微量金属在餐厨垃圾厌氧消化中的应用研究
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摘要
阐述了微量金属元素在餐厨垃圾厌氧消化过程中的重要作用,以及产甲烷菌对微量金属元素的需求量。总结了微量金属元素单独、联合投加对餐厨垃圾厌氧消化的影响,分析了微量金属形态的变化及螯合剂对生物利用度的研究进展,并归纳了该领域未来的研究方向。
The important roles of trace metal elements in the anaerobic digestion process of kitchen wastes are described in this paper.The demand of methanogens for trace metal elements is emphatically elaborated.Effects of single dosing and combined dosing of trace metal elements on the anaerobic digestion of kitchen waste are summarized,and the changes of trace metal speciation and the research progress of chelating agents on their bioavailability are also analyzed.Future research directions in this field are summarized.
The important roles of trace metal elements in the anaerobic digestion process of kitchen wastes are described in this paper.The demand of methanogens for trace metal elements is emphatically elaborated.Effects of single dosing and combined dosing of trace metal elements on the anaerobic digestion of kitchen waste are summarized,and the changes of trace metal speciation and the research progress of chelating agents on their bioavailability are also analyzed.Future research directions in this field are summarized.
引文
[1]郝晓地,周鹏,曹达啓.餐厨垃圾处置方式及其碳排放分析[J].环境工程学报,2017,11(2):673-682.
[2]Jiang J,Li L,Cui M,et al.Anaerobic digestion of kitchen waste:The effects of source,concentration,and temperature[J].Biochem Eng J,2018,135:91-97.
[3]Karimi S,Karimi K.Efficient ethanol production from kitchen and garden wastes and biogas from the residues[J].J Clean Prod,2018,187:37-45.
[4]王粟,史风梅,裴占江,等.微量金属元素对中低温厌氧消化工艺的影响[J].安徽农业科学,2017,45(3):49-51.
[5]Zhang W,Wu S,Guo J,et al.Performance and kinetic evaluation of semi-continuously fed anaerobic digesters treating food waste:Role of trace elements[J].Bioresource Technol,2015,178,297-305.
[6]裴占江,刘杰,王粟,等.微量金属元素对餐厨垃圾与牛粪联合厌氧消化效率影响[J].可再生能源,2015,33(3):462-467.
[7]Cao W,Wang M,Liu M,et al.The chemical and dynamic distribution characteristics of iron,cobalt and nickel in three different anaerobic digestates:Effect of pH and trace elements dosage[J].Bioresource Technol,2018,269:363-374.
[8]Pham M T,Balachandran K,Zhou Y,et al.Trace metal speciation and bioavailability in anaerobic digestion:A review[J].Biotechnol Adv,2016,34(2):122-136.
[9]Zhang W,Zhang L,Li A.Enhanced anaerobic digestion of food waste by trace metal elements supplementation and reduced metals dosage by green chelating agent[S,S]-EDDS via improving metals bioavailability[J].Water Res,2015,84:266-277.
[10]El-Sayed S,Shouvik S,Mayur B K,et al.Recent trends in anaerobic co-digestion:Fat,oil,and grease(FOG)for enhanced biomethanation[J].Prog Energ Combust,2019,70:22-42.
[11]王冰洁,王金辉,黄怡然,等.餐厨垃圾固相物料的中温厌氧消化中试研究[J].中国给水排水,2018,34(1):94-98.
[12]Vintiloiu A,Boxriker M,Lemmer A,et al.Effect of ethylenediaminetetraacetic acid(EDTA)on the bioavailability of trace elements during anaerobic digestion[J].Chem Eng J,2013,223:436-441.
[13]Park C M,Novak J T.The effect of direct addition of iron(Ⅲ)on anaerobic digestion efficiency and odor causing compounds[J].Water Sci Technol,2013,68:2391-2396.
[14]Banks C J,Zhang Y,Jiang Y,et al.Trace element requirements for stable food waste digestion at elevated ammonia concentrations[J].Bioresource Technol,2012,104:127-135.
[15]Worm P,Fermoso F G,Lens P N L,et al.Decreased activity of a propionate degrading community in a UASB reactor fed with synthetic medium without molybdenum,tungsten and selenium[J].Enzym Microb Technol,2009,45:139-145.
[16]Takashima M,Shimada K,Speece R E.Minimum requirements for trace metals(iron,nickel,cobalt,and zinc)in thermophilic and mesophilic methane fermentation from glucose[J].Water Environ Res,2011,83:339-346.
