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Hydrogen energy bibliography
Int. J. HydrogenEnergy,Vol. 6, No. 5, pp. 529-530, 1981.
Pergamon PressLtd. © 1981InternationalAssociationfor HydrogenEnergy.
Printed in Great Britaim
HYDROGEN ENERGY BIBLIOGRAPHY R. SRINIVASAN The Technology Application Center, University of New Mexico, Albuquerque, NM 87131, U.S.A.
(Received 27January1981) GENERAL P. BRENNECKE,H. EWE and E. JusT1, Status and near term development goals of a hydrogen economy, 3rd International Solar Forum, Hamburg, F. R. Germany, pp. 297-306, in German (24 June 1980). M. P, GAUSSENS,Hydrogen today and in the year 2000, Tech. Energ. No. 36, pp. 45--47, in French (May 1980). B. R. MEHTA, Hydrogen program at electric power research institute, Proceedings of the 14th lntersociety Energy Conversion Conference, Boston MA, U.S.A., pp 807-808 (5 August 1979). J. NrrscH and T. SCHOT'r, Hydrogen in large scale solar energy utilization, 3rd International Solar Forum, Hamburg, F. R. Germany, pp. 307-319, in German (24 June 1980). E. E. SI~PZL'RAIN& S. P. MALYSHENKO, Some aspects of development of hydrogen energy supply and technology, Teploenergetika (Moscow) No. 3, pp. 8-12, in Russian (March 1980), PRODUCTION Hydrogen production from remote power sites, Energy-Sources Technology Conference, New Orleans LA U.S.A., 10 pp. (3 February 1980). MASAYUKIDOKIYA, Development of thermochemical hydrogen production, Kagaku Kogyo, Series 31, Issue 5, pp. 472-475, in Japanese (1980). M. DEBACKER,M. C. RICHOUX,F. LECLERCQand G. LEPOUTRE,Photoelectrochemical production of hydrogen using visible-light dyes, Reu. Phys. Appl., Series 15, Issue 3, pp. 529-534, in French (1980). B. G. DZANTIEV,A. N. ERMAKOVand V. N. Poeov, Hydrogen formation during water vapor radiolysis, At. Energ. (USSR) 46, (5) 359-360, in Russian (May 1979). CI-~No-KAI HUA~6, Hydrogen production by photolysis of water, Hua Hsueh Tung Pao, Issue 3, pp. 134143, in Chinese (1980). T. KAWA1and T. SAKATA,Conversion of carbohydrate into hydrogen fuel by a photocatalytic process, Nature, 286, pp. 474-476 (31 July 1980). K. KOPPLE, D. MEYERSTEXNand D. MEISEL, Mechanism of the catalytic hydrogen production by gold sols. H/D isotope effect studies, Jphys. Chem. 84, (8) 870-875 (17 April 1980). UTILIZATION SHOICHIFURUHAMA,Hydrogen-fuel engine--state of the art and future prospect, Jidosha Gijutsu, Series 34, Issue 4, pp. 310-320 (1980). H. MAY and D. GWlI'CNER, Possibilities for improving exhaust emissions and energy consumption in hydrogen-gasoline mixed operation, VDI-Ber., Series 370, pp. 32•-330, in German (1980). J. F. McELRoY and G. G. PATWA,Electrical energy storage via high efficiency-cost effective hydrogen/halogen regenerative fuel cell system. AIChE Syrup., Series 76, Issue 198, pp. 123-128 (1980). T. J. TAYLOR, Apparatus for providing a mixture of hydrogen and oxygen for an engine, Br. Pat. App., Patent No. 2029447, Applic. No. 78/34257, 5 pp. (23 August 1978). Y. TSUJIKAWAand T. SAWADA,On the utilization of hydrogen as a fuel for gas turbine. 1. on the utilization of low temperature energy of liquid hydrogen, Nippon Kikai Gakkai Ronbunshu, B. Hen, Series 46, Issue 401, pp. 163-170, in Japanese (1980). I. L. VARSHAVSKII, P. M. KANILO and A. A. NIKISHOV,Reducing the toxicity of exhaust gases from gasturbine engines by hydrogen enrichment of the working mixture in the combustion chamber, Probl. Mashinostr., Series 8, pp. 94-97, in Russian (1979). n. WENZL, Hydrogen in metals---notable properties and examples for their utilization, I, Metall. 34, pp. 407-412, in German (May 1980). 529
530
HYDROGEN ENERGY BIBLIOGRAPHY TRANSMISSION, DISTRIBUTION & STORAGE
