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化学进展 2007, Vol. 19 Issue (0708): 1198-1205 前一篇   后一篇

• 专题论坛 •

生物炼制工业过程及产品*

王庆昭;郑宗宝;刘子鹤;赵学明**   

  1. 天津大学化工学院 发酵技术国家工程研究中心 天津 300072
  • 收稿日期:2007-04-23 修回日期:1900-01-01 出版日期:2007-08-17 发布日期:2007-08-17
  • 通讯作者: 赵学明
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The Industrial Processes and Products of Biorefineries

Wang Qingzhao;Zheng Zongbao;Liu Zihe; Zhao Xueming**   

  1. School of Chemical Engineering & Technology,Tianjin University,National Engineering Research Centre of Fermentation Technology,Tianjin 300072,China
  • Received:2007-04-23 Revised:1900-01-01 Online:2007-08-17 Published:2007-08-17
  • Contact: Xueming Zhao
生物炼制是人类面对日益枯竭的化石资源和其所产生的严重环境污染的必然选择。本文从生物炼制和石油炼制的比较出发简要介绍了生物炼制的概念、基本分类和理论框架,并重点分析了生物炼制过程工程的相关技术和进展。主要包括生物质原料的预处理、过程相关的酶水解技术以及发酵菌种改良等。本文还概括了生物炼制相关的碳水化合物、脂肪类以及其他类产品的相关产品群,分析了一些重要生物基产品的生产过程、研发趋势以及所面临的机遇和挑战。
关键词: 生物炼制, 生物质, 生物基产品, 生物过程
The depletion of fossile resources and the serious environmental pollution made by the fossile combustion have made the biorefinery one necessary choice. The biorefinery and oilrefinery is compared firstly in this paper, then the basic concept of biorefinery, basic principles and main framework is introduced. The biorefinery related bioprocess are addressed in detail, which include the pretreatment of biomass, enzyme hydrolysis and fermentaion stain improvement . Finally, we outlined the important existing and potential biobased products in the carbohydrate, lipids and protein family trees. The producing processes , research trends and the facing opportunities and challenges of some important biobased chemicals are also illustrated.
Key words: biorefinery, biomass, biobased products, bioprocess

中图分类号: 

