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2-CSTRs两相厌氧消化系统在不同乙醇回收率下的联合产能 被引量:2

Simultaneous biofuel production of 2-CSTRs anaerobic digestion system with different recovery rates of ethanol
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摘要 以2-CSTRs(连续流搅拌釜式反应器)两相厌氧消化系统的能量转化率为主要研究对象,以氢气、乙醇及甲烷为目标产物,在不同有机负荷下,通过控制反应参数使产氢相反应器内部环境呈现乙醇型发酵状态,并将产氢相出水经回收乙醇后作为产甲烷相反应基质,研究在不同乙醇回收率下2-CSTRs两相厌氧消化系统产能效率.结果表明:当乙醇回收率在0~50%范围内时,系统产能率、能量转化率及基质降解率随乙醇回收率的增加而增加.当乙醇回收率控制在50%时系统可获得最佳运行结果,与未回收乙醇时相比,系统的日产能率平均高约32.63%,能量转化率平均高约17.53%,基质降解率平均高约12.85%. With the energy conversion efficiency of 2-CSTRs (continuous stirred tank reactor) anaerobic digestion system as the study objectives, hydrogen, ethanol and methane as the target products, at different organic loading rates (OLRs), the ethanol-type fermentation was provided by controlling the available reaction parameters in hydrogen production phase, the treatment water of hydrogen production phase which was recovered ethanol served as the feed of methane production phase, and the energy conversion efficiency of the 2-CSTRs system were dug with different ethanol recovery rates (ERRs). The survey results indicated that energy conversion rate (eT), energy conversion yield (ev) and SDR essentially increased with increasing ERR of 0-50%. Compared with the regular anaerobic digestion system, CT, ev and SDR of the system with ethanol recovery have increased by 32.63 %, 17.53 % and 12.85%, respectively, with the ERR of 50%.
作者 万松 李永峰
机构地区 东北林业大学生态研究中心 东北林业大学林学院
出处 《中国环境科学》 EI CAS CSCD 北大核心 2015年第7期2027-2032,共6页 China Environmental Science
基金 黑龙江省自然科学基金(E201354)
关键词 连续流搅拌釜式反应器(CSTR) 两相厌氧消化系统 基质降解率 能量转化率 continuous stirred tank reactor two-phase anaerobic digestion system substrate degradation rate: energy conversion rate
分类号 X703.5 [环境科学与工程—环境工程]
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参考文献22

  • 1Rai Pankaj K, Singh S E etal. Biohydrogen production from eheese whey wastewater in a two-step anaerobic process [J]. Appl. Biochem, Biotechnol., 2012,167(6):1540-1549.
  • 2Jung K W, Kim D H, etal. Bioreaetor design for continuous dark fermentative hydrogen production [J]. Bioresour. Technol., 2011,102:8612-8620.
  • 3Lin C Y, Lay C H, etal. Fermentative hydrogen production from wastewaters: A review and prognosis [J]. Int. J. Hydrogen. Energy, 2012,37:32-42.
  • 4Pakarinen O, Kaparaju P, Rintala J. The effect of organic loading rate and retention time on hydrogen production from a methanogenic CSTR [J]. Bioresour. Technol., 2011,102:3-7.
  • 5Hwang M H, Jang N J, etal. Anaerobic biohydrogen production from ethanol fermentation: the role of pH [J]. Biotechnol., 2004, 111:297-309.
  • 6Ren N Q, Chua H, Chan S Y, etal. Assessing optimal fermentation type for bio-hydrogen production in continuous acidogenic reactors [J]. Biores, Technol., 2007,98:74-80.
  • 7郑国臣,李建政,昌盛,张照韩,官涤,金羽,郭静波,卢海凤.ABR发酵系统运行特性及产氢效能研究[J].中国环境科学,2013,33(1):75-81. 被引量:6
  • 8Han W, Wang B, Zhou Y, etal. Fermentative hydrogen production fi'om molasses wastewater in a continuous mixed immobilized sludge reactor [J]. Biores. Technol., 2012,110:219-223.
  • 9Luo G, Xie L, Zou Z H, etal. Anaerobic treatment of cassava stillage for hydrogenand methane production in continuously stirred tank reactor (CSTR) under high organic loading rate (OLR). Int J Hydrogen Energy, 2010,35:11733-11737.
  • 10Han W, Liu D N,Shi Y W, etal. Biohydrogen production from food waste hydrolysate using continuous mixed immobilized sludge reactors [J]. Bioresource Technology, 2015,180:54-58.

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中国环境科学
2015年 第7期

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