hydrogen reforming

英 [ˈhaɪdrədʒən rɪˈfɔːmɪŋ] 美 [ˈhaɪdrədʒən rɪˈfɔːrmɪŋ]

n.  临氢重整

化学

双语例句

  1. Formerly, researchers took attention to one aspect, for example, it was about generating hydrogen by catalytic reforming or regenerative heat exchange.
    以往的研究者只关心一方面,主要研究催化重整制氢,或者是蓄热式换热等。
  2. Study on Production of Hydrogen via Methane Reforming at Environmental Friendly Conditions
    环境友好条件下甲烷等离子体重整制氢的研究
  3. Effects of Different Supports on Properties of Ruthenium Catalyst for Hydrogen Production from Steam Reforming of Ethanol
    不同载体对钌基催化剂催化乙醇水蒸气重整制氢性能的影响
  4. Study on the In-situ Hydrogenation of Maleic Anhydride to Tetrahydrofuran Using Solvent Hydrogen from Ethanol Reforming
    乙醇重整制氢对马来酸酐原位加氢制备四氢呋喃的研究
  5. Key Pathway Simulation of Ethanol Cracking in Hydrogen Production by Plasma Reforming
    含水乙醇等离子体重整制氢中乙醇裂解的关键路径模拟
  6. Hydrogen Production from Steam Reforming of Ethanol over Ni/ MgO-CeO_2 Catalyst at Low Temperature
    Ni/MgO-CeO2催化低温乙醇水蒸气重整制氢
  7. Hydrogen Production by Low-temperature Reforming of Bio-oil over a CNT-promoting Ni Catalyst
    碳纳米管负载镍基催化剂在生物油重整制氢方面的基础应用研究
  8. Study on High Surface Area CeO_2 Material Supported Pt Catalysts to Produce Hydrogen from Ethanol Steam Reforming
    高比表面CeO2负载Pt催化剂乙醇水蒸汽重整制氢的研究
  9. To introduce process and catalyst for producing hydrogen from steam reforming of methanol.
    以甲醇为原料制氢有三种途径:甲醇水蒸汽重整、甲醇裂解及甲醇部分氧化。
  10. Hydrogen production from steam reforming of ethanol using Ni/ CeO_2 and Ni-Cu/ CeO_2 catalysts
    Ni/CeO2和Ni-Cu/CeO2催化剂上的乙醇水蒸汽重整制氢反应
  11. Studies on Cu-ZnO/ Al_2O_3 Catalyst for Hydrogen Production via Autothermal Reforming of Methanol
    甲醇自热重整制氢用Cu-ZnO/Al2O3催化剂的研究
  12. Also, the optimization of reaction conditions, such as reaction temperature, reaction pressure, acetophenone concentration, and the ratio of raw materials, was performed to promote the selectivity for hydrogen in aqueous-phase reforming of methanol and for α-phenylethanol in acetophenone hydrogenation.
    实验结果表明,反应条件是影响苯乙酮原位加氢反应性能的重要因素;优化反应的温度、压力、苯乙酮浓度和原料配比可以提高甲醇水相重整制氢选择性和羰基加氢选择性。
  13. Effect of iron on cu/ zro_2 catalysts in production of hydrogen from methanol-steam reforming
    Fe助剂对Cu/ZrO2甲醇水蒸气重整制氢催化剂的影响
  14. The Effects of ZrO_2 on Cu-ZnO-ZrO_2 Catalysts for Hydrogen Generation by Steam Reforming of Methanol
    ZrO2在Cu-ZnO-ZrO2甲醇水蒸汽重整制氢催化剂中的作用
  15. A Thermodynamic Analysis of Hydrogen Production by Oxidation Reforming of Ethanol
    乙醇氧化重整制氢的热力学分析
  16. Feedstock selection for hydrogen manufacturing by steam reforming and technical progress in commercial application
    水蒸气转化制氢原料的选择与工业应用技术的发展
  17. It introduces the construct 、 the work theory and the controling system of dry gas seal in the cycle hydrogen compressor of catalyst reforming unit, and describes the main reconstruct content from floating ring seal to dry gas seal; it accounts circs of seal replaced.
    介绍了催化重整装置循环氢压缩机所改用的干气密封的结构、工作原理及控制系统,以及由浮环密封改用干气密封的主要改造内容和改造后的使用情况。
  18. Technology of hydrogen production from ethanol reforming for fuel cells application has been studied in this article.
    本文对燃料电池的氢源技术之&乙醇重整制氢的相关技术进行了研究。
  19. Study on producing hydrogen from ethanol reforming with steam over Co/ ZrO_2 catalyst
    Co/ZrO2催化乙醇水蒸汽重整制氢反应的研究
  20. Hydrogen generation from reforming of lower alcohols aqueous solution by glow discharge plasma under liquid
    液下辉光放电等离子体重整低碳醇水溶液制氢
  21. Hydrogen production by steam reforming of methanol on Fe modified cu/ zn/ al catalysts
    Fe改性工业Cu/Zn/Al催化剂上甲醇水蒸气重整反应制氢的研究
  22. Researches on Removing Sulfurated Hydrogen from Reforming Hydrogen
    关于脱除重整氢中硫化氢的研究
  23. Research progress in hydrogen production from the reforming of methanol for fuel cells
    燃料电池甲醇重整制氢研究进展
  24. Advance on hydrogen production by reforming methanol-steam from fuel cell
    燃料电池上甲醇水蒸气重整制氢研究进展
  25. Synthesis of Size-controlled Rh Nanoparticles with Liquid-phase Reduction Method and Its Application in Preparation of Hydrogen via Steam Reforming of Methanol
    可控粒径纳米Rh的液相还原法制备及其在甲醇重整制氢反应中的应用
  26. Hydrogen Production from Steam Reforming of Methanol on Mn Promoted Cu/ ZnO/ Al_2O_3 Catalysts
    Mn改性Cu/ZnO/Al2O3催化剂上甲醇水蒸气重整制氢研究
  27. In this dissertation, Hydrogen production by steam reforming of ethanol has been investigated over ceria supported Ir and Ni catalysts. The catalytic performance of Ir and Ni catalysts supported on different metal oxides were also studied.
    本论文重点研究了氧化铈担载的Ir和Ni催化剂上的乙醇水汽重整制氢反应,同时也考察了不同载体担载的Ir,Ni催化剂。
  28. It is an important issue to improve the hydrogen production efficiency and remove the by-product of CO to avoid the poison for the Pt anode, during the research of providing proton exchange membrane fuel cell ( PEMFC) with hydrogen from methane stream reforming.
    在采用甲烷水蒸气重整制氢技术为质子交换膜燃料电池(PEMFC)提供所需氢气的研究中,如何提高制氢效率和降低氢气中的CO浓度以避免Pt电极中毒是一个重要课题。
  29. Therefore, people begin to explore hydrogen production by reforming of the liquid materials.
    于是,人们开始探索通过液体原料重整反应现场制取氢气的方案。
  30. Studies have shown that the hydrogen produced by methane reforming under the condition of catalyst, mixed with the fuel mixture can improve the micro-combustion.
    研究表明甲烷在催化剂作用下,通过重整产氢的方式对燃料混合气加氢可以起到改善微细空间内甲烷燃烧的作用。
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