Research advances in two-phase anaerobic fermentation for hydrogen and methane production

doi:10.11894/1005-829x.2014.34(8).010

INDUSTRIAL WATER TREATMENT ›› 2014, Vol. 34 ›› Issue (8): 10-13. doi: 10.11894/1005-829x.2014.34(8).010

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Research advances in two-phase anaerobic fermentation for hydrogen and methane production

Wei Bo^1,2, Liu Wenhui², Yuan Linjiang²

1. College of Civil Engineering and Architecture, Xinjiang University, Urumq 830047, China;
2. School of Environment and Municipal Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China

Received:2014-07-08 Online:2014-08-20 Published:2014-08-25

产氢产甲烷两相厌氧发酵的研究进展

魏勃^1,2, 刘文辉², 袁林江²

1. 新疆大学建筑工程学院, 新疆乌鲁木齐 830047;
2. 西安建筑科技大学环境与市政工程学院, 陕西西安 710055

作者简介:魏勃（1980-），博士研究生，讲师。电话：15353674451，E-mail：weibopower@sina.com。
基金资助:
新疆维吾尔自治区高校科研计划项目（XJEDU2012S04）

Abstract

Abstract:

Extensively attention has been paid to the two-phase anaerobic process for hydrogen and methane production in China and abroad. How to improve the hydrogen productivity of hydrogen producing reactor and efficient conversion of system bio-energy sources have become the key problem of two-phase anaerobic research. Recent advances in the research on two-phase anaerobic technology and application of the newest achievement are summarized. The running situation of the two-phase anaerobic substrate utilization,the superiority of phase separation and the predominant strains in two phases are introduced. Furthermore,suggestions on the prospect concerning two-phase anaerobic fermentation for hydrogen and methane production have been made.

Key words: two-phase anaerobic process, bio-energy, phase-separation, dominant strains

摘要：

产氢/产甲烷的两相厌氧技术在国内外受到普遍关注，如何提高产氢反应器的氢气产率和系统生物能源的高效转化成为两相厌氧研究的关键问题。总结了近年来两相厌氧技术研究和应用的最新成果，介绍了两相厌氧基质利用的运行情况、相分离的优势及两相中的优势菌种。同时，就氢/甲烷两相厌氧发酵的前景提出了建议。

关键词: 两相厌氧, 生物能源, 相分离, 优势菌种

CLC Number:

X703

Wei Bo, Liu Wenhui, Yuan Linjiang. Research advances in two-phase anaerobic fermentation for hydrogen and methane production[J]. INDUSTRIAL WATER TREATMENT, 2014, 34(8): 10-13.

魏勃, 刘文辉, 袁林江. 产氢产甲烷两相厌氧发酵的研究进展[J]. 工业水处理, 2014, 34(8): 10-13.

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https://www.iwt.cn/EN/Y2014/V34/I8/10

