參考文獻 |
參考文獻
王前淇 (1995), “ ORP對固定化污泥反應槽操作之影響”, 國立清華大學化學工程研究所碩士論文
白明德, “厭氧生物產氫機制與操作策略之研究”, 成功大學研究所碩士論文, 1999, 台南。
許駿發, “工業技術人才培訓計畫講義─高溫丁醇發之理論與應用”, 經濟部工業局, 1998, 台北。
Allan E. K., “Distribution and Activity of Microorganisms in Lakes;Effect of Physical Processes. “,Ford Y. E. eds. , pp.47-68, Aquatic Microbiology., Blackwell Scientific Publications, Inc., 1993, Boston.
Brosseau, J. D. and Zajic, J. E.,” Hydrogen gas production with Citrobacter intermedius and Clostridium pasteurianum.”, J. Chem. Tech. Biotechnol., 32 496, 1982.
Charpentier, J., Martin, G., Wacheux, H. and Gilles, P., (1998), “ ORP regulation and activated sludge:15 years of experience.” ,Wat. Sci. Technol., 38(3):197-208
Gest, H. and Peck, H. D., Jr., “A study of the hydrogenlyase reaction with systems derived from normal and anaerobic coli-aerogenes bacteria.”, J. Bacteriol., 70, 326, 1955
Gerhard G., “ Bacterial Metabolism .“ , Spring-Verlag New York, pp. 208-282, 1986.
Gray, C. T. and Gest, H., “Biological formation of moleculat hydrogen.”, Science, 148, 186, 1965
Heydrickx M., Vos De P., Thibau B., Stevens P. and Ley De J. ,” Effect of Various External Factors on the Fermentative Production of Hydrogen Gas from Glucose by Clostridium butyricum Strains in Batch Culture .“ , System. Appl. Microbiol., Vol. 9 pp. 163-168, 1987.
Heydrickx M., Vos De P., Vancanneyt M. and Ley De J.,“ The fermentation of Glycerol by Clostridium butyricum LMG 1212t2 and 1213t1 and C. pasteurianum LMG 3285.”, Appl. Microbiol. Biotechnol., Vol. 34, pp. 637-642, 1991.
Johns, A. T., “The mechanism of propionic acid formation by Veillonella gazogenes.”, J. Gen. Microbiol., 5, 326, 1951.
Johns, A. T. and Barker, H. A., “Methane formation, fermentation of ethanol in the absence of CO2 by methanobacillus omelianskii.”, J. bacterial., 80, 837, 1960.
Joseph S. T. and Eva R. K ., “ Intracellular Conditions Required for Initiation of Solvent Production by Clostridium acetobutylicum.”, Appl. and Environ. Microbiol., Vol.52, No.1, pp.86-91,1986.
Jun M. Y., Kim S. K. and Kim S.Y. ,“ Riboflavin-Sensitized Phoooxidation of Ascorbic Acid;Kinetics and Amino Acid Effects .”, Food Chemistry, Vol. 53, No. 4, pp.397-403, 1995.
Kataoka N., Miya A. and Kiriyama K., “ Studieson Hydrogen Production by Continuous Culture System of Hydrogen-Producing Anaerobic Bacteria .“, Wat. Sci. Tech., Vol. 36, pp. 41-47, 1997.
Karube, I., Matsunaga, T., Tsuru, S., and Suzuki, S., “Continuous hydrogen production by immobilized whole cells of Clostridium butyricum.” , Biochim biophys. Acta, 444 , 338 , 1976.
Karube I., Urano N., Matsunaga T. and Suzuki S., “ Hydrogen Production from Glucose by Immobilized Growing Cells of Clostridium butyricum.”, Eur. J. Appl. Microbiol. Biotechnol., Vol. 16, pp.5-9, 1982.
