低温燃料电池

低温燃料电池低温燃料电池
  1. 直接醇类燃料电池(Directalcoholfuelcell,DAFC)是以甲醇、异丙醇等有机小分子作为燃料的新型低温燃料电池。

    A direct alcohol fuel cell is a new type of low-temperature fuel cells using small organic molecules ( methanol , isopropanol ) as fuel .

  2. PEMFC双极板材料及其工艺低温燃料电池双极板材料研究进展

    Study on the materials and processes for bipolar plates in PEMFC Review on bipolar plate materials of low-temperature fuel cell

  3. 质子交换膜燃料电池(PEMFC)和直接甲醇燃料电池(DMFC)是两种最先进的低温燃料电池,介绍了它们的阳极和阴极电催化剂近年的进展。

    Two of the most advanced low temperature fuel cells are the proton exchange membrane fuel cell ( PEMFC ) and the direct methanol fuel cell ( DMFC ) .

  4. 非晶态合金催化剂在低温燃料电池中的应用

    The applications of amorphous alloys uesed in low-temperature fuel cells

  5. 金在低温燃料电池技术中的应用前景

    Application Prospects of Gold in Low Temperature Fuel Cell Technology

  6. 低温燃料电池催化剂阳极材料的研究近况

    Progress in catalyzed anode materials for low temperature fuel cells

  7. 聚合物电解质膜是低温燃料电池的核心部分,介绍了以商品NaflonTM膜为例的全氟化磺酸膜、有机/无机复合膜和低成本聚合物膜的情况。

    Polymer electrolyte membrane is a heart of low temperature fuel cell .

  8. 用于低温燃料电池的聚合物电解质膜

    Polymer electrolyte membranes applied to low temperature fuel cells

  9. 低温燃料电池双极板材料研究进展

    Review on bipolar plate materials of low-temperature fuel cell

  10. 根据已有的文献,总结了几种低温燃料电池用非晶态合金催化剂的制备方法,并简单介绍了文献中已有的一些非晶态合金在燃料电池中的应用。

    Some applications of amorphous alloy catalysts used in low-temperature fuel cell were introduced .

  11. 氧电极是低温燃料电池的重要组成部分。

    The oxygen electrode is an important part of the low temperature fuel cell .

  12. 介绍了非晶态合金作为催化剂在低温燃料电池中应用的情况。

    The development of amorphous alloys used in low-temperature fuel cell were reviewed in brief .

  13. Pt/C和PtRu/C在低温燃料电池中的电氧化比较

    Electrooxidation Comparison of Low Temperature Fuel Cell on Pt / C and PtRu / C

  14. 低温燃料电池作为一种绿色,高效的能量转化装置,近年来受到人们广泛的关注。

    Low-temperature fuel cells have been considered as a green and high-efficient device abased on energy transformation .

  15. 由于受工作环境的限制,低温燃料电池对催化剂的要求比较高。

    Due to their special working conditions , low-temperature fuel cell has high expectations for the catalysts .

  16. 低温燃料电池是一种环保、节能、高效的能量贮备和转换装置,近年来受到人们普遍的关注。

    As a kind of green , efficient energy conversion device , low-temperature fuel cellis widespread attention by people in recent years .

  17. 有机小分子的高效电催化氧化直接关系到低温燃料电池的发展和应用。

    High efficient electrochemical oxidation of small organic molecules will be directly related to the development and application of low-temperature fuel cells .

  18. 低温燃料电池,是解决以上两个问题的最重要的一种技术手段,应用前景广阔。

    Low-temperature fuel cell , which is one of the most important technical means to address these two issues , has a broad application prospect .

  19. 本文概述了固体高聚物电解质复合膜电极的制备技术和发展,重点介绍其在低温燃料电池,膜反应器和乙烯及氧传感器中的应用。

    The preparation and development of SPE membrane electrode were introduced with emphasis on the application for PEM fuel cell and reactor as well as sensor .

  20. 从非晶态合金的结构特点出发,分析了其能够作为潜在的高效、长寿命催化剂应用在低温燃料电池中的原因。

    The reasons why the amorphous alloys could be used as potential high-efficient and long-life catalysts in fuel cells were analyzed in this article for their unique structure features .

  21. 在低温燃料电池中,主要采用以碳为载体的铂类催化剂,但铂系金属资源匮乏,成本太高,严重阻碍了燃料电池实现商业化。

    Pt based catalysts supported on carbon are commonly used for low temperature fuel cells . However , the scarce and expensive Pt metal hinders the commercialization of fuel cells .

  22. 低温燃料电池作为一种新型的能源装置,具有能量转换效率高、工作温度低、无污染、液体燃料处理简单、启动迅速等诸多优点,已成为世界各国竞相研究的热点。

    Low-temperature fuel cells as new-style energy devices have attracted great attention because of their high-energy conversion efficiency , low operating temperature , low pollutant emission , the simplicity of handling liquid fuel and quick startup .

  23. 低温陶瓷燃料电池Ni-Fe-CCC复合阳极材料的制备与性能研究

    Preparation and characterization of ni-fe-ccc composite for low-temperature ceramic fuel cell

  24. 综述了中低温固体氧化物燃料电池(SOFC)陶瓷阴极材料的研究和发展动态。

    This paper summarized the research and development on the ceramic cathode materials used in intermediate temperature SOFCs .

  25. 低温工作的燃料电池通常利用富氢水煤气变换反应,即CO+H2O←→CO2+H2,来深度清除原料气中的CO并制取氢气。

    The water gas shift ( WGS ) reaction , CO + H_2O ←→ CO_2 + H_2 is often used in the low working temperature fuel cells to clear out CO from raw gas and produce hydrogen .

  26. 用稀土或碱土氧化物掺杂的CeO2在较低的温度下具有较高的氧离子电导率,是用作中低温固体氧化物燃料电池(SOFC)最合适的电解质材料。

    Rare earth or alkali earth oxide doped CeO 2 possesses high oxygen ion conductivity at low temperature , it was the best electrolyte material for a medium or low temperature solid oxide fuel cell .

  27. 中低温固态氧化物燃料电池复合阴极材料的研究进展

    Progress of Composite Cathode for Intermediate-low Temperature Solid Oxide Fuel Cells

  28. 近年来,具有低活化能和高氧离子电导率的磷灰石类氧化物,作为中低温固体氧化物燃料电池中极具应用潜力的新型电解质材料受到了人们的广泛关注。

    Apatite-type solid electrolytes have attracted significant attention in recent years due to their high oxygen ionic conductivity and low activation energy , which offer great potential for use in the intermediate-low temperature SOFCs .

  29. 氧电化还原反应的交换电流密度很小,导致低温H2-O2燃料电池的极化主要发生在氧电极,严重影响了电池性能。

    The exchange current density of the oxygen electrode is so low that the over-potential mostly happens on the cathode in the fuel cell .