K. H. KLA'rr and H. WENZL, Metal granules for storage of hydrogen and/or deuterium in pressurized gas containers, Ger. Pat., Patent No. 2840265, 14 pp., in German (15 September 1978). O. OKAZArd, Manufacturing of large scale multilayer liquid hydrogen tank, Teion Kogaku, Series 15, Issue 2, pp. 111-119, in Japanese (1980). M. I~ZAT, A. HamA and B. DARRmT, Study of alloys of composition CeMgllM (M = V, Cr, Mn, Fe, Co) and their use for hydrogen storage, Mater. Res. Bull. 15, (1) 139-146, in French (January 1980). G. WIr~STEL, Material for storing hydrogen, Ger. Pat., Patent No. 2855413, 7 pp., in German (21 December 1978). MATERIALS S. A. BALEZIN, R. S. ERMOLAEVA, I. V. NIKOL'SKll and P. I. OZ{-IIGOV,Combination of methods for the study of hydrogen embrittlement, lngibitory Korrozii Met., M., pp. 11-16, In Russian (1979). J. CI-IENE,Y. SHEHU and M. AUCOUTUR1ER,Characterization of the influence of hydrogen in the behavior of 18--10 stainless steels, Bull. Cercle Etud. Met., Series 14, Issue 9, pp. 16-1-16-12, in English and French (1980). G. G. IRZHOV,T. K. SERGEEVAand E. G. FEL'DGANDLER,Notch and hydrogen embrittlement sensitivity of high-strength stainless steels, Kachesw. Stall i Splavy (Moskva), Issue 4, pp. 47-50, in Russian (1979). S. JIxq, N. V. G A ~ E , C. T. CHEN, J. R. L1CH~avIERand C. GHILARDUCO, Humidity-induced hydrogen embrittlement in an iron-chromium-cobalt magnet alloy, MetaU. Trans., A, Series 11A, Issue 5, pp. 854856 (1980). K. S. LEE and D. DEw-HuGHES, The effect of hydrogen on the mechanical properties of iron whiskers, Metall. Trans., A, Series 11A, Issue 7, pp. 1227-1229 (1980). Q. LONG, The migration of impurity atoms and hydrogen embrittlement cracking, Acta Metallurgica Sinica, 16, pp. 109-111, in Chinese (March 1980). W. A. MCII~rrEER, A. W. THOMPSONand I. M. BERNSTEIN,The effect of hydrogen on the slip character of nickel, Acta Metallurgica 28, pp. 887-894 (July 1980). O. P. NAZIMOV, L. A. BUNIN, A. A. ILIN and N. A. PONOMAREVA,Effect of hydrogen on the tendency of titanium alloys toward delayed brittle fracture, Strength of Materials 11, (10) 1161-1165 (June 1980). S. NOMURAand M. HASEGAWA,Trans. Iron Steel Inst. Jpn., Series 20, Issue 4, pp. 215-222 (1980). T. OrlN{SHI,K. HIOASHI,N. INOtYEand Y. NAKATAN1,Effects of additional elements on hydrogen embrittlement of AI-8%Mg alloy, J. Japan Inst. Light Metals 30 pp. 263-270, in Japanese with abstract in English (May 1980).
Pergamon PressLtd. © 1981InternationalAssociationfor HydrogenEnergy.
Printed in Great Britaim
HYDROGEN ENERGY BIBLIOGRAPHY R. SRINIVASAN The Technology Application Center, University of New Mexico, Albuquerque, NM 87131, U.S.A.
(Received 27January1981) GENERAL P. BRENNECKE,H. EWE and E. JusT1, Status and near term development goals of a hydrogen economy, 3rd International Solar Forum, Hamburg, F. R. Germany, pp. 297-306, in German (24 June 1980). M. P, GAUSSENS,Hydrogen today and in the year 2000, Tech. Energ. No. 36, pp. 45--47, in French (May 1980). B. R. MEHTA, Hydrogen program at electric power research institute, Proceedings of the 14th lntersociety Energy Conversion Conference, Boston MA, U.S.A., pp 807-808 (5 August 1979). J. NrrscH and T. SCHOT'r, Hydrogen in large scale solar energy utilization, 3rd International Solar Forum, Hamburg, F. R. Germany, pp. 307-319, in German (24 June 1980). E. E. SI~PZL'RAIN& S. P. MALYSHENKO, Some aspects of development of hydrogen energy supply and technology, Teploenergetika (Moscow) No. 3, pp. 8-12, in Russian (March 1980), PRODUCTION Hydrogen production from remote power sites, Energy-Sources Technology Conference, New Orleans LA U.S.A., 10 pp. (3 February 1980). MASAYUKIDOKIYA, Development of thermochemical hydrogen production, Kagaku Kogyo, Series 31, Issue 5, pp. 472-475, in Japanese (1980). M. DEBACKER,M. C. RICHOUX,F. LECLERCQand G. LEPOUTRE,Photoelectrochemical production of hydrogen using visible-light dyes, Reu. Phys. Appl., Series 15, Issue 3, pp. 529-534, in French (1980). B. G. DZANTIEV,A. N. ERMAKOVand V. N. Poeov, Hydrogen formation during water vapor radiolysis, At. Energ. (USSR) 46, (5) 359-360, in Russian (May 1979). CI-~No-KAI HUA~6, Hydrogen production by photolysis of water, Hua Hsueh Tung Pao, Issue 3, pp. 134143, in Chinese (1980). T. KAWA1and T. SAKATA,Conversion of carbohydrate into hydrogen fuel by a photocatalytic process, Nature, 286, pp. 