ZHANG Lei,ZHANG Ji-shi.Approach on Enhancement of Biowastes Anaerobic Digestion[J].Research of Soil and Water Conservation,2007,14(03):101-104.
生物垃圾厌氧消化的强化机理探讨
- Title:
- Approach on Enhancement of Biowastes Anaerobic Digestion
- Keywords:
- biowastes; anaerobic digestion; enhancement mechanism
- 分类号:
- X705
- 摘要:
- 综合分析了生物垃圾厌氧消化的各种强化技术与机理.由于传统化石燃料的枯竭和造成的生态环境问题,清洁再生能源的生物气体日益受到人们的青睐.但是,消化时间长,产气量较低,垃圾利用率不高等原因,导致生物垃圾厌氧发酵技术没有得到充分的开发与推广.研究认为,通过强化处理能够改善生物垃圾的物化性质,提高微生物对难降解有机物的分解能力,增加生物气产量,缩短水力停留时间,减轻后续处理的负担,优化垃圾厌氧消化过程.
- Abstract:
- Biogas,a clean and renewable form of energy could very well substitute for conventional sources of energy(fossil fuels,oil,etc.) which are causing ecological-environmental problems and at the same time depleting at a faster rate.Despite its numerous advantages,the potential of biogas technology could not be fully harnessed or tapped as certain constraints are also associated with it.Most common among these are: the large hydraulic retention time,low gas production,etc.Therefore,efforts are needed to remove its various limitations so as to popularize this technology.Researchers have tried different techniques to optimize anaerobic process,enhance gas production,reduce hydraulic retention time(HRT) and release post-treatment.The authors review the various techniques,which could be used to enhance the gas production rate from biowastes.
参考文献/References:
[1] Piet Lens, Grietije Zeeman, Gatze Lettinga.Decentralized Sanitation and Reuse-Concepts, Systems and Implementation[M].London:IWA Press, 2001.
[2] 吕凡, 何品晶, 邵立明等.易腐性有机垃圾的产生与处理技术途径比较[J].环境污染治理技术与设备, 2003,(4)8:46-47.
[3] Paik, B C, Shin, H S, Han, S K, et al.Enhanced acid fermentation of food waste in the leaching bed[A].Proceedings of the second international symposium on anaerobic digestion of solid waste(ⅡISAD-SW)[C].June, Barcelona, Spain, 1999.
[4] 梁明昭.城市生活垃圾综合循环利用系统[J].重庆工业高等专科学校学报, 2002, 17(3):192-194.
[5] Geert Lissens, Anne Belinda Thomsen, Lucde Baere, et al.Thermal wet oxidation improves anaerobic biodegradability of raw and digested biowaste[J].Environmental Science & Technology, 2004, 38(12):3418-3424.
[6] De Baere, L.Anaerobic digestion of solid waste:state-the-art[J].Water Science and Technology, 2000, 41(3):283-290.
[7] Lissens, G, Vandevivere, P, De Baere, L, et al.Solid waste digestors:process performance and practice for municipal solid waste digestion[J].Water Science and Technology, 2001, 44(8):91-102.
[8] Van Lier, B, Tilche, A, Ahring, B.K, et al.New perspectives in anaerobic digestion[J].Water Science & Technology, 2001, 43(1):1-18.
[9] Liu, H W, Walter, H K, Vogt, G M, et al.Steam pressure disruption of municipal solid waste enhances anaerobic digestion:Kinetics and biogas yield[J].Biotechnol.Bioeng., 2002, 77(2):121-130.
[10] 张波, 张丽丽, 徐剑波, 等.城市生活垃圾的厌氧消化处理现状和研究进展[J].中国沼气, 2001, 21(4):17-21.
[11] Pavlostathis S G, Giraldo-Gomes E.Kinetics of anaerobic treatment.[J].Water Science, 1991, 24(8):35-59.
[12] Braber, K.Anaerobic digestion of municipal solid waste:a modern waste disposal option on verge of breakthrough[J].Biomass and Bioenergy, 1995, 9(1-5):365-376.
[13] Clarkson W W, Xiao W.Bench-scale anaerobic digestion bioconversion of newsprint and office paper[J].Water Science and Technology, 2000, 43(3):93-100.
[14] Angelidaki I, Ahring B K.Methods for increasing the biogas potential from the recalcitrant organic matter contained in manure[J].Water Science and Technology, 2000, 41(3):189-194.
[15] Palmowski L M, MÜller J A.Influence of the size reduction of organic waste on their anaerobic digestion[J].Water Science and Technology, 2000, 41(3):l55-162.
