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不同来源底物对厌氧发酵产氢余物产甲烷影响

周雨绮 曹麒 许俊超 刘常青 卓桂华 陈建勇 郑育毅

周雨绮, 曹麒, 许俊超, 刘常青, 卓桂华, 陈建勇, 郑育毅. 不同来源底物对厌氧发酵产氢余物产甲烷影响[J]. 环境工程, 2021, 39(9): 123-130. doi: 10.13205/j.hjgc.202109018
引用本文: 周雨绮, 曹麒, 许俊超, 刘常青, 卓桂华, 陈建勇, 郑育毅. 不同来源底物对厌氧发酵产氢余物产甲烷影响[J]. 环境工程, 2021, 39(9): 123-130. doi: 10.13205/j.hjgc.202109018
ZHOU Yu-qi, CAO Qi, XU Jun-chao, LIU Chang-qing, ZHUO Gui-hua, CHEN Jian-yong, ZHENG Yu-yi. INFLUENCE OF DIFFERENT SOURCE SUBSTRATE SYSTEMS ON METHANOGENESIS OF RESIDUE FROM ANAEROBIC FERMENTATIVE HYDROGEN PRODUCTION USING COMBINED SLUDGE AND FOOD WASTE[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(9): 123-130. doi: 10.13205/j.hjgc.202109018
Citation: ZHOU Yu-qi, CAO Qi, XU Jun-chao, LIU Chang-qing, ZHUO Gui-hua, CHEN Jian-yong, ZHENG Yu-yi. INFLUENCE OF DIFFERENT SOURCE SUBSTRATE SYSTEMS ON METHANOGENESIS OF RESIDUE FROM ANAEROBIC FERMENTATIVE HYDROGEN PRODUCTION USING COMBINED SLUDGE AND FOOD WASTE[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(9): 123-130. doi: 10.13205/j.hjgc.202109018

不同来源底物对厌氧发酵产氢余物产甲烷影响

doi: 10.13205/j.hjgc.202109018
基金项目: 

福建省科技厅公益类项目(2019R1015-1);福建省科技厅计划项目(2020N5015)。

详细信息
    作者简介:

    周雨绮(1997-),女,研究生在读,主要研究方向为环境管理、固体废物处理与资源化。924730750@qq.com

    通讯作者:

    刘常青(1970-),女,博士,副教授,主要研究方向为固体废物处理与资源化。mylcq@126.com

INFLUENCE OF DIFFERENT SOURCE SUBSTRATE SYSTEMS ON METHANOGENESIS OF RESIDUE FROM ANAEROBIC FERMENTATIVE HYDROGEN PRODUCTION USING COMBINED SLUDGE AND FOOD WASTE

