| [1 ] 陈江涛等, 上海环境科学, 1994, (3) , 1~ 7.
[2 ] 高晋生, 洁净煤技术, 1995, 1 (1) , 30~ 31.
[3 ] Wheelock T D, Markusgewski R, The Science and Technology of Coaland Coal Utilization (eds.Cooper B R, Ellingson W A ) , Plenum , 1984, 47~ 123.
[4 ] Colmer A P, Hinkle M E, Science, 1947, 106, 252~ 256.
[5 ] Loi G, Nura A , Rossi G, Fuel Process. Technol. , 1994, 40, 261~ 268.
[6 ] Chandra D, Roy P, Mishra A K, Chabrabarti J N , Sengupta B, Fuel, 1979, 58, 549.
[7 ] Gokcay C F, Yurteri R N , Fuel, 1983, 62, 1223.
[8 ] Kargi F, Robinson J M , Fuel, 1986, 65, 397~ 399.
[9 ] Elsawy A , Gray D, Fuel, 1991, 70, 591~ 594.
[10 ] Drobner E, Huber H, Rachel R, Stetter K O , Arch. Microbiol. , 1992, 157, 213~ 217.
[11 ] Hamson A P Jr, Norris P R, FEM S Microbiol. Lett. , 1985, 30, 99~ 102.
[12 ] Isbister J D, Kobylinski E A , Processing and Utilization of High Sulfur Coal, Proc. 1st Int.Conf . , Elsevier, 1985, 627.
[13 ] Abdulrashid N , Clark D J , Bacterial, 1987, 169, 1267.
[14 ] Srivastara V J , Kilbane J J , DOE Report No. DOE/PC/901762T 57, 1992.
[15 ] Kovalenko E V , Malakhora P T , Mikrobiologiya, 1983, 52, 962~ 966.
[16 ] Chandra D, Mishra A K, Resour. Conserv. Recycl. , 1988, 1, 293.
[17 ] Karavaiko G I, Golovachera R S, Golyshina O V , Valiejo-Roman K M , Bobrova V K, Troitsky A V , Rivovarova T A , Biohydrometallurgical Technologies, Proc. Int. Biohydromet. Symposium ,Vol. 1 (eds. TonaM L , Brierley C L ) , TM S, Warrendale, 1993, 685~ 694.
[18 ] Brierley C L , Prierley J A , Can. J. Microbiol. , 1973, 19, 183~ 188.
[19 ] Peeples T L , Hirosue S, Muralsdharan V , Kelly R M , Prep. Paper ACS Fuel Chem. , 1992, 35,907~ 915.
[20 ] Karavaiko G I, Lobreva L B, Fuel Proc. Tech. , 1994, 40, 167~ 182.
[21 ] Rossi G, Fuel, 1993, 72, 1581~ 1592.
[22 ] Olsson G, Larsson L , Holst O , Karlsson H T , Fuel Proc. Tech. , 1993, 33, 83~ 93.
[23 ] Kim H Y, Kim T S, Kim B H, Biotechnol. Lett. , 1990, 12, 761~ 764.
[24 ] 牧野宏治, 仓根隆一郎, 中原忠笃, 日本农芸化学会志, 1992, 66, 267.
[25 ] Ju L K, Fuel Sci. Technology Int. , 1992, 10, 1251~ 1290.
[26 ] Andrews G F, Biotechnol. Bioeng. , 1988, 31, 378~ 381.
[27 ] Mustin C,de Donato Ph, Berthelin J , Biotechnol. Bioeng. , 1992, 39, 1121~ 1127.
[28 ] Merritey U , Wlotzka P, Onken U , Appl. Microbiol. Biotechnol. , 1989, 31, 626~ 628.
[29 ] Kuenen J G, Pronk J T , Hazen W , Menlenberg R, Bos P, Biohydrometallurgical Techniques, Proc.Int. Biohydromet. Symposium , Vol. 2 (eds. Toma A E, ApelM L , Brierlay C L ) , TM S, Warrendale, 1993, 487~ 494.
[30 ] Boogerd F C, Vander Beemd C, Stoelwinder T , Bos P, Kuenen J G, Biotechnol. Bioeng. , 1991,38, 109~ 115.
[31 ] Olson G J , Fuel Proc. Tech. , 1994, 40, 103~ 114.
[32 ] Tributsch H, Bennett J C, J. Chem. Technol. Biotechnol. , 1981, 31, 627.
[33 ] Isbister J D, Wyza R E, Lippold J , Desouza A , Anspach G, Proc. Conf . Reducing Risk Environ.Chem. Biotech. (eds. Omenn G S, Colwell R R) , Plenum Press, 1988, 281~ 293.
[34 ] Kodama K, Nakatani K, Umehara K, Shimizu K, Minoda I, Yamada K, Agric. Biol. Chem. ,1973, 37, 45~ 50.
