养物质来完成新陈代谢,最终代谢出产能物质。因此。 5 结{吾
微生物的生长过程需要适宜的生态因子。 作为可再生的生物质能燃料有利于环境保护和解
决能源危机,而环保清洁的生物制氢是通过发酵或光
合微生物的作用,将有机物分解获得氢气。文章论述 了优化控制生态因子是保持产氢过程稳定性和提高产 氢量的关键,特别是金属离子在生物制氢中能够维持 细胞生长,并参与其中的酶促反应影响酶活力,进而 对产氢率有一定的影响。
参考文献:
【1】李冬敏。陈洪章,李佐虎.生物制氢技术的研究进展【J】.生 物技术通报,2003(4):1-5.
Li Dongmin,Chen Hongzhang,Li Zuohu.Research and Development of Hydrogen Production by Biological Technology[J].Biotechnology Bulletin,2003(4):卜5.
【2】左宜,左剑恶,张薇.利用有机厌氧发酵生物制氢的
研究进展【J】.环境科学与技术,2004,27(1):97—99.
Zuo Yi,Zuo Jian’e,Zhang Wei.Review of Research on BiologicalHydrogen Production by Anaerobic Fermentation ofOrganicWaste[J].EnvironmentalScienceandTechnology,
2004,27(1):97—99.
[3】Thaur R k,Jungerman K,Decher K.Energy Eonservation in Chemitrophic Anaerobic Bacteria[J].Bacterial Rev.,1997,
41:100—180.
【4】柯水洲,马晶伟.生物制氢研究进展(I)产氢机理与研究动 态【J】.化工进展,2006,25(9):1001—1005.
Ke Shuizhou,Ma Jingwei.Progress of Biological Hydrogen Production(I)Mechanism and Development[J].Chemical Industryand Engineering Progress,2006,25(9):1001—1005.
[5】李永峰,任南琪,史英.有机废水生物制氢的连续流发
酵工艺【J】.能源工程,2004(6):24—27.
Li Yongfeng,Ren Nanqi,Shi Ying.Continuous Flow Fermentation Technology of Biohydrogen Production with Organic Wastewater[J].Energy Engineering,2004(6):24-27.
【6】蒲贵兵,孙可伟.厌氧发酵产氢的关键生态因子强化研究 进展【J】.北京联合大学学报:自然科学版,2007,21(4):
42—48.
PuGuibing,SunKewei.DevelopmentofKeyEcologicalFactors Enhancement on Anaerobic Fermentative Hydrogen Production. Process[J].Journal of Beijing Union University:Natural Sciences,2007,21(4):42-48.
【7】王勇,任南琪,孙寓姣.Fe对产氢发酵细菌发酵途径及 产氢能力影响【J】.太阳能学报,2003,24(2):222-226. Wang Yong,Ren Nanqi,Sun Yujiao.Analysis of the Ferment Process and Pro••Hydrogen Ability of Pro•-Hygrogen and
Ferment Bacterium Influencedby FelJ].Acta Energicae Solaris
SiIlica.2003,24(2):222—226.
【8】Wang Jianlong,Wan Wei.Influence of Ni“Concentration on
Biohydrogen Production[J].Biomsource Technology,2008,
99:8864-8868.
(9】王勇,孙寓姣,任南琪,等.C/N对细菌产氢发酵类型 及产氢能力的影响【J】.太阳能学报,2004,25(3):375—378. Wang Yong,Sun Ynjiao,Ren Nanqi,et a1.Effect of C/N on Bacterium Pro-Hydrogen FermentType and Pro-Hydrogen Ability【J】.Acta Energicae Solaris Sinic.,2004,25(3):375—
378.
【lo】樊耀亭,李晨林,侯红卫,等.天然厌氧微生物氢发酵生 产生物氢气的研究阴.中国环境科学,2002,22(4):370-
374.
Fan Yaoting,Li Chenlin,Hou Hongwei,et a1.Studies on Biohydrogen Production by Biohydrogen Fermentation of Natural Anaerobic Microorganism[J].China Environmental
Science。2002,22(4):370-374.
【11】Zhu H G,Wakayama T,Asada Y,et a1.Hydrogen
Production by Four Cultures wi廿l Participation by Anoxygenic Phototrophic Bacterium and Anaerobic Bacterium in the Presence of NH?【J】.Int.J.Hydrogen Energy,2001,26: “49—1 154
【12]Liu G,Shen J.Effectsof Culture Medium and Medium
Conditions on Hydrogen Production from Starch Using
Anaerobic Bacteria[J].J.Biosci Bioeng.2004。98(4):25 1—
256.
【13】刘晶晶,龙敏南.氢酶结构及催化机理研究进展【J】.生物 工程学报,2005,21(3):348—353.
Liu Jingjing,Long Minnan.Recent Advances on the Structure
and Catalytic Mechanism of Hydrogenase[J].Chinese Journal of Biotechnoiogy,2005,2 1(3):348—353.
【14】洪天求,郝小龙,俞汗青.Na+离子浓度对厌氧发酵产氢 气影响的实验研究【J】.水处理技术。2004,30(5):270-275.
Hong Tianqiu,Hao Xiaolong,Yu Hanqing.Tentative Researchon EffectofSodium Ion Concentration on Hydrogen- Generation by Anaerobic Fermentation of Sucrose[J】.
Technology of Water Treatment,2004,30(5):270-275.
【15】S^.bastien Dementin,Val6rie Belle,St6phanieChamp,et a1.Molecular Modulation of NiFe Hydrogenase Activity【J】.
Int J.Hydrogen Energy,2008。33:1503—1508.
【16】Jean-Francois Capon。Fr6d6ric Gloaguen,Francois Y P6tillon,et a1.On the Electrochemistry of Diiron Dithiolate Complexes Related to tlle Active Site of the【FeFeIH2ase[J]. C.R.Chimie.2008,1l:842-851.(责任编辑:南粤论文中心)转贴于南粤论文中心: http://www.nylw.net(南粤论文中心__代写代发论文_毕业论文带写_广州职称论文代发_广州论文网)