282.    BOCHAROVA, E. M., DOLGOV, B. N., KAN-KOGAN, K. I., AND PETROVA, Y. N.  [Synthesis of Higher Alcohols From Carbon Dioxide and Hydrogen Under Pressure.  V.]  Khim. Tverdogo Topliva, vol. 8, 1937, pp. 1107-1121; Chem. Abs., vol. 32, 1938, p. 4518.

                  This method was described previously.  The synthesis was carried out at 350°-425° at a constant pressure of 220 atm.  The previously described catalysts, 8ZnO.Al(OH)₃O.1 V₂O₅.3KOH and 8ZnO.Al(OH)₃.O.1 V₂O₃.O.1 MoO₃.  3KOH used in the above synthesis yielded water 70%, MeOH 25%, and higher alcohol 5% by weight of the condensate.  The best CO₂:H₂ ratio for the synthesis of higher alcohols than MeOH was 1:2.2.  The yield of alcohol fraction boiling 70°-95° for the first catalyst was 266 cm.³/1. of catalyst/hr.  Qualitative analysis of the condensate disclosed the presence of considerable amounts of MeOH and 5% of the zeotropic mixture of iso-PrOH, PrOH, and iso-BuOh.  17 refs.

                  BOCHAROVA, E. M., DOLGOV, B. N., AND PETROVA, Y. N.  [Synthesis of Higher Alcohols From Water Gas Under Pressure.  II.]  See abs. 279.

                  BOCHAROVA, E. M., DOLGOV, B. N., AND PROKHOROVA, Z. M.  [Synthesis of Higher Alcohols From Water Gas Under Pressure.  III.]  See abs. 280.

                  BOCHAROVA, E. M., DOLGOV, B. N., AND KAN-KOGAN, K.I., AND PETROVA, Y. N.  [Synthesis of Higher Alcohols From Carbon Dioxide and Hydrogen Under Pressure.  V.]  See abs. 282.

                  BOCHAROVA, E. M., DOLGOV, B. N., PETROVA, Y. N., AND YATSKOVSKAYA, N. S.  [Synthesis of Alcohols of High Molecular Weight From Water Gas Under Pressure.  IV.  Rechecking of the Methods for Analysis of the Condensate.]  See abs. 281.

                  BOCHIROI, L.  See abs. 215.

                  BODE, K.  See abs. 2921.