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[ 1 ] Van Wyk J P H. Trends in Biotechnology , 2001 , 19 : 172 —177
[ 2 ] Global responses to climate change [ 2007-04-10 ] . http://www.g8.gov.uk
[ 3 ] Bungay R R. Science , 1982 , 218 : 643 —646
[ 4 ] Kamm B , Kamm M, Soyez K. The green biorefinery , concept of technology. Neuruppin : Society of Ecological Technology and System Analysis , 1998
[ 5 ] US Department of Energy. Energy , Environmental , and Economics (E3) Handbook. [ 2007-04-10 ] . http://www.p2pays.org/ref/36/e3/www.oit.doe.gov/e3handbook/b.shtml.htm
[ 6 ] National Renewable Energy Laboratory. [ 2007-04-10 ] . http://www.nrel.gov/biomass/biorefinery.html
[ 7 ] Kamm B , Kamm M. Appl . Microbiol . Biotechnol . , 2004 , 64 :137 —145
[ 8 ] Birgit K, Patrick R G, Michael K. Biorefineries : Industrial Processes and Products. WILEY-VCH GmbH&Co KgaA , 2006.191
[ 9 ] Roadmap for agriculture biomass feedstock supply in the United States. [2007-04-10 ] . http://devafdc.nrel.gov/pdfs/8245.pdf
[10] 闵恩泽(Min E Z) . 化学进展(Progress in Chemistry) , 2006 ,18(2/3) : 131 —141
[11] Atchison J E , Hettenhaus J R. Subcontractor Report , 2003.Innovative Methods for Corn Stover Collecting , Handling , Storing and Transporting [ 2007-04-10 ] . http://www.nrel.gov/docs/fy04osti/33893.pdf
[12] Sticklen M. Curr. Opin. Biotechnol . , 2006 , 17(3) : 315 —319
[13] Somerville C , Bauer S , Brininstool G, et al . Science , 2004 ,5705 : 2206 —2211
[14] Jacobsen S E , Wyman C E. Appl . Biochem. Biotechnol . , 2000 ,84/86 : 81 —96
[15] Hsu T A. Handbook on Biomass Ethanol . ( ed. Wyman C E) ,Washington D C: Taylor and Francis , 2003. 179 —212.
[16] Mosier N , Wyman C , Dale B , et al . Bioresour. Technol . , 2005 ,6 : 673 —86.
[17] Lynd L R , Weimer P J , van Zyl W H , et al . Microbiol . Mol .Biol . Rev. , 2002 , 66 : 506 —577
[18] Rausch KD , Belyea R L. Appl . Biochem. Biotechnol . , 2006 ,128(1) : 47 —86
[19] 黄炳权(Huang B Q) , 张秀铃(Zhang X L) . 粮油与食品工业(Cereal and Food Industry) , 2004 , 11(3) : 15 —18
[20] 黄秉涛(Huang B T) . 粮食加工( Grain Processing) , 2004 , 2 :14 —20
[21] Davis K S. Minnesota Nutrition Conference. Amsterdam:Elsevier , 2001
[22] Lynd L R , Zyl W H , McBride J E , et al . Curr. Opin.Biotechnol . , 2005 , 16(5) : 577 —83
[23] Zhang Y H , Lynd L R. Biotechnol . Bioeng. , 2004 , 88 ( 7) :797 —824
[24] Doi R H , Kosugi A. Nat . Rev. Microbiol . , 2004 , 2(7) : 541 —545
[25] Schmoll M, Kubicek C P. Acta Microbiol . Immunol . Hung. ,2003 , 50(2/3) : 125 —145
[26] Berlin A , Maximenko V , Gilkes N , et al . Biotechnol . Bioeng. ,2006 , 97(2) : 287 —296
[27] Zhang Y H , Himmel M E , Mielenz J R. Biotechnol . Adv. ,2006 , 24(5) : 452 —81
[28] Bayer E A , Belaich J P , Shoham Y, et al . Annu. Rev.Microbiol . , 2004 , 58 : 521 —54
[29] Greer D. Biocycle , 2005 , 46 : 61 —65
[30] 黄英明(Huang YM) ,高振(Gao Z) ,黄和(Huang H) . 生物加工过程(Chin. J . Bioprocess Eng. ) , 2006 , 4(3) : 1 —5
[31] Ragauskas A J , Willams C K, Davison B H , et al . Science.2006 , 311 (5760) : 484 —489
[32] Wang Q Z , Wu C Y, Chen T. Appl . Microbiol . Biotechnol . ,2006 , 70(2) : 151 —61
[33] Yanase H , Sato D , Yamamoto K, et al . Appl . Environ.Microbiol . , 2007 , 73(8) : 2592 —2599
[34] IngramL O , Aldrich H C , Borges A C , et al . Biotechnol . Prog. ,1999 , 15 : 855 —866
[35] Hahn-Hagerdal B , Wahlbom C F , Gardonyi M, et al . Adv.Biochem. Eng. Biotechnol . , 2001 , 73 : 53 —84
[36] Fujita Y, Ito J , Ueda M, et al . Appl . Environ. Microbiol . ,2004 , 70 : 1207 —1212
[37] Jennert K C B , Tardiff C , Yong D , et al . Microbiol . , 2000 ,146 : 3071 —3080
[38] Tardif C M, Maamar H , Balfin M, et al . J . Ind. Microbiol .Biotechnol . , 2001 , 16 : 1 —4
[39] Birgit K, Patrick R G, Michael K. Biorefineries-Industrial Processes and Products , vol . 2. Weinheim: Wiley-VCH , 2006.359
[40] Werpy T , Petersen G. [ 2007-04-10 ] . http://www1.eere.energy.gov/biomass/pdfs/35523.pdf
[41] [2007-04-10 ] . http ://www. metabolicengineering. gov
[42] 王庆昭(Wang Q Z) , 赵学明( Zhao X M) . 生物工程学报(Chin. J . Biotech. ) , 2007 , 23(4) : 16 —12
[43] Biomass R&D , Technical Advisory Committee. Roadmap forbiomass Technologies in the United States [ 2007-04-10 ] . http://www.brdisolutions.comlpdfs/FinalBiomassRoadmap.pdf
[44] Mirasol F. Chemical Market Reporter. New York , Apr 5 , 2004
[45] [2007-04-10 ] . http://www.bioindustry.cn/info/view/3395
[46] Service R F. Science , 2007 , 315 (5818) : 1488 —1491
[47] Stephanopoulos G. Science , 2007 , 315 (5813) : 801 —804
[48] Wyman C E. Trends Biotechnol , 2007 , 25(4) : 153 —157
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生物炼制工业过程及产品*