  • 摘要: 通过批式试验将不同来源的污泥与餐厨垃圾进行联合厌氧发酵,研究不同产氢程度的污泥-餐厨垃圾在不同污泥接种量下的产甲烷能力,以寻求产氢余物产沼的最佳条件及有机质转化规律。结果表明:污泥-餐厨垃圾产氢余物的产氢程度与体系产甲烷能力呈正相关,即产氢多余物>产氢少余物>不产氢底物;接种量增大后,体系产甲烷效能降低且各体系间的差异逐渐缩小。30%接种量下的产氢多余物体系产甲烷能力最佳,平均产甲烷速率为0.54 mL/(g·;d),在第27天甲烷占比达到峰值87.04%,有最大累积产甲烷量1659 mL;主要原因是该体系挥发酸降解量大(17565 mg COD/L),占TCOD降解量(35384 mg/L)的50%。
  • [1] ZHANG J X,LI W L,LEE Jonathan,et al.Enhancement of biogas production in anaerobic co-digestion of food waste and waste activated sludge by biological co-pretreatment[J].Energy,2017,137(10):479-486.
    [2] KAI F,HUAN L,ZHOU D,et al.Effect of pre-fermentation types on the potential of methane production and energy recovery from food waste[J].Renewable Energy,2020,146(2):1588-1595.
    [3] SILVA F M S,MAHLER C F,OLIVEIRA L B,et al.Hydrogen and methane production in a two-stage anaerobic digestion system by co-digestion of food waste,sewage sludge and glycerol[J].Waste Management,2018,76(6):339-349.
    [4] LINDNER J,ZIELONKA S,OECHSNER H,et al.Is the continuous two-stage anaerobic digestion process well suited for all substrates?[J].Bioresource Technology,2016,200(2):470-476.
    [5] RAWOOF S A A,SENTHIL K P,VO D V N,et al.Sequential production of hydrogen and methane by anaerobic digestion of organic wastes:a review[J].Environmental Chemistry Letters,2021,19(2):1043-1063.
    [6] XIE S H,WICKHAM R,NGHIEM L D.Synergistic effect from anaerobic co-digestion of sewage sludge and organic wastes[J].International Biodeterioration & Biodegradation,2017,116(1):191-197.
    [7] XIE S H,HAI F I,ZHAN X M,et al.Anaerobic co-digestion:a critical review of mathematical modelling for performance optimization[J].Bioresource Technology,2016,222:498-512.
    [8] CHIU S L H,LO I M C.Reviewing the anaerobic digestion and co-digestion process of food waste from the perspectives on biogas production performance and environmental impacts[J].Environmental Science and Pollution Research,2016,23(24):24435-24450.
    [9] BALDI F,PECORINI I,IANNELLI R.Comparison of single-stage and two-stage anaerobic co-digestion of food waste and activated sludge for hydrogen and methane production[J].Renewable Energy,2019,143(12):1755-1765.
    [10] CHEN Y G,LIU H,ZHENG X,et al.New method for enhancement of bioenergy production from municipal organic wastes via regulation of anaerobic fermentation process[J].Applied Energy,2017,196(6):190-198.
    [11] LI Z P,CHEN Z,YE H,et al.Anaerobic co-digestion of sewage sludge and food waste for hydrogen and VFA production with microbial community analysis[J].Waste Management,2018,78(8):789-799.
    [12] WANG G J,LI Q,CHAOSUI Y W,et al.Biochar triggers methanogenesis recovery of a severely acidified anaerobic digestion system via hydrogen-based syntrophic pathway inhibition[J].International Journal of Hydrogen Energy,2021,46(15):9666-9677.
    [13] LI Y,CHEN Y G,WU J.Enhancement of methane production in anaerobic digestion process:a review[J].Applied Energy,2019,240(4):120-137.
    [14] 蒋金和,尹芳,王昌梅.两相厌氧消化产氢产甲烷研究进展[J].环保科技,2019,25(5):46-55.
    [15] HAGOS K,ZONG J P,LI D X,et al.Anaerobic co-digestion process for biogas production:progress,challenges and perspectives[J].Renewable and Sustainable Energy Reviews,2017,76(9):1485-1496.
    [16] MUSTAFA A M,CHEN X,LIN H J,et al.Effect of ammonia concentration on hythane (H2 and CH4) production in two-phase anaerobic digestion[J].International Journal of Hydrogen Energy,2019,44(50):27297-27310.
    [17] SRISOWMEYA G,CHAKRAVARTHY M,NANDHINI DEVI G.Critical considerations in two-stage anaerobic digestion of food waste:a review[J].Renewable and Sustainable Energy Reviews,2020,119:10958.
    [18] RAFIEENIA R,GIROTTO F,PENG W,et al.Effect of aerobic pre-treatment on hydrogen and methane production in a two-stage anaerobic digestion process using food waste with different compositions[J].Waste Management,2017,59(2):194-199.
    [19] 陈建勇.污泥-餐厨垃圾联合厌氧发酵产氢余物产甲烷研究[D].福州:福建师范大学,2012.
    [20] 何美龙.基于基质调理提升污泥厌氧消化产甲烷效能研究[D].福州:福建师范大学,2018.
    [21] LOGAN B E,OH S E,KIM I S,et al.Biological hydrogen production measured in batch anaerobic respirometers[J].Environmental Science & Technology,2002,36(11):2530-2535.
    [22] 中华人民共和国建设部.CJ/T 221-2005城市污水处理厂污泥检验方法[S].
    [23] KAYHANIAN M.Ammonia inhibition in high-solids biogasification:an overview and practical solutions[J].Environmental Technology Letters,1999,20(4):355-365.
    [24] MASUKO T,MINAMI A,IWASAKI N,et al.Carbohydrate analysis by a phenol-sulfuric acid method in microplate format[J].Analytical biochemistry,2005,339(1):69-72.
    [25] LI Y Y,JIN Y Y,LI J H,et al.Effects of thermal pretreatment on the biomethane yield and hydrolysis rate of kitchen waste[J].Applied Energy,2016,172(6):47-58.
    [26] PAN Y,ZHI Z X,ZHEN G Y,et al.Synergistic effect and biodegradation kinetics of sewage sludge and food waste mesophilic anaerobic co-digestion and the underlying stimulation mechanisms[J].Fuel,2019,253(10):40-49.
    [27] LIU C Y,LI H,ZHANG Y Y,et al.Improve biogas production from low-organic-content sludge through high-solids anaerobic co-digestion with food waste[J].Bioresource Technology,2016,219(22):252-260.
    [28] 杨玉婷,周俊,张雪英,等.接种量及秸秆加入量对城市污泥厌氧发酵产气特性的影响[J].生物加工过程,2015,13(2):13-18.
    [29] 蒲贵兵,王胜军,孙可伟.接种量对泔脚发酵产氢余物甲烷化的强化研究[J].中山大学学报(自然科学版),2009,48(1):87-92,97.
    [30] LIU J W,ZHAO M F,CHEN L,et al.The effect of microwave pretreatment on anaerobic co-digestion of sludge and food waste:performance,kinetics and energy recovery[J].Environmental Research,2020,189(20):109856.
    [31] LUO J Y,CHEN Y G,FENG L Y.Polycyclic aromatic hydrocarbon affects acetic acid production during anaerobic fermentation of waste activated sludge by altering activity and viability of acetogen[J].Environmental Science & Technology,2016,50(13):6921-6929.
    [32] PAUDEL S,KANG Y J,YOOC Y S,et al.Effect of volumetric organic loading rate (OLR) on H2 and CH4 production by two-stage anaerobic co-digestion of food waste and brown water[J].Waste Management,2016,61(3):484-493.
    [33] CHEN X,YUAN H R,ZOU D X,et al.Improving biomethane yield by controlling fermentation type of acidogenic phase in two-phase anaerobic co-digestion of food waste and rice straw[J].Chemical Engineering Journal,2015,273(11):254-260.
    [34] WANG Q H,KUNINOBU M,OGAWA H I,et al.Degradation of volatile fatty acids in highly efficient anaerobic digestion[J].Biomass & Bioenergy,1999,16(6):407-416.
    [35] GIOANNIS G D,MUNTONI A,POLETTINI A,et al.Energy recovery from one- and two-stage anaerobic digestion of food waste[J].Waste Management,2017,68(10):595-602.
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出版历程
  • 收稿日期:  2021-04-04
  • 网络出版日期:  2022-01-21

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