Koch, F. A. and Oldham, W. K. (1985) , “ Oxidation-reduction potential- a tool for monitoring , control and optimization of biological nutrient removal systems.” , Wat. Sci. Technol., 17:259-281
Laurence G., Christian C., Isabel V. and Philippe S. ,“ Regulation of Metabolic Shifts in Clostridium acetobutylicum ATCC 824.” , FEMS Microbiology Reviews, Vol. 17, pp. 287-297, 1995.
Lawier, A. , ”Walker Bill to boost hydrogen sparks democratic grumbling .”, Science, 267, 613, 1995.
May, P. S., Blanchard, G. C., and Foley, R. T., “Biochemical hydrogen generators:18th Annual Proceedings Power Sources Conferences.”, 1964, May 19-21
Mitsui, A. In.,“Solar-Hydrogen Energy System.”, Pergamon, Oxford and New York,p.171,1979.
Pakes, W. C. C. and Jollyman , W . H., “The bacterial decomposition of formic acid into CO2 and H2 .”, J. Chem, Soc., 79, 386, 1901
Pourbaix, M. (1963), “ atlas dequilibres electrochimiques.”, Gauthiers – Villars et Cie, Editeur-Imprimeur-Libraire, 55, Quai des Grands Augustin, Paris.
Rheinheimer G., “ The Influence of Environmental Factors on the Development of Microorganisms.”, Rheinheimer G. eds., Aquatic Microbiology 4th ed., pp.111-147, Baffins Lane, 1992, England.
R. Nandi and S. Sengupta ,“Microbial Production of Hydrogen: An Oveview.”, Rohrback, G. H., Scott, W. R., and Canfield, J. H., in proceedings of the 16th Annual Power Sources Conference, 18, 1962.
Suzuki, S., Karube, I., Matsunga, T., and Kuriyama, S.,” Biochemical energy conversion using immobilized whole cells of Clostridium butyricum.”, Biochimie, 62, 353, 1980.
Suzuki, S., Karube, I., and Matsunaga, T., “Application of a biochemical fuel cell to wastetaters.”, Biotechnol. Bioeng. Symp. No. 8 , 501, 1978.
Taguchi, F., Chang, J. D., Mizukami, N., Saito-Taki, T., Hasegawa, K., and Morimoto, M., “Isolation of a hydrogen productionbacteria, Clostridium beijerinckii strain AM 21B from termites.”, Can. J. Microbiol., 39, 726, 1993.
Taguchi , F., Hasegawa , K., Saito-Taki, T., and Hara, K.,” Simultaneous production of xylanase and hydrogen using xylan in batch culture of Clostridium sp.”, strainX53, J. Ferment. Bioeng., 81, 178, 1996
Taguchi, F., Mizukami, N., Hasegawa, K., Hasegawa, K., and Saito-Taki, T.,” Direct conversion of cellulosic materials to hydrogen by Clostridium sp. Strain no. 2.”, Enzyme Microbiol. Technol., 17, 147, 1995.
Taguchi, F., Mizukami, N., Saito-Taki , T., and Hasegawa , K.,”Hydrogen production from continuous fermentation of xylose during growth of Clostridium sp. Strain no. 2, Can. J. Microbiol.”, 41, 536, 1995.
Taguchi , F., Yamada , K., Hasegawa , K., Taki-Saito, T., and Hara, K., “Continuous hydrogen production by Clostridium sp. Strain no. 2 from cellulose hydrolysate in an aqueous two-phase system.”, J. Ferment. Bioeng., 82, 80, 1996.
Thauer, R. K., Jungermann, K., and Decker, K.,” Energy conservation in chemotrophic anaerobic bacteria, Bacteriol.” , Rev.,41, 100, 1977.
Twarog, R. and Wolfe, R. S., “Role of butyryl phosphate in the energy metabolism of Clostridium tetanomorphum.”,J. Bacteriol., 86, 112, 1965
Wareham, D. G., Hall, K. J. and Mavinic, D. S. (1993) , “ Real-time control of aerobic-anoxic sludge digestion using ORP.”,J. Environ. Engineer., 119(1):120 |