[17]魏桃员,温海东,成家杨.零价铁驯化污泥对餐厨垃圾厌氧消化产甲烷的影响[J].湖北农业科学,2016,55(14):3618-3621.
[18]高雪濛,周丽丽,秦杰,等.氧化铁投加方式对餐厨垃圾厌氧消化产气的影响[J].环境工程,2017,35(4):101-105.
[19]宋珍霞,唐海,徐大勇,等.微量Co对餐厨垃圾厌氧消化的影响研究[J].安全与环境学报,2014,14(1):164-167.
[20]赵阳,李秀芬,堵国成,等.微量金属元素及其配合物对厨余垃圾甲烷发酵的影响[J].环境工程学报,2009,3(3):521-524.
[21]李亚红,王琦,蔡伟明.不同pH值条件下Fe3+、Cu2+和Zn2+对厨余垃圾两相厌氧消化水解酸化过程的影响[J].环境工程学报,2007,1(10):116-119.
[22]张庆芳,张婷婷,陈吉祥,等.投加四种微量元素对餐厨垃圾和剩余污泥联合厌氧消化的影响[J].兰州理工大学学报,2017,43(4):77-81.
[23]Facchin V,Cavinato C,Pavan P,et al.Batch and continuous mesophilic anaerobic digestion of food waste:Effect of trace elements supplementation[J].Chem Eng Trans,2013,32:457-462.
[24]王永会,赵明星,阮文权.餐厨垃圾与剩余污泥混合消化产沼气协同效应[J].环境工程学报,2014,6(8):2536-2542.
[25]Zhang L,Lee Y W,Jahng D.Anaerobic co-digestion of food waste and piggery wastewater:Focusing on the role of trace elements[J].Bioresource Technol,2011,102(8):5048-5059.
[26]Choong Y Y,Norli I,Abdullah A Z,et al.Impacts of trace element supplementation on the performance of anaerobic digestion process:A critical review[J].Bioresource Technol,2016,209:369-379.
[27]胡庆昊,李秀芬,陈坚,等.厌氧消化过程中镍及其螯合物的生物可利用性研究[J].环境科学,2011,32(2):515-519.
[28]Gonzalez-Gil G,Lopes S I C,Saikaly P E,et al.Leaching and accumulation of trace elements in sulfate reducing granular sludge under concomitant thermophilic and low pH conditions[J].Bioresource Technol,2012,126:238-246.
[29]Patidar S K,Tare V.Soluble microbial products formation and their effect on trace metal availability during anaerobic degradation of sulfate laden organics[J].Water Sci Technol,2008,58(4):749-755.
[30]Liu Y,Chang S,Defersha F M.Characterization of the proton binding sites of extracellular polymeric substances in an anaerobic membrane bioreactor[J].Water Res,2015,78:133-143.
[2]Jiang J,Li L,Cui M,et al.Anaerobic digestion of kitchen waste:The effects of source,concentration,and temperature[J].Biochem Eng J,2018,135:91-97.
[3]Karimi S,Karimi K.Efficient ethanol production from kitchen and garden wastes and biogas from the residues[J].J Clean Prod,2018,187:37-45.
[4]王粟,史风梅,裴占江,等.微量金属元素对中低温厌氧消化工艺的影响[J].安徽农业科学,2017,45(3):49-51.
[5]Zhang W,Wu S,Guo J,et al.Performance and kinetic evaluation of semi-continuously fed anaerobic digesters treating food waste:Role of trace elements[J].Bioresource Technol,2015,178,297-305.
[6]裴占江,刘杰,王粟,等.微量金属元素对餐厨垃圾与牛粪联合厌氧消化效率影响[J].可再生能源,2015,33(3):462-467.
[7]Cao W,Wang M,Liu M,et al.The chemical and dynamic distribution characteristics of iron,cobalt and nickel in three different anaerobic digestates:Effect of pH and trace elements dosage[J].Bioresource Technol,2018,269:363-374.
[8]Pham M T,Balachandran K,Zhou Y,et al.Trace metal speciation and bioavailability in anaerobic digestion:A review[J].Biotechnol Adv,2016,34(2):122-136.
[9]Zhang W,Zhang L,Li A.Enhanced anaerobic digestion of food waste by trace metal elements supplementation and reduced metals dosage by green chelating agent[S,S]-EDDS via improving metals bioavailability[J].Water Res,2015,84:266-277.