[35 ] Holland H L , Chem. Rev. , 1988, 88, 473~ 485.
[36 ] Beyer M , Ebner H G, Klecn J , Appl. Microbiol. Biotechnol. , 1986, 24, 342.
[37 ] Ogut A , Hatch R, Can. J. Chem. Eng. , 1988, 66, 79.
[38 ] Andrews G, Darroch M , Hansson T , Biotechnol. Bioeng. , 1988, 32, 813.
[39 ] OrsiN , Rossi G, Trois P, Valenti P D, Zecehin A , Resour. Conserv. Recycl. , 1991, 5, 211.
[40 ] Jedlicki E, Reyes R, Jordana K, Mercerean-Puijalon O , Allende J E, Biotechnol. Appl. Biochem. ,1986, 8, 342~ 350.
[41 ] Pulgar V , Nunez L , Moreno F, Orellana O , Jedlicki E, Biohydrometallurgical Technologies, Proc.Int. Biohydromet. Symposium ,Vol. 2, (eds. Torma A E, ApelM L , Brierley C L ) , TM S, Warrendale, 1993, 541~ 548.
[42 ] Shiratori T , Inoue C, Sugawara K, Kusano T , Kitagawa Y J , Bacteriol, 1989, 171, 3458.
[43 ] Holden P J , Biohydrometallurgical Technologies, Proc. Int. Biohydromet. Symposium , Vol. 2,(eds. Torma A E, Apel M L , Brierley C L ) , TM S, Warrendale, 1993, 705~ 714.
[44 ] Khalid A M , Anwar M A , Shemsi A M , Akhtar K,ibid. , 629~ 634.
[45 ] Kusano T , Tabeshima T , Sugawara K, Inoue Ch, Shiratori T , Yano T, Fukumori Y, Yamanaka T ,ibid. , 725~ 733.
[46 ] Detz C M , Barrinchak G, Min. Congr. J. , 1987, 65, 75.
[47 ] Krawies S, Womg P, Mcgueney P A , Dutt D L , Proc. 2nd Int. Symp. Biolo. Process. Coal(E PR I ) , 1991, 5~ 45.
[48 ] Roberto F F, Bruhn D F, Glann A W , Ward T E,ibid , 1991, 2.
[49 ] 大村直也, 斋木博, 化学工学, 1994, 58, 561~ 562.
[50 ] 仓根隆一郎, 日本? - ? ? - 学会志, 1993, 72, 151~ 156.
[51 ] Finnerty W R, Prep. Paper A CS Petro. Chem. , 1993, 38, 282~ 285.
[52 ] Yokozeki M , Motonansi Y, Nishikawa J , Kodama T. J P 0 549 486, 1993 (Chem. Abstr. , 118,232402).
[53 ] Kilbane J J , E P 445 896, 1991 (Chem. Abstr. , 115, 203201).
[54 ] Stevens S E, Burgess W D, US 4 851 350, 1989 (Chem. Abstr. , 111, 177801).
[55 ] Yunker S B, Radovich J M , US 4 703 010, 1987 (Chem. Abstr. , 108, 10819).
[56 ] Isbister J D, Doyle R C, E P 218 734, 1989 (Chem. Abstr. , 111, 429750).
[57 ] Kopacz E P, US 4 632 906, 1986 (Chem. Abstr. , 106, 105251).
[58 ] Isbister J D, Kobylinski E A , Processing and Utilization of High Sulfur Coals, Coal Science and Technology 9, (ed. Attin Y A ) , Elsevier, 1985, 627~ 641.
[59 ] Atlantic Research Corporation, DOE?P E TC?D E 2A C22285PC81207, 1987.
[60 ] Kargi F, Trends Biotechnol. , 1986, 4, 293~ 297.
[61 ] Beier E, Proc. Biolo. Treatment Coals Workshop Vienna, 1987, 389~ 424.
[62 ] Rai C, Biotechnol. Prog. , 1985, 1, 200.
[63 ] Andrews G F, Noah K S, Glenn A W , Stevens C J , Fuel Proc. Tech. , 1994, 40, 283~ 296.
[64 ] Kargi F, Cervoci T D, Biotechnol. Lett. , 1983, 5, 33~ 38.
[65 ] Vaseen V A , Processing and Utilization of High Sulfur Coals, Coal Science and Technology 9, (ed.Attin Y A ) , Elsevier, 1985, 699~ 715.
[66 ] Olsson G, Larsson L , Holst O , Karlsson H T , Fuel Proc. Tech. , 1993, 33, 83~ 93.
[67 ] McCaughey M Sh, Andrews G, Proc. 8th Pittsburgh Coal Conf . , Pittsburgh, PA , 1991, 254~259. |