474-476 (31 July 1980). K. KOPPLE, D. MEYERSTEXNand D. MEISEL, Mechanism of the catalytic hydrogen production by gold sols. H/D isotope effect studies, Jphys. Chem. 84, (8) 870-875 (17 April 1980). UTILIZATION SHOICHIFURUHAMA,Hydrogen-fuel engine--state of the art and future prospect, Jidosha Gijutsu, Series 34, Issue 4, pp. 310-320 (1980). H. MAY and D. GWlI'CNER, Possibilities for improving exhaust emissions and energy consumption in hydrogen-gasoline mixed operation, VDI-Ber., Series 370, pp. 32•-330, in German (1980). J. F. McELRoY and G. G. PATWA,Electrical energy storage via high efficiency-cost effective hydrogen/halogen regenerative fuel cell system. AIChE Syrup., Series 76, Issue 198, pp. 123-128 (1980). T. J. TAYLOR, Apparatus for providing a mixture of hydrogen and oxygen for an engine, Br. Pat. App., Patent No. 2029447, Applic. No. 78/34257, 5 pp. (23 August 1978). Y. TSUJIKAWAand T. SAWADA,On the utilization of hydrogen as a fuel for gas turbine. 1. on the utilization of low temperature energy of liquid hydrogen, Nippon Kikai Gakkai Ronbunshu, B. Hen, Series 46, Issue 401, pp. 163-170, in Japanese (1980). I. L. VARSHAVSKII, P. M. KANILO and A. A. NIKISHOV,Reducing the toxicity of exhaust gases from gasturbine engines by hydrogen enrichment of the working mixture in the combustion chamber, Probl. Mashinostr., Series 8, pp. 94-97, in Russian (1979). n. WENZL, Hydrogen in metals---notable properties and examples for their utilization, I, Metall. 34, pp. 407-412, in German (May 1980). 529
530
HYDROGEN ENERGY BIBLIOGRAPHY TRANSMISSION, DISTRIBUTION & STORAGE
K. H. KLA'rr and H. WENZL, Metal granules for storage of hydrogen and/or deuterium in pressurized gas containers, Ger. Pat., Patent No. 2840265, 14 pp., in German (15 September 1978). O. OKAZArd, Manufacturing of large scale multilayer liquid hydrogen tank, Teion Kogaku, Series 15, Issue 2, pp. 111-119, in Japanese (1980). M. I~ZAT, A. HamA and B. DARRmT, Study of alloys of composition CeMgllM (M = V, Cr, Mn, Fe, Co) and their use for hydrogen storage, Mater. Res. Bull. 15, (1) 139-146, in French (January 1980). G. WIr~STEL, Material for storing hydrogen, Ger. Pat., Patent No. 2855413, 7 pp., in German (21 December 1978). MATERIALS S. A. BALEZIN, R. S. ERMOLAEVA, I. V. NIKOL'SKll and P. I. OZ{-IIGOV,Combination of methods for the study of hydrogen embrittlement, lngibitory Korrozii Met., M., pp. 11-16, In Russian (1979). J. CI-IENE,Y. SHEHU and M. AUCOUTUR1ER,Characterization of the influence of hydrogen in the behavior of 18--10 stainless steels, Bull. Cercle Etud. Met., Series 14, Issue 9, pp. 16-1-16-12, in English and French (1980). G. G. IRZHOV,T. K. SERGEEVAand E. G. FEL'DGANDLER,Notch and hydrogen embrittlement sensitivity of high-strength stainless steels, Kachesw. Stall i Splavy (Moskva), Issue 4, pp. 47-50, in Russian (1979). S. JIxq, N. V. G A ~ E , C. T. CHEN, J. R. L1CH~avIERand C. GHILARDUCO, Humidity-induced hydrogen embrittlement in an iron-chromium-cobalt magnet alloy, MetaU. Trans., A, Series 11A, Issue 5, pp. 854856 (1980). K. S. LEE and D. DEw-HuGHES, The effect of hydrogen on the mechanical properties of iron whiskers, Metall. Trans., A, Series 11A, Issue 7, pp. 1227-1229 (1980). Q. LONG, The migration of impurity atoms and hydrogen embrittlement cracking, Acta Metallurgica Sinica, 16, pp. 109-111, in Chinese (March 1980). W. A. MCII~rrEER, A. W. THOMPSONand I. M. BERNSTEIN,The effect of hydrogen on the slip character of nickel, Acta Metallurgica 28, pp. 887-894 (July 1980). O. P. NAZIMOV, L. A. BUNIN, A. A. ILIN and N. A. PONOMAREVA,Effect of hydrogen on the tendency of titanium alloys toward delayed brittle fracture, Strength of Materials 11, (10) 1161-1165 (June 1980). S. NOMURAand M. HASEGAWA,Trans. Iron Steel Inst. Jpn., Series 20, Issue 4, pp. 215-222 (1980). T. OrlN{SHI,K. HIOASHI,N. INOtYEand Y. NAKATAN1,Effects of additional elements on hydrogen embrittlement of AI-8%Mg alloy, J. Japan Inst. Light Metals 30 pp. 263-270, in Japanese with abstract in English (May 1980).