污泥与餐厨垃圾联合厌氧技术的研究及应用
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摘要
对国内外城市污水污泥与餐厨垃圾混合厌氧消化的研究进行了综述,介绍了厌氧消化技术在以上两种废弃物处理处置中的不足,提出了污水污泥与餐厨垃圾联合厌氧消化的可行性,分析了该技术的研究及应用现状,并对未来的研究热点及方向进行了展望。
This paper summarizes the research in co-anaerobic digestion of the municipal sewage, sludge and kitchen wastes abroad and at home. The paper introduces the disadvantages of the anaerobic digestion process for the treatment and disposal of sewage, sludge and kitchen wastes respectively and puts forward the feasibility of co-anaerobic digestion of sewage, sludge and kitchen wastes, analyzes the research and application status of the technology and makes a prospect on the future research hotspot and direction.
This paper summarizes the research in co-anaerobic digestion of the municipal sewage, sludge and kitchen wastes abroad and at home. The paper introduces the disadvantages of the anaerobic digestion process for the treatment and disposal of sewage, sludge and kitchen wastes respectively and puts forward the feasibility of co-anaerobic digestion of sewage, sludge and kitchen wastes, analyzes the research and application status of the technology and makes a prospect on the future research hotspot and direction.
引文
[1] E20研究院.中国污泥处理处置市场分析报告(2017年版)[R]. 2017.
[2]前瞻产业研究院.2017-2022年中国生活垃圾处理行业发展前景与投资预测分析报告[R].
[3]丛利泽.餐厨垃圾的微生物处理与资源化的初步研究[D].厦门大学硕士学位论文,2007.
[4]付胜涛,于水利,严晓菊,等.剩余活性污泥和厨余垃圾的混合中温厌氧消化[J].环境科学,2006,27(7):1459-1463.
[5]付胜涛,于水利,严晓菊.初沉污泥和厨余垃圾的混合中温厌氧消化[J].给水排水,2006,32(1):24-28.
[6]高瑞丽,严群,阮文权.添加厨余垃圾对剩余污泥厌氧消化产沼气过程的影响[J].生物加工过程,2008,6(5):31-35.
[7]赵云飞,刘晓玲,李十中.餐厨垃圾与污泥高固体联合厌氧产沼气的特性[J].农业工程学报,2011,27(10):255-260.
[8] Beno Z, Boran J, Houdkova L,etal. Co-fermentation of kitchen waste with sewage sludge[C].Rome:Chemical Engineering Transactions,2009.
[9]段妮娜,董滨,李江华,等.污泥和餐厨垃圾联合干法中温厌氧消化性能研究[J].环境科学,2013,34(1).
[10] NamHyoHeo,Soon Chul Park,Jin Suk Lee.Single-stage anaerobic co-digestion for mixture wastes of simulated Korean food waste and waste activateds ludge[J].Applied Biochemistry and Biotechnology,2003,105/108:567-579.
[11]李靖,李学尧.接种比例对餐厨垃圾高固体浓度厌氧发酵的影响[J].环境科学与管理,2012,37(11):131-135.
[12] Fu S T, Yu S L, Fu Y, etal. Mesophilic co-digestion kitchen rubbish[C].Beijing:Proceedings of 2006 Beijing International Environmental Technology Conference,2006.
[13] Oleszkiewicz J A,Poggi Varaldo H M.High solids anaerobic digestion of mixed municipal and industrial waste[J].Journal of Environmental Engineering Asce,1997,123(11):1087-1092.
[14] Yadvika,Santosh.Enhancement of biogas production from solid substrates using different techniques-are view[J].Biores Technol,2004,95(1):1-10.
[15]彭绪亚,王暾.高盐分餐厨垃圾湿式单级厌氧消化的试验研究[J].山西建筑,2008,34(26):332-333.
[16] Delia,Teresa,Sponza,etal.Impact of leachate recirculation and recirculation volume on stabilization of municipal solid wastes in simulated anaerobic bioreactors[J].Process Biochemistry,2004,39:2157-2165.
[17]王星,王德汉,张立帅.消化液回流比与有机负荷率对餐厨垃圾厌氧消化的影响[J].环境污染与防治,2006,28(10):748-752.
[18]李勇,顾广发,刘松华,等.餐厨垃圾与污泥共发酵脱氮技术的研究[J].可再生能源,2011,29(6):98-101.
[19] Wang C C.Sequential production of hydrogen and methane from waste water sludge using anaerobic fermentation[J].Journal of Chinese Institute of Chemical Engineers,2003,34(6):683-687.
[2]前瞻产业研究院.2017-2022年中国生活垃圾处理行业发展前景与投资预测分析报告[R].
[3]丛利泽.餐厨垃圾的微生物处理与资源化的初步研究[D].厦门大学硕士学位论文,2007.
[4]付胜涛,于水利,严晓菊,等.剩余活性污泥和厨余垃圾的混合中温厌氧消化[J].环境科学,2006,27(7):1459-1463.
[5]付胜涛,于水利,严晓菊.初沉污泥和厨余垃圾的混合中温厌氧消化[J].给水排水,2006,32(1):24-28.
[6]高瑞丽,严群,阮文权.添加厨余垃圾对剩余污泥厌氧消化产沼气过程的影响[J].生物加工过程,2008,6(5):31-35.
[7]赵云飞,刘晓玲,李十中.餐厨垃圾与污泥高固体联合厌氧产沼气的特性[J].农业工程学报,2011,27(10):255-260.
[8] Beno Z, Boran J, Houdkova L,etal. Co-fermentation of kitchen waste with sewage sludge[C].Rome:Chemical Engineering Transactions,2009.
[9]段妮娜,董滨,李江华,等.污泥和餐厨垃圾联合干法中温厌氧消化性能研究[J].环境科学,2013,34(1).
[10] NamHyoHeo,Soon Chul Park,Jin Suk Lee.Single-stage anaerobic co-digestion for mixture wastes of simulated Korean food waste and waste activateds ludge[J].Applied Biochemistry and Biotechnology,2003,105/108:567-579.
[11]李靖,李学尧.接种比例对餐厨垃圾高固体浓度厌氧发酵的影响[J].环境科学与管理,2012,37(11):131-135.
[12] Fu S T, Yu S L, Fu Y, etal. Mesophilic co-digestion kitchen rubbish[C].Beijing:Proceedings of 2006 Beijing International Environmental Technology Conference,2006.
[13] Oleszkiewicz J A,Poggi Varaldo H M.High solids anaerobic digestion of mixed municipal and industrial waste[J].Journal of Environmental Engineering Asce,1997,123(11):1087-1092.
[14] Yadvika,Santosh.Enhancement of biogas production from solid substrates using different techniques-are view[J].Biores Technol,2004,95(1):1-10.
[15]彭绪亚,王暾.高盐分餐厨垃圾湿式单级厌氧消化的试验研究[J].山西建筑,2008,34(26):332-333.
[16] Delia,Teresa,Sponza,etal.Impact of leachate recirculation and recirculation volume on stabilization of municipal solid wastes in simulated anaerobic bioreactors[J].Process Biochemistry,2004,39:2157-2165.
[17]王星,王德汉,张立帅.消化液回流比与有机负荷率对餐厨垃圾厌氧消化的影响[J].环境污染与防治,2006,28(10):748-752.
[18]李勇,顾广发,刘松华,等.餐厨垃圾与污泥共发酵脱氮技术的研究[J].可再生能源,2011,29(6):98-101.
[19] Wang C C.Sequential production of hydrogen and methane from waste water sludge using anaerobic fermentation[J].Journal of Chinese Institute of Chemical Engineers,2003,34(6):683-687.