期刊文献+

初始pH值对产氢产乙酸/耗氢产乙酸两段耦合工艺定向生产乙酸的影响 被引量:21

Acetate Production by Acidification-homoacetogenesis Two-phase Coupling Process:Effect of Initial pH
下载PDF
导出
摘要 以葡萄糖为底物,以经加热预处理并活化过的厌氧污泥为种泥,研究了初始pH值对产氢产乙酸,耗氢产乙酸两段耦合工艺厌氧发酵定向生产乙酸的影响。实验考察了7个初始pH值(5、6、7、8、9、10、11)条件下的底物降解、产物产生和发酵过程pH值的变化。结果表明:产氢产乙酸段初始pH值的变化不仅影响本阶段产酸,而且影响耗氢产乙酸段产酸。初始pH=5时主要进行乙醇型发酵;pH:6和7时主要进行丁酸型发酵;pH=8时混合酸型发酵类型逐渐占优势,pH=8~11时均以乙酸为主要产物,耦合系统生产乙酸最优初始pH值为10。在初始pH=8-11范围内,产氢产乙酸段初期的乙醇浓度一般较高,但到后期因乙醇被微生物进一步代谢转化成乙酸而使其含量下降。 The effect of initial pH values on acetate production was studied in the acidification- homoacetogenesis two-phase coupling system using glucose as the substrate and the heat-treated and activated anaerobic sludge as the inoculum. Substrate degradation, product yield and pH variation during fermentation were examined at various initial pH values (5, 6, 7, 8, 9, 10 and 11 ). The results show that initial pH values affect volatile fatty acids and ethanol production not only in the acidification phase itself but also in the homoacetogenesis phase. Ethanol-type fermentation mainly takes place at initial pH 5 while butyratetype fermentation at initial pH 6 and 7. But acetate is the dominant product at initial pH 8 - 11. The optimal initial pH value is 10 for acetate production in the two-phase coupling system. At initial pH 8 - 11, ethanol concentration is highest at the beginning of acidification, but there is a subsequent decline as ethanol is converted to acetate as a result of further metabolism of the microbes.
出处 《生物工程学报》 CAS CSCD 北大核心 2007年第4期686-691,共6页 Chinese Journal of Biotechnology
基金 国家自然科学基金(NoE50508014) 863项目(No2006AA06Z315)资助~~
关键词 产氢产乙酸 同型产乙酸 PH 耦合工艺 厌氧发酵 syntrophic acetogenesis, homoacetogenesis, pH, coupling process, anaerobic fermentation
  • 相关文献

参考文献32

  • 1周莺,尹新.乙酸生产现状与市场分析[J].化学工业与工程技术,2003,24(2):27-31. 被引量:7
  • 2Iranpour R,Stoustrom M,Tchobanoglous G.Environmental engineering:energy value of replacing easte disposal with resourece recevery.Science,1999,285(5428):706-11.
  • 3Largus TA,Khursheed K,Muthanm HA,et al.Production of bioenergy and biochemicals from industrial and agricultural wastewater.Trends Biotechnol,2004,22(9);477-85.
  • 4Conrad R.Klose M.Selective inhibition of reactions involved in methunogenesis and fatty acid production on rice roots.FEMS Microbial Ecol,2000,34(1):27-34.
  • 5Chidthaicong A,Conrad R.Specificity of chloroform.2-bremoethanesilfonate and fluoruscetate to inhibit methanogenesis and other ananmbic processes in anoxic rice field soil.Soil Biology and Biochemistry,2000,32(7):977-988.
  • 6Nie YQ,Liu H,Du GC,et al.Enhancement of acetsate production by a novel coupled syntrophic acetosenesis with homoacetogenesis process,Process Biochemistry (2006),doi:10.1016/j.procbio.2006.11.007.
  • 7Ren NQ(任南琪),Wang AJ(王爱杰),Ma F(马放).Physiological Ecology of Acidogens in Anaerobic Biotreatment Process(产酸发酵微生物生理生态学).Beijing:Science Press (科学出版社),2005.
  • 8吕凡,何品晶,邵立明,陈活虎.pH值对易腐有机垃圾厌氧发酵产物分布的影响[J].环境科学,2006,27(5):991-997. 被引量:44
  • 9Zhu Y,Yang ST.Effect of pH on metabolic pathway shift in fermentation of xylose by Cloaridium tyrobutyricum.Journal of Biotechnology,2004,110:143-157.
  • 10Steven VG,Shihwu S,Jiuun-Jyi L.Biohydrogen production as a function of pH and substrale concentration.Environ Sci Technol.2001,35(24):4726-4730.

二级参考文献98

  • 1王旭明,汪群慧,刘建丽,孙丽欣.高产乳酸细菌发酵厨余垃圾生产乳酸的试验研究[J].现代化工,2005,25(z1):148-150. 被引量:6
  • 2张波,史红钻,张丽丽,蔡伟民.pH对厨余废物两相厌氧消化中水解和酸化过程的影响[J].环境科学学报,2005,25(5):665-669. 被引量:109
  • 3刘振玉.谷胱甘肽的研究与应用[J].生命的化学,1995,15(1):19-21. 被引量:48
  • 4任南琪 王宝贞.有机废水发酵法生物制氢技术--原理与方法[M].哈尔滨:黑龙江科学技术出版社,1994..
  • 5任南琪.水污染控制微生物学[M].黑龙江科学技术出版社,1993..
  • 6钱泽澍 闵航.沼气发酵微生物学[M].Hangzhou:Zhejiang Science and Technology Press,1985.257-258,260-261.
  • 7Chem Systems. Acetic acid directly from ethylene.PERP, 1996.12.
  • 8Madshus IH. Regulation of intracellular pH in eukaryotic cells.Biochem J, 1988, 250:1-8.
  • 9Eddy AA. Mechanisms of solute transport in selected eukatyotic microorganisms. Adv Microbial Physiol, 1982, 23:1 - 78.
  • 10Busa WB, Nuccitelli R. Metabolic regulation via intracellular pH. Am J Physiol, 1984, 246:409- 438.

共引文献331

同被引文献278

引证文献21

二级引证文献86

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部