279Catalyst and Natural Gas Partial Oxidation


As synthesis gas production for use in the chemical industry has a significant importance, in this study, a set of production methods of this essential article in the industry is examined. The three main methods used for the production of synthesis gas and wrap. As well as the thermodynamic conditions has been trying do if accepted, any reactions, catalyst and the advantage of each of these methods of expression, reviewed in this article are the best method for producing oncom important offer.


catalyst, partial oxidation, syn gas, reforming



  • Nagaraja, Bhari Mallanna, et al. “Effect of potassium addition on bimetallic PtSn supported θ-Al 2 O 3 catalyst for n-

    butane dehydrogenation to olefins.”Catalysis Today 232 (2014): 40-52.

  • Shan, Yuling, et al. “Effect of steam addition on the structure and activity of Pt–Sn catalysts in propane

    dehydrogenation.” Chemical Engineering Journal278 (2015): 240-248.

  • Nawaz, Zeeshan, et al. “SAPO-34 supported Pt–Sn-based novel catalyst for propane dehydrogenation to

    propylene.” Catalysis Communications 10.14 (2009): 1925-1930.

  • Nawaz, Zeeshan, et al. “Dehydrogenation of C 3–C 4 paraffin’s to corresponding olefins over slit-SAPO-34 supported Pt-Sn-based novel catalyst.” Journal of Industrial and Engineering Chemistry 19.2 (2013): 540-546.

  • Liu, Xue, et al. “Improved catalytic performance in propane dehydrogenation of PtSn/γ-Al 2 O 3 catalysts by doping

    indium.” Chemical Engineering Journal 247 (2014): 183-192.

  • Pakhomov, Nikolay A., et al. “Dehydrogenation of C 3–C 4 paraffins on Cr 2 O 3/Al 2 O 3 catalysts in fluidized and

    fixed bed reactors.” Chemical Engineering Journal 154.1 (2009): 185-188.

  • Li, Yong-Xi, and Kenneth J. Klabunde. “Studies of Pt-Sn/Al2O3 catalysts prepared by Pt and Sn coevaporation

    (solvated metal atom dispersion).”Journal of Catalysis 126.1 (1990): 173-186.

  • Lu, Jiangyin, et al. “CrHZSM-5 zeolites–Highly efficient catalysts for catalytic cracking of isobutane to produce light

    olefins.” Catalysis letters109.1-2 (2006): 65-70.

  • Kelling, Rene, et al. “Development of a control concept for catalyst regeneration by coke combustion.” Chemical

    engineering science 83 (2012): 138-148.