[16] Wang Huiqun, Masaaki Kuninobu, Hiroaki Qgawa, et al.Degradation of volatile fatty acids in highly efficient anaerobic digestion[J].Biomass and Bioenergy, 1999, 16:407-416.
[17] 张爱军, 陈洪章, 李佐虎.有机固体废物厌氧消化处理的研究现状与进展[J].环境科学研究, 2002, 15(5):52-54.
[18] Ghosh S, Henry M P, Sajjad A, et al.pilot-scale gasification of municipal solid waste by high-rate and two-phase anaerobic digestion(TPAD)[J].Water Science & Technology 2000, 41(3):101-110.
[19] Hiraoka, M, Takeda, N, Sakai, S, et al.Highly efficient anaerobic digestion with thermal pretreatment[J].Water Science & Technology, 1985, 17(4-5):529-539.
[20] Schmidt, A S, Thomsen, A B.Optimization of wet oxidization pretreatment of wheat straw[J].Bioresource Technology, 1998, 64:139-151.
[21] Weemaes M, Grootaerd H, Simoens F.Anaerobic digestion of ozonized biosolids[J].Water Resource, 2000, 34(8):2330-2336.
[22] Hasegawa S, Shiota N, Katsura K.Solubilization of organic sludge by thermophilic aerobic bacteria as a pretreatment for anaerobic digestion[J].Water Science & Technology, 2000, 41(3):163-169.
[23] Moreira M T, Torrado A, Feijoo G, et al.Managanes peroxidase production by Bjerkandera sp.BOS55[J].Bioprocess Engineering, 2000, 23(6):663-667.
[24] Moonil Kim.Comparative process stability and efficiency of mesophilic and thermophilic anaerobic digestion[D].Nashville, Tennessee:Vanderbilt University, 2001.150-180.
[25] Harikishan, S, Sung, S.Cattle waste treatment and Class A biosolid production using temperature-phased anaerobic digester[J].Advances in Environmental Research, 2003, 7:701-706.
[26] 吴满昌, 孙可伟, 李如燕, 等.不同反应温度的城市生活垃圾厌氧发酵研究[J].化学与生物工程, 2005,(9):28-30.
[27] 张记市, 张雷, 王华.城市有机生活垃圾厌氧发酵处理研究[J].生态环境, 2005, 14(3):321-324.
[28] Karim, K, Hoffmann, R, Klasson, T, et al.Anaerobic digestion of animal waste:effect of mode mixing[J].Water Research, 2005, 39:3597-3606.
[29] 陈振民.提高厌氧处理甲烷生成量方法的初步探讨[J].环境污染治理技术与设备, 2004, 5(5):43-47.
[30] Lopes, W S, Duarte, V, Prasad, L S.Influence of inoculum on performance of anaerobic reactors for treating municipal solid waste[J].Bioresource Technology, 2004, 94:261-266.
[31] 李俊涛, 钱小青, 赵由才.泔脚的厌氧消化处理可行性研究[J].上海环境科学, 2003, 22(9):646-648.
[32] 潘云霞, 李文哲.接种物浓度对厌氧发酵产气特性影响研究[J].农机化研究, 2004,(1):187-189.
[33] Speece R E.Anaerobic digestion of biomass[M].USA:Elsevier Applied Science Publish, 1987.109-128.
[34] 李亚新, 董春娟, 徐明德.厌氧消化过程Fe、Co、Ni对NH4+-N拮结作用[J].城市环境与城市生态, 2000, 13(4):11-12.
[35] 陈朝猛, 曾光明, 张碧波, 等.城市有机垃圾厌氧消化痕量激活剂的促进作用及产能研究[J].南华大学学报(理工版), 2004, 18(1):12-16.
[36] 王星, 王德汉, 徐菲, 等.矿物材料对餐厨垃圾厌氧消化的影响研究[J].环境科学学报, 2006, 26(2):256-261.
[37] Yadvike, Santosh T R, Sreekrishnan, et al.Enhancement of biogas production from solid substrates using different techniques-a review[J].Bioresource Technology, 2004, 95:1-10.
[38] 张记市, 孙可伟, 徐静.城市有机生活垃圾溶胞处理对其厌氧消化的影响机理[J].生态环境, 2006, 15(4):862-865.
备注/Memo
收稿日期:2006-5-23
基金项目:国家发展和改革委员会第八批国债专项资金项目(No.200548)
作者简介:张雷(1972- ),男,博士研究生,工程师,主要从事废物污染控制与资源化研究;