THERMAL EFFECT OF OXIDATION OF FUEL GASES ON ADSORPTION-TYPE CATALYSTS.

被引:0
|
作者
Shcherban', A.N.
Furman, N.I.
Semenovskiy, V.G.
Tarasevich, V.N.
Samoylenko, S.M.
机构
来源
Heat Transfer - Soviet Research | 1975年 / 7卷 / 01期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The results are presented of an experimental study of the thermal effect of oxidation of fuel gases on measuring catalysts as a function of the qualitative composition and quantitative content of active metals, applied to the catalysts by deposition from various dispersed systems. The dependence of the thermal effect is considered on the qualitative and quantitative composition of catalysts, the particle size of the latter and the solvents of the dispersed systems of active metals.
引用
收藏
页码:112 / 117
相关论文
共 50 条
  • [31] EFFECT OF SAMARIUM ON THE THERMAL STABILITY OF TRANSITION METAL OXIDE CATALYSTS IN THE OXIDATION OF AMMONIA.
    Imamura, Seiichiro
    Hayashi, Seiichi
    Kanbayashi, Kazuo
    Nishida, Toshihiko
    Inui, Tomoyuki
    Chemistry Express, 1987, 2 (09): : 567 - 570
  • [32] Electrochemical oxidation of carbon monoxide: From platinum single crystals to low temperature fuel cells catalysts. Part I: Carbon monoxide oxidation onto low index platinum single crystals
    Grgur, B.N. (BNGrgur@clab.tmf.bg.ac.yu), 2001, Serbian Chemical Society (66) : 11 - 12
  • [33] Effect of phenolic antioxidants on the thermal oxidation stability of high-energy-density fuel
    Jia, Tinghao
    Zhao, Mengchao
    Pan, Lun
    Deng, Chuan
    Zou, Ji-Jun
    Zhang, Xiangwen
    CHEMICAL ENGINEERING SCIENCE, 2022, 247
  • [34] Electrochemical oxidation of carbon monoxide: from platinum single crystals to low temperature fuel cells catalysts. Part I: Carbon monoxide oxidation onto low index platinum single crystals
    Grgur, BN
    Markovic, NM
    Lucas, CA
    Ross, PN
    JOURNAL OF THE SERBIAN CHEMICAL SOCIETY, 2001, 66 (11-12) : 785 - 797
  • [35] Gas-phase hydrodeoxygenation of guaiacol over iron-based catalysts. Effect of gases composition, iron load and supports (silica and activated carbon)
    Olcese, R.
    Bettahar, M. M.
    Malaman, B.
    Ghanbaja, J.
    Tibavizco, L.
    Petitjean, D.
    Dufour, A.
    APPLIED CATALYSIS B-ENVIRONMENTAL, 2013, 129 : 528 - 538
  • [36] An Investigation into Methanol Oxidation Reactions and CO, OH Adsorption on Pt-Ru-Mo Catalysts for a Direct Methanol Fuel Cell
    Park, Sung-Hyeon
    Joo, Sung-Jun
    Kim, Hak-Sung
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2014, 161 (04) : F405 - F414
  • [37] Sludge thermal oxidation processes: mineral recycling, energy impact, and greenhouse effect gases release.
    Guibelin, E
    WASTEWATER SLUDGE AS A RESOURCE, 2003, : 317 - 324
  • [38] Effect of Thermal Treatment Temperature of Support on Catalytic Performance of Pt/FeOx Catalysts for Formaldehyde Oxidation
    Cui, Wei-Yi
    Liu, Cui-Ping
    Tan, Nai-Di
    Jingxi Huagong/Fine Chemicals, 2019, 36 (04): : 671 - 676
  • [39] Study of the effect of thermal treatments of PtRu/C catalysts on the hydrogen oxidation reaction in the presence of CO
    Lopes, Pietro Papa
    Ticianelli, Edson Antonio
    QUIMICA NOVA, 2007, 30 (05): : 1256 - 1260
  • [40] Surface Adsorption and Stabilization Effect of Iridium in Pt-based Alloy Catalysts for PEM Fuel Cell Cathodes
    Ma, Yuguang
    Balbuena, Perla B.
    PROTON EXCHANGE MEMBRANE FUEL CELLS 9, 2009, 25 (01): : 1037 - 1044
12345