References

[1] Cantrell K B,Ducey T,Ro K S,et al. Livestock waste-to-bioenergy generation opportunities[J]. Bioresource Technology,2008,99(17):7941-7953.
[2] Ueno Y,Tatara M,Fukui H,et al. Production of hydrogen and methane from organic solid wastes by phase-separation of anaerobic pro-cess[J]. Bioresource Technology,2007,98(9):1861-1865.
[3] Pohland F G,Ghosh S. Developments in anaerobic stabilization of organic wastes:the two-phase concept[J]. Environmental Letters, 1971,1 (4):255-266.
[4] Azbar N,Speece R E. Two-phase,two-stage,and single-stage anaerobic process comparison[J]. Journal of Environmental Engineering, 2001,127(3):240-248.
[5] Cavinato C,Bolzonella D,Fatone F,et al. Optimization of two-phase thermophilic anaerobic digestion of biowaste for hydrogen and methane production through reject water recirculation[J]. Bioresource Technology,2011,102(18):8605-8611.
[6] Cheng S S,Chao Y C,Yang K H,et al. Process recovery of biohydrogenation in a pilot plant from methanogens invasion[J]. International Journal of Hydrogen Energy,2011,36(14):8779-8784.
[7] Siddiqui Z,Horan N J,Salter M. Energy optimisation from co-digested waste using a two-phase process to generate hydrogen and methane[J]. International Journal of Hydrogen Energy,2011,36(8):4792-4799.
[8] Elbeshbishy E,Nakhla G. Comparative study of the effect of ultrasonication on the anaerobic biodegradability of food waste in single and two-stage systems[J]. Bioresource Technology,2011,102 (11):6449-6457.
[9] Han S K,Shin H S. Performance of an innovative two-stage process converting food waste to hydrogen and methane[J]. Journal of the Air and Waste Management Association,2004,54(2):242-249.
[10] Lee D Y,Ebie Y,Xu Kaiqin,et al. Continuous H₂ and CH₄ production from high-solid food waste in the two-stage thermophilic fermentation process with the recirculation of digester sludge[J]. Bioresource Technology,2010,101:S42-S47.
[11] Chu Chunfeng,Li Yuyou, Xu Kaiqin,et al. A pH-and tempera-ture-phased two-stage process for hydrogen and methane production from food waste[J]. International Journal of Hydrogen Energy, 2008,33(18):4739-4746.
[12] Koutrouli E C,Kalfas H,Gavala H N,et al. Hydrogen and methane production through two-stage mesophilic anaerobic digestion of olive pulp[J]. Bioresource Technology,2009,100(15):3718-3723.
[13] Luo Gang, Xie Li, Zou Zhonghai,et al. Anaerobic treatment of cassava stillage for hydrogen and methane production in continuously stirred tank reactor (CSTR) under high organic loading rate (OLR)[J]. International Journal of Hydrogen Energy,2010,35(21):11733-11737.
[14] Gavala H N, Skiadas I V, Ahring B K,et al. Potential for biohydrogen and methane production from olive pulp[J]. Water Science and Technology,2005,52(1/2):209-215.
[15] Kongjan P,O-Thong S,Angelidaki I. Performance and microbial community analysis of two-stage process with extreme thermophilic hydrogen and thermophilic methane production from hydrolysate in UASB reactors[J]. Bioresource Technology,2011,102 (5):4028-4035.
[16] Hafez H,Nakhla G,Naggar H E,et al. An integrated system for hydrogen and methane production during landfill leachate treat-ment[J]. International Journal of Hydrogen Energy,2010,35(10):5010-5014.
[17] Fezzani B,Cheikh R B. Two-phase anaerobic co-digestion of olive mill wastes in semi-continuous digesters at mesophilic temperatu-re[J]. Bioresource Technology,2010,101(6):1628-1634.
[18] Jan T W,Adav S S,Lee D J,et al. Hydrogen fermentation andmethane production from sludge with pretreatments[J]. Energy and Fuels,2008,22(1):98-102.
[19] Giordano A,Cantù C,Spagni A.Monitoring the biochemical hydrogen and methane potential of the two-stage dark-fermentative pro-cess[J]. Bioresource Technology,2011,102(6):4474-4479.
[20] Pakarinen O M,Kaparaju P L N,Rintala J A. Hydrogen and methane yields of untreated, water-extracted and acid(HCl) treated maize in one-and two-stage batch assays[J]. International Journal of Hydrogen Energy,2011,36(22):14401-14407.
[21] Viñas M,Martínez J,Baselli B. Advantages of an anaerobic reactor for TMP wastewater with separated acidogenic and methanogenic stages[J]. Environmental Technology,1993,14(10):995-1000.
[22] Park Y J,Hong F,Cheon J H,et al. Comparison of thermophilic anaerobic digestion characteristics between single-phase and two-phase systems for kitchen garbage treatment[J]. Journal of Bioscience and Bioengineering,2008,105(1):48-54.
[23] Shimada T,Morgenroth E,Tandukar M,et al. Syntrophic acetate oxidation in two-phase(acid-methane) anaerobic digesters[J]. Water Science and Technology,2011,64(9):1812-1820.
[24] Park M J,Jo J H,Park D H,et al. Comprehensive study on a two-stage anaerobic digestion process for the sequential production of hydrogen and methane from cost-effective molasses[J]. Interna-tional Journal of Hydrogen Energy,2010,35(12):6194-6202.

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产氢产甲烷两相厌氧发酵的研究进展

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Research advances in two-phase anaerobic fermentation for hydrogen and methane production

产氢产甲烷两相厌氧发酵的研究进展

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