微量元素Ni添加在厌氧消化中的研究进展
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摘要
重点阐述Ni对底物降解、生物气产生、产甲烷菌和酶活性、及其解除挥发酸(VFAs)积累、对抗氨氮抑制等方面的作用。同时,总结了基质性质、温度、pH、投加方式、反应器构型等因素对Ni的投加量、形态及生物利用度的影响。
The important effects of Ni supplementation on substrate degradation,biogas production,methanogens and enzyme activities were elaborated.Simultaneously,the accumulation of volatile acids(VFAs),and ammonia nitrogen inhibition were relieved by Ni supplementation.In addiiton,the effects of substract characteristics,temperature,pH,dosing methods,and reactor configuration on Ni dosage,speciation,and bioavailability were also summerized.
The important effects of Ni supplementation on substrate degradation,biogas production,methanogens and enzyme activities were elaborated.Simultaneously,the accumulation of volatile acids(VFAs),and ammonia nitrogen inhibition were relieved by Ni supplementation.In addiiton,the effects of substract characteristics,temperature,pH,dosing methods,and reactor configuration on Ni dosage,speciation,and bioavailability were also summerized.
引文
[1]Evranos B,Demirel B.The impact of Ni,Co and Mo supplementation on methane yield from anaerobic mono-digestion of maize silage[J].Environmental Technology,2015,36(12):1556-1562.
[2]张庆芳,张婷婷,陈吉祥,等.添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):77-80.
[3]Choong Y,Norli I,Abdullah A,et al.Impacts of trace element supplementation on the performance of anaerobic digestion process:A critical review[J].Bioresource Technology,2016,209:369-379.
[4]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.
[5]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 Research,2015,84:266-277.
[6]Thanh P,Ketheesan B,Zhou Y,et al.Trace metal speciation and bioavailability in anaerobic digestion:A review[J].Biotechnology Advances,2016,34(2):122-136.
[7]徐霞,韩文彪,赵玉柱.金属离子对剩余污泥和生活垃圾联合厌氧消化的影响[J].中国沼气,2014,3(32):47-50.
[8]农丽薇,徐龙君,谢金连,等.微量Co和Ni对稻草厌氧消化的影响[J].环境科学研究,2008,21(2):163-167.
[9]江水英,吴声东.微量元素强化污泥和油脂厌氧共消化生物产气[J].科学技术与工程,2018,18(6):346-349.
[10]Zhang L,Lee Y,Jahng D.Anaerobic co-digestion of food waste and piggery wastewater:focusing on the role of trace elements[J].Bioresource Technology,2011,102(8):5048-5059.
[11]张瑜.微量金属元素Fe3+和Ni2+对厌氧消化的影响机理研究[D].合肥:安徽大学,2018:24-26.
[12]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 Technology,2015,178:297-305.
[13]Yirong C,Heaven S,Banks C.Effect of a trace element addition strategy on volatile fatty acid accumulation in thermophilic anaerobic digestion of food waste[J].Waste Biomass and Valorization,2014,6(1):1-12.
[14]Fermoso F,Collins G,Bartacek J,et al.Role of nickel in high rate methanol degradation in anaerobic granular sludge bioreactors[J].Biodegradation,2008,19(5):725-737.
[15]孙娟,李东,郑涛,等.微量元素对蔬菜废弃物厌氧消化的促进效果[J].新能源进展,2018,6(1):21-25.
[16]周友新,王晓玭,康晓荣,等.镍对餐厨垃圾厌氧消化中挥发酸降解的影响[J].中国给水排水,2018,34(5):101-104.
[17]Espiosa A,Rosas L,Ilangovan K,et al.Effect of trace metals on the anaerobic degradation of volatile fatty acids in molasses stillage[J].Water Science and Technology,1995,32:121-129.
[18]Zitomer D,Johnson C,Speece R.Metal stimulation and municipal digester thermophilic/mesophilic activity[J].Journal of Environmental Engineering-ASCE,2008,134(1):42-47.
[19]Scherer P,Lippert H,Wolff G.Composition of the major elements and trace elements of 10 methanogenic bacteria determined by inductively coupled plasma emission spectrometry[J].Biological Trace Element Research,1983,5(3):149-163.
[20]Zhang Y,Zhang Z,Suzuki K,et al.Uptake and mass balance of trace metals for methane producing bacteria[J].Biomass Bioenergy,2003,25(4):427-433.
[21]Munk B,Lebuhn M.Process diagnosis using methanogenic Archaea in maize-fed,trace element depleted fermenters[J].Anaerobe,2014,29:22-28.
[22]苏海锋,张磊,曹良元,等.低温下沼气促进剂驯化菌种及其应用研究[J].能源工程,2008(2):31-35.
[23]Harrop T,Mascharak P.Structural and spectroscopic models of the A-cluster of acetyl coenzyme a synthase/carbon monoxide dehydrogenase:nature's Monsanto acetic acid catalyst[J].Coordination Chemistry Reviews,2005,249(24):3007-3024.
[24]Ferry J.The chemical biology of methanogenesis[J].Planetary and Space Science,2010,58(14/15):1775-1783.
[25]陈曦,夏大平,汪明丰.Fe3+、Ni2+对微生物降解煤制氢影响的试验研究[J].煤炭科学技术,2017,45(3):191-195.
[26]Shima S,Warkentin E,Thauer R,et al.Structure and function of enzymes involved in the methanogenic pathway utilizing carbon dioxide and molecular hydrogen[J].Journal of Bioscience and Bioengineering,2002,93(6):519-530.
[27]张玉秀,孟晓山,王亚炜,等.畜禽废弃物厌氧消化过程的氨氮抑制及其应对措施研究进展[J].环境工程学报,2018,12(4):985-997.
[28]陈泓,王雯,严湖,等.氨氮对有机废弃物厌氧消化的影响及调控策略[J].环境科学与技术,2016,39(9):88-95.
[29]李亚新,董春娟,徐明德.厌氧消化过程中Fe、Co、Ni对NH+4-N的拮抗作用[J].城市环境与城市生态,2000,13(4):11-12.
[30]Marcato C,Pinelli E,Cecchi M,et al.Bioavailability of Cu and Zn in raw and anaerobically digested pig slurry[J].Ecotoxicology and Environmental Safety,2009,72(5):1538-1544.
[31]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.
[32]杨光,张光明,张盼月,等.微量元素Fe、Ni对污泥厌氧消化优化调理[J].环境工程学报,2017,11(9):4971-4977.
[33]Speece R,Parkin G,Gallