temporarily closed angle is also dominated by current ECU of gasoline engine .

  12. 介绍了适用于不同型号、不同配置气体燃料发动机的通用电子控制单元(ECU)。

    A universal electronic control unit ( ECU ) suitable for gaseous fuel engines with different types and configurations is presented .

  13. 低热值气体燃料缸内主要污染物NOX、CO的分布具有明显的规律性,甲醛生成量相比常规排放物小两个数量级。

    The normal exhaust emissions like NOX , CO have clear distribution regularity in cylinder . The amount of CH2O is two order of magnitudes lower than that of normal emissions .

  14. 目前,大多数加热炉主要燃烧碳氢气体燃料,作为主要燃烧产物的H2O和CO2气体,具有强烈的非灰辐射特性。

    To date , most reheating furnaces burn mainly gas fuels concluding carbon and hydrogen elements . H2O and CO2 as the main products have strong non-gray radiation properties .

  15. 由固体生物质通过热裂解得到的生物质燃气是一种获取方便、可实现CO2零排放和价格低廉的可再生气体燃料,可作为车辆发动机的代用燃料。

    Biomass pyrolysis gas , produced form biomass pyrolysis , is the substitute fuel for vehicle engine and a kind of reproducible gas fuel which is convenient , cheap and realizable of zero release of CO2 .

  16. 通过对现有LPG发动机技术的研究,结合气体燃料特点,采用进气道电控喷射,火花塞点火方式,完成了实验室LPG+H2气态喷射燃料供给系统的设计。

    Of the existing LPG engine technologies through research , combining the characteristics of gas , using electrical jet , spark plug ignition , completed laboratory LPG + H_2 gaseous jet fuel supply system design .

  17. 船用发动机燃用LPG、CNG和LNG等气体燃料是降低船舶动力装置排放污染和改善船舶能源结构的有效技术措施之一。

    The marine engine fueled with LPG , CNG and LNG and other gas fuels is one of the effective technological measures to reduce emission pollution and improve energy structure of marine power plant .

  18. 通过计算发现,不同组分的气体燃料、再燃区空气过量系数及再燃区温度对NOx的再燃过程和NOx还原率都有重要的影响。

    Through calculations it is found that different compositions of gaseous fuels , the excess air coefficient and firing temperature in the reburning zone exercise a significant influence on the NOx reburning process and NOx reduction rate .

  19. 6160A型气体燃料发动机的研制

    Development of 6160A Gas-fuel Engine

  20. 黄磷尾气中CO含量高达85%~95%,是一种极好的气体燃料,将其用于三聚磷酸钠生产,聚合炉作燃料,对提高产品质量,回收经济效益等方面进行了分析。

    The content of CO in the tail gas of yellow phosphorus production is up to 85 % ~ 95 % , it is used to product sodium tripolyphosphate for producer gas substitute to improve the quality of product and low cost as well as reduce the atomospheric pollution .

  21. 利用计算流体力学(CFD)软件耦合详细化学反应机理对气体燃料发动机排气过程中未燃HC在排气道的氧化及对甲醛(CH2O)生成的影响进行了研究。

    In this paper , we studied The effect of exhaust port to the oxidation of hydrocarbon ( HC ) and its influence to the formation of formaldehyde in gaseous fuel engine using CFD software FLUENT coupled with detailed chemical kinetic mechanism .

  22. 根据对氢、天然气、液化石油气、汽油和柴油理化特性的分析,以及试验结果,对气体燃料(CNG,LPG)发动机的性能进行了研究。

    According to the physical and chemical properties of hydrogen , compressed natural gas ( CNG ), liquefied petroleum gas ( LPG ), gasoline and diesel oil , as well as experimental results , the performance of gaseous fuel ( CNG , LPG ) engines was studied .

  23. 有一条输气管堵塞了.气体燃料导管输送系统

    One of the air ducts has become blocked . piped-gas distribution

  24. 气体燃料在压燃式发动机上的研究现状

    Current Research Situation of Gas Fuel Used in Compression Ignition Engines

  25. 气体燃料被认为是很有前途的车用低污染代用燃料。

    Gaseous fuels are considered as clear alternative fuels for vehicle .

  26. 介绍气体燃料发动机几种新技术的基本原理和特点。

    This paper introduces several new technologies for gas fuel engines ;

  27. 天然气等气体燃料特性对汽车动力性能的影响

    Effect of Gaseous Fuel Properties on Power Performance of Motor Vehicles

  28. 气体燃料与天然气储存技术的最新进展

    Gas Fuels and New Advance in Technology of Natural Gas Storage

  29. 不同气体燃料理化特性对发动机性能的影响

    Influences of Physical and Chemical Properties of Gaseous Fuel on Engine Performance

  30. 这些问题在大型气体燃料发动机上会更加突出。

    These problemes are more serious in large gas engine .