1116.    FUJIMOTO, H.  Catalytic Action of Reduced Nickel on the Methane-Water Reaction.  Jour. Soc. Chem. Ind., Japan, vol. 36, Suppl., 1933, pp. 147-148; Chem. Abs., vol. 27, 1933, p. 3661.

        Study of the reactions CH₄+H₂O=CO+3H₂; CH₄+2H₂O=CO₂+4H₂ (1) and CH₄=C+2H₂ (2) at temperatures 400°-1,000° in the presence of reduced Ni reveals that (1) and (2) begin at about 400° and 700°, respectively, with the reaction velocity of (2) increasing with temperature, while that of (1) passes a maximum of 600° and a minimum at 800°, probably because of the effect of CO on the catalyst.  Reaction (2) is accelerated at lower temperatures by adding 10% Al to the catalyst, and reaction (1) is not accelerated but the maximum and minimum are avoided.  With 6 times as much H₂O as CH₄, the CO₂:CO ratio is 2:1, while with 2.5 times as much H₂O it is 8:1 (700°), and the life of the catalyst is prolonged (250 hr. at 700°).

        FUJIMURA, K.  Catalytic Reduction of Carbon Monoxide at Ordinary Pressure.  VIII.  Iron-Copper Catalyst.  See abs. 1846.

        ----------.  Catalytic Reduction of Carbon Monoxide Under Ordinary Pressure.  IX.  Additional Tests With a Co-Cu-MgO Catalyst.  See abs. 1847.

       Catalytic Reduction of Carbon Monoxide Under Ordinary Pressure.  X.  Influence of Certain Materials on the Catalytic Action of Cobalt-Copper-Magnesium Oxide Catalysts.  See abs. 1848.

        Synthesis of Benzine From Carbon Monoxide and Hydrogen at Ordinary Pressures.  XI.  See abs. 1849.

        See abs. 1845.

        FUJIMURA, K., AND TSUNEOKA, S.  Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressures.  XII.  See abs. 1850.

       Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressures.  XIII, XIV.  Nickel Catalysts.  See abs. 1851.

       Benzine Synthesis From Carbon Monoxide and Hydrogen at Ordinary Pressures.  XV, XVI, Nickel catalysts.  See abs. 1852.

        Synthesis of Benzine From Carbon Monoxide and Hydrogen Under Ordinary Pressure.  XVII.  General Properties and Chemical Composition of the Reaction Products.  See abs. 1853.

        Synthesis of Benzine From Carbon Monoxide and Hydrogen Under Ordinary Pressure.  XIX.  Composition of the Initial Gas Mixture (1).  See abs. 1855.

       Benzine Synthesis From Carbon Monoxide and Hydrogen Under Ordinary Pressure.  XX.  Composition of the Initial Gas Mixture (2).  See abs. 1856.

        FUJIMURA, K., TSUNEOKA, S., AND KAWAMICHI, K.  Synthesis of Benzine From Carbon Monoxide and Hydrogen at Ordinary Pressure.  XVIII.  Effect of Sulfur Compounds on the Nickel Catalyzers.  See abs. 1854.

        FUJISAKI, T.  See abs. 3177, 3178.

        FUJITA, H.  See abs. 1913.

        FUJITA, K.  See abs. 1892, 1915, 1916, 1917, 1918, 1919, 1920, 1921, 1922, 1923, 192, 1925, 1926.

        FUJITA, T.  See abs. 1908.

        FUKUSHIMA, I.  See abs. 1927, 1928, 1929.

        FUKUSHIMA, R. See abs. 1118, 1119, 1120.

        FUNABASHI, W.  See abs. 1930.