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底物初始浓度对光合细菌产氢动力学特性的影响 被引量:11

Effect of initial substrate concentration on dynamic characteristic of hydrogen production by photosynthetic bacteria
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摘要 实验研究了底物初始浓度对光合细菌产氢动力学特性的影响,并对光合细菌产氢得率和初始底物转化为氢气得率进行比较,分析底物初始浓度对光合细菌产氢代谢的影响,实验发现底物初始浓度为120 mmol/L时最适合光合细菌的产氢代谢,底物初始浓度达到140 mmol/L时,光合细菌主要进行生物量合成和产酸代谢,得到各浓度梯度下的最大生物量,但对产氢代谢产生抑制作用,表明最大生物量与最大的产氢能力之间不成正比关系及光合细菌产生CO2机制与产氢机制不同;光合细菌最大比产氢活性表现在对数生长期,最大生物量出现在稳定期。实验证明,光合细菌对数生长期受底物浓度影响大,底物浓度低,最大生物量所对应的时间相对较早,底物浓度增大,最大生物量所对应的时间相对延后。 The effect of initial substrate concentration on the dynamic characteristics of hydrogen production by photosynthetic bacteria (PSB) was studied in the experiment, and metabolism of hydrogen production was analyzed by comparing the ratio between quantity of hydrogen produced and initial substrate quantity to that between quantity of hydrogen produced and quantity of consumed substrate. It was found that the optimal initial substrate concentration of hydrogen production by PSB was 120 mmol/L, when initial substrate concentration came to 140 mmol/L PSB would mostly synthesize biomass and acidic product, and the maximum biomass among all initial substrate concentrations was gained. However, the metabolism of hydrogen production was restrained. This indicated that there was no direct proportion between the maximum biomass and the maximum hydrogen produc- tion rate,and the mechanism of CO2 production was different from that of H2 production. Meanwhile, the maximum specific ratio of hydrogen production of PSB was found in exponential phase, while maximum biomass was found in steady phase. On the other hand, the fact that initial substrate concentration influence obviously on exponential phase of PSB was found, when initial substrate concentration was smaller the maximum biomass was gained earlier, whereas the maximum biomass was gained latter when initial substrate concentration was bigger.
作者 王永忠 廖强 朱恂 巴淑丽 张攀 张川
机构地区 重庆大学工程热物理研究所
出处 《环境工程学报》 CAS CSCD 北大核心 2007年第7期125-129,共5页 Chinese Journal of Environmental Engineering
基金 国家自然科学基金资助项目(90510020 50576107) 教育部新世纪优秀人才支持计划资助项目(NCET-04-0845)
关键词 光合细菌 光生物制氢 产氢动力学特性 底物初始浓度 photosynthetic bacteria bio-hydrogen photo-production dynamic characteristic of hydrogen production initial substrate concentration
分类号 X172 [环境科学与工程—环境科学]
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参考文献11

  • 1[1]Ida Akkerman,Marcel Janssen,Jorge Rocha.Photobiological hydrogen production:Photochemical efficiency and bioreactor design.International Journal of Hydrogen Energy,2002,(27):1195 ~ 1208 被引量:1
  • 2[2]Chun-Yen Chen,Jo-Shu Chang.Enhancing phototropic hydrogen production by solid-carrier assisted fermentation and internal optical-fiber illumination.Process Biochemistry,2006,(41):2041 ~2049 被引量:1
  • 3[3]Turner J.A.Sustainable hydrogen production.Science,2004,(305):972 ~ 974 被引量:1
  • 4[4]Levin D.B.,Pitt L.,Love M.Biohydrogen production:Prospects and limitations to practical application.International Journal of Hydrogen Energy,2004,(29):173 ~ 185 被引量:1
  • 5[5]Das D.,Veziroglu T.N.Hydrogen production by biological processes:A survey of literature.International Journal of Hydrogen Energy,2001,(26):13 ~ 28 被引量:1
  • 6[6]Harun Koku,Inci Eroglu,Ufuk Gündüz,et al.Aspects of the metabolism of hydrogen production by Rhodobacter sphaeroides.International Journal of Hydrogen Energy,2002,(27):1315 ~ 1329 被引量:1
  • 7[7]Oku,Harun,Eroglu,Inci,Güindüz.Ufuk,et al.Kinetics of biological hydrogen production by the photosynthetic bacterium Rhodobacter sphaeroides O.U.001.International Journal of Hydrogen Energy,2003,28 (4):381 ~ 388 被引量:1
  • 8[8]Akayama Tatsuki,Miyake Jun.Light shade bands for the improvement of solar hydrogen production efficiency by Rhodobacter sphaeroides RV.International Journal of Hydrogen Energy,2002,27(11 ~ 12):1495 ~ 1500 被引量:1
  • 9刘灵芝,孙军德,韩梅,陈锡时.光合细菌产氢因子的研究进展[J].生态科学,2004,23(2):184-186. 被引量:15
  • 10[10]Kornél L.Kovács,Gergely Maróti,Gábor Rákhely.A novel approach for biohydrogen production.International Journal of Hydrogen Energy,2006,(31):1460 ~ 1468 被引量:1

二级参考文献27

  • 1刘双江,杨惠芳,周培瑾.产氢紫色非硫光合细菌的分离与筛选[J].微生物学通报,1993,20(5):259-263. 被引量:19
  • 2孙琦,徐向阳,焦杨文.光合细菌产氢条件的研究[J].微生物学报,1995,35(1):65-73. 被引量:38
  • 3Miyaka J, kawamura S. 1987. Efficient conversion of light energy to hydrogen by photosynthetic bacteria[A].Proceeding of the IUPC chemraun VI World Conference on Advanced Marterial and Innovations in energy[C]. Transporation and communications, Nippor Tos 被引量:1
  • 4Aeams M W W. 1998. Biological Hydrogen Production[J].Science, 4:282,1842-1843. 被引量:1
  • 5Barbara R, Sharak Genthner and Judy D. 1985. Wall Ammoniym uptake in Rhodopseudomonas capulata[J].Arch Microbiol. 141: 219-224. 被引量:1
  • 6Barbosa M J, Rocha J M, Tramper J, Wijffels R H. 2001.Acetate as a carbon source for hydrogen production by photosynthetic .bacteria [J]. Biotechnol, 8S(1):25-33. 被引量:1
  • 7Murooka Y, Emanaka T. 1994. Recombinant microbe for industrial applications [A]. Mew York: Marcel Dekker Inc,771. 被引量:1
  • 8Jurgen O, sine K.1996. control of nitrogen by oxygen in purple nonsulfur bacteria[J]. Arch Microbiol,165:219-225. 被引量:1
  • 9Nandi R, Sengupta S. 1998. Microbial production of hydrogen:An overview[J]. Crit Rev Microbiol,24(1):61-84. 被引量:1
  • 10Sasikalak, Ramana C V, Rao P R. 1992. photoproduction of hydrogen from the waste water of a distillery by Rhodbacter sphaeroides O V 001 [J]. International Journal of Hydrogen Energy, 17:23-27 被引量:1

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引证文献11

二级引证文献47

环境工程学报
2007年 第7期

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