2343. MURATA, Y. Synthesis of Solid Paraffins From Carbon Monoxide and Hydrogen. Chem. Rev. (Japan), vol. 7, 1941, pp. 352-370; Chem. Abs., vol. 35, 1941, p. 8251. Review with over 70 refs. ----------. Gasoline Synthesis From Carbon Monoxide and Hydrogen. LXXII. Composition of Gases and Flow Velocity. See abs. 1906. ----------. See abs. 1859, 1860, 1861, 1862, 1863, 1864, 1865, 1868, 1872, 1875, 1876, 1877, 1882, 1883, 1889, 1905, 3468. MURATA, Y., AND HARA, I. Gasoline Synthesis From Carbon Monoxide and Hydrogen. LXXIV. Influence of Water Vapor on Iron Catalysts. See abs. 1906b. MURATA, Y., AND MAKINO, S. Benzine Synthesis From Carbon Monoxide and Hydrogen. LII. Influence of the Initial Materials, Carriers, and Filling Agents Upon the Iron Catalyst. See abs. 1888. MURATA, Y., AND TSUNEOKA, S. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. XXX. Influence of Catalyst Concentration. See abs. 1866. ----------. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. XXXIII. Relation of Free Space in the Reaction Tube and the Reaction Rate of the Initial Gas, and Also the Influence of Materials Mixed With the Catalyst. See abs. 1869. ----------. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. XXXVIII. Relation Between Conditions of Synthesis and Unsaturation of the Benzine Produced. See abs. 1874. MURATA, Y., AND YAMADA, T. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. LIV. Influence of Carbon Dioxide in the Initial Gas Upon the Iron Catalyst. See abs. 1890. ----------. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. LV. Influence of Nitrogen, Methane, Oxygen, and Ammonia in the Initial Gas Upon the Iron Catalyst. See abs. 1891. MURATA, Y., AND YASUDA, M. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LIX. Activation of Iron-Copper Catalysts by Boron. See abs. 1895. MURATA, Y., ISHIKAWA, S., AND TSUNEOKA, S. Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressure. XXXI. Influence of Current Velocity. See abs. 1867. MURATA, Y., MAKINO, S., AND TSUNEOKA, S. Synthesis of Benzine From Carbon Monoxide and Hydrogen at Ordinary Pressure. XLVIII. Influence of Addition of Copper and Alkali on New Iron Catalysts. See abs. 1884. ----------. Synthesis of Benzine From Carbon Monoxide and Hydrogen at Ordinary Pressure. XLIX. Influence of Various Metals, Metal Oxides and Precipitants on Iron-Copper-Kieselguhr Catalysts. See abs. 1885. MURATA, Y., MATSUMOTO, E., AND HOSHINO, S. Gasoline Synthesis From Carbon Monoxide and Hydrogen. LXXIII. Action of Carbon Monoxide on Iron Catalysts. See abs. 1906a. MURATA, Y., SAWADA, Y., AND TAKEZAKI, Y. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LVIII. Mutual Influence of Boric Acid and Alkali in Promoting Activities of Iron-Copper Catalysts. See abs. 1894. MURATA, Y., YASHIRO, R., AND TASHIRO, E. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LX. Effect of Copper on Iron Catalysts. See abs. 1896. MURATA, Y., NAKAGAWA, M., TASHIRO, E., AND UMEMURA, T. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXIV. Methods of Preparing Iron Catalysts. See abs. 1900. ----------. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXV. Reduction by Hydrogen and Heat Treatment of Iron Catalysts. See abs. 1901. ----------. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXVI. Reduction of Iron Catalysts. See abs. 1902. MURATA, Y., TATSUKI, Y., YAMADA, H., AND SAWADA, Y. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LVII. Effect of Some Added Substances on Iron-Copper Catalysts. See abs. 1893. MURATA, Y., YOSHIOKA, Y., OJI, G., AND SAITO, S. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXI. Reaction Temperature and Durability of Iron Catalysts. See abs. 1897. ----------. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXII. Durability of Iron Catalyst and the Composition of Gas Used in the Synthesis. See abs. 1898. ----------. Synthesis of Benzine From Carbon Monoxide and Hydrogen. LXIII. Iron Catalysts and the Composition of Gas Used in the Synthesis. See abs. 1899. |