水煤气变换

  • 网络water gas shift;WGs;RWGS
水煤气变换水煤气变换
  1. 结果表明,Cu/CeO2催化剂呈现出良好的水煤气变换活性。

    The results showed that Cu / CeO_2 catalysts exhibited excellent WGS activity due to the combined effects of copper oxide and cerium dioxide , and copper loadings had remarkable influence on the catalytic activity .

  2. 含La耐硫水煤气变换催化剂的研究

    Study on La-PROMOTED sulfur resistant water gas shift catalyst

  3. 负载型金基催化剂上CO氧化和水煤气变换反应性能研究

    CO Oxidation and Low Temperature Water-gas Shift Reaction Over Supported Gold-base Catalysts

  4. 生物质气化气要实现高氢浓度的转化,需要通过水煤气变换反应将CO转化为H2。

    High concentration hydrogen of the producer gas could be realized through water-gas shift reaction .

  5. 当金负载量为3%,水煤气变换反应温度为200℃时,CO的转化率可达995%。

    CO conversion reaches 99 5 % at gold loading of 3 % and 200 ℃ .

  6. 焙烧温度对Au/Fe2O3Zr-O2水煤气变换催化剂的影响

    Influence of calcination temperature on Au / Fe_2O_3-ZrO_2 water-gas shift catalyst

  7. ZnO负载纳米金催化剂上的低温水煤气变换反应

    Low-Temperature Water-Gas Shift Reaction over ZnO-Supported Gold Nanoparticle Catalyst

  8. Co-Mo-K/Al2O3水煤气变换催化剂的失硫与活性

    Sulfur Loss and Activity of Co-Mo-K / Al_2O_3 Water Gas Shift Catalyst

  9. Co-Mo-K/Al2O3水煤气变换催化剂结构的研究

    Study on the structure of co-mo-k / al_2o_3 water gas shift catalyst

  10. 水煤气变换催化剂Co-Mo-K/Al2O3的酸性对活性的影响

    Acidity of water gas shift catalyst : co-mo-k / al_2o_3

  11. Cu/ZnO催化剂上逆向水煤气变换反应反应机理的MonteCarlo模拟

    Monte Carlo simulation for mechanism of reverse watergas shift reaction over cu / zno catalyst

  12. 制备参数对Au/Fe2O3催化剂水煤气变换性能的影响

    Effect of Preparation Parameters on Activity of Au / Fe_2O_3 Catalyst for Water-Gas Shift Reaction

  13. 水煤气变换催化剂Fe3O4的亚稳结构

    Metastable Structure of Fe_3O_4 for Water - Gas Shift Catalyst

  14. 不同金属催化水煤气变换反应活性的DFT研究

    DFT studies of activity of water gas shift reaction by several metals catalyzed

  15. 助剂对低温水煤气变换反应Au/α-Fe2O3催化剂性能的影响

    Effect of promoter on the performance of low-temperature water-gas shift reaction in H_2-rich steam over supported gold catalyst

  16. 微乳法制备Au/Fe2O3水煤气变换反应催化剂Ⅰ.制备参数对催化剂活性的影响

    Au / Fe_2O_3 Water-Gas Shift Catalyst Prepared by Microemulsion Method ⅰ . Effect of Synthesis Parameters on Catalyst Activity

  17. 结果表明,Fe-Cu-K催化剂上费托反应与水煤气变换反应同时进行,产物分布(油、蜡、烯/烷比、正构烷烃、1-烯烃等)随操作条件发生有规律的变化。

    The results show that FT and water gas shift ( WGS ) reactions take place simultaneously on the catalyst surface , and product distributions vary with operation conditions .

  18. 沉淀温度对CuO/ZnO/Al2O3催化剂前驱体物相及催化水煤气变换反应活性的影响

    Influence of Precipitation Temperature on Phase Composition of Precursor of CuO / ZnO / Al_2O_3 Catalyst and Its Catalytic Activity for Water Gas Shift Reaction

  19. CoMoK/γ-Al2O3水煤气变换催化剂的硫化及反硫化

    Sulfurization and Desulfurization of Water Gas Shift Catalyst CoMOK / Al2O3

  20. 采用SEM,XRD,XPS,ESR考察了Co-Mo-K/Al2O3水煤气变换催化剂的结构。

    The structure of Co-Mo-K / Al2O3 water gas shift ( WGS ) catalyst ( B302Q ) produced by our Institute has been investigated by SEM , XRD , XPS and ESR .

  21. 焙烧对NiO-MoO3-K2CO3/Al2O3水煤气变换催化剂的影响

    Influence of calcination on nio-moo_3-k_2co_3 / al_o_3 water gas shift catalyst

  22. 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 .

  23. ZrO2对Cu/CeO2-ZrO2水煤气变换催化剂结构、性能的影响

    Effects of ZrO_2 Content on Structure and Properties of Cu / CeO_2-ZrO_2 Catalysts for Water-Gas Shift Reaction

  24. 结果表明:CeO2的掺杂能显著提高催化剂的水煤气变换活性,其中以掺杂7.5%CeO2提高活性最为显著。

    The results indicate that it improves the activity of catalysts for the water-gas shift reaction , and the above catalysts with 7.5 % CeO_2 show the highest activity .

  25. 钴基催化剂因其较高的加氢活性和较低的水煤气变换活性而成为F-T合成最有发展前途的催化剂之一。

    Cobalt based catalysts have become one of the most promising catalysts for its high activity for CO hydrogenation and low activity for water-gas shift reaction .

  26. CuO/CeO2-ZrO2水煤气变换催化剂及其整体式催化剂制备的研究

    Study of CuO / CeO_2-ZrO_2 Catalysts and Preparation of Monolith Catalysts for Water-gas Shift Reaction

  27. 在费-托合成催化剂中,铁基催化剂由于操作灵活、价格低廉、具有较高的水煤气变换反应(WGS)活性,适用于低氢碳比的煤基合成气费-托合成。

    Iron-based catalysts are widely used because of their low cost , excellent flexibility and high activity for water-gas shift reaction in the production of liquid fuel from coal-based syngas with low H2 / CO ratio .

  28. 在CO/H2O系统中,发生的水煤气变换反应(WGSR)能产生高活性氢,该活泼氢能与煤热解产生的自由基结合生成稳定的液化产物,从而提高了液化的转化率。

    In CO / H2O system , the water gas shift reaction ( WGSR ) produces high active H which can stab the residuals in order to improve the liquefaction conversion .

  29. 铜锰氧化物水煤气变换催化剂的进一步研究

    Further Study on Copper ─ manganese Oxide Catalyst for Water Gas Shift

  30. 嵌埋式纳米钌基催化剂的制备及其催化水煤气变换反应的性能

    Preparation of Nano-Ru-Embedded Catalyst and Its Catalytic Performance for Water-Gas Shift Reaction