[10]El-Sayed S,Shouvik S,Mayur B K,et al.Recent trends in anaerobic co-digestion:Fat,oil,and grease(FOG)for enhanced biomethanation[J].Prog Energ Combust,2019,70:22-42.
[11]王冰洁,王金辉,黄怡然,等.餐厨垃圾固相物料的中温厌氧消化中试研究[J].中国给水排水,2018,34(1):94-98.
[12]Vintiloiu A,Boxriker M,Lemmer A,et al.Effect of ethylenediaminetetraacetic acid(EDTA)on the bioavailability of trace elements during anaerobic digestion[J].Chem Eng J,2013,223:436-441.
[13]Park C M,Novak J T.The effect of direct addition of iron(Ⅲ)on anaerobic digestion efficiency and odor causing compounds[J].Water Sci Technol,2013,68:2391-2396.
[14]Banks C J,Zhang Y,Jiang Y,et al.Trace element requirements for stable food waste digestion at elevated ammonia concentrations[J].Bioresource Technol,2012,104:127-135.
[15]Worm P,Fermoso F G,Lens P N L,et al.Decreased activity of a propionate degrading community in a UASB reactor fed with synthetic medium without molybdenum,tungsten and selenium[J].Enzym Microb Technol,2009,45:139-145.
[16]Takashima M,Shimada K,Speece R E.Minimum requirements for trace metals(iron,nickel,cobalt,and zinc)in thermophilic and mesophilic methane fermentation from glucose[J].Water Environ Res,2011,83:339-346.
[17]魏桃员,温海东,成家杨.零价铁驯化污泥对餐厨垃圾厌氧消化产甲烷的影响[J].湖北农业科学,2016,55(14):3618-3621.
[18]高雪濛,周丽丽,秦杰,等.氧化铁投加方式对餐厨垃圾厌氧消化产气的影响[J].环境工程,2017,35(4):101-105.
[19]宋珍霞,唐海,徐大勇,等.微量Co对餐厨垃圾厌氧消化的影响研究[J].安全与环境学报,2014,14(1):164-167.
[20]赵阳,李秀芬,堵国成,等.微量金属元素及其配合物对厨余垃圾甲烷发酵的影响[J].环境工程学报,2009,3(3):521-524.
[21]李亚红,王琦,蔡伟明.不同pH值条件下Fe3+、Cu2+和Zn2+对厨余垃圾两相厌氧消化水解酸化过程的影响[J].环境工程学报,2007,1(10):116-119.
[22]张庆芳,张婷婷,陈吉祥,等.投加四种微量元素对餐厨垃圾和剩余污泥联合厌氧消化的影响[J].兰州理工大学学报,2017,43(4):77-81.
[23]Facchin V,Cavinato C,Pavan P,et al.Batch and continuous mesophilic anaerobic digestion of food waste:Effect of trace elements supplementation[J].Chem Eng Trans,2013,32:457-462.
[24]王永会,赵明星,阮文权.餐厨垃圾与剩余污泥混合消化产沼气协同效应[J].环境工程学报,2014,6(8):2536-2542.
[25]Zhang L,Lee Y W,Jahng D.Anaerobic co-digestion of food waste and piggery wastewater:Focusing on the role of trace elements[J].Bioresource Technol,2011,102(8):5048-5059.
[26]Choong Y Y,Norli I,Abdullah A Z,et al.Impacts of trace element supplementation on the performance of anaerobic digestion process:A critical review[J].Bioresource Technol,2016,209:369-379.
[27]胡庆昊,李秀芬,陈坚,等.厌氧消化过程中镍及其螯合物的生物可利用性研究[J].环境科学,2011,32(2):515-519.
[28]Gonzalez-Gil G,Lopes S I C,Saikaly P E,et al.Leaching and accumulation of trace elements in sulfate reducing granular sludge under concomitant thermophilic and low pH conditions[J].Bioresource Technol,2012,126:238-246.
[29]Patidar S K,Tare V.Soluble microbial products formation and their effect on trace metal availability during anaerobic degradation of sulfate laden organics[J].Water Sci Technol,2008,58(4):749-755.
[30]Liu Y,Chang S,Defersha F M.Characterization of the proton binding sites of extracellular polymeric substances in an anaerobic membrane bioreactor[J].Water Res,2015,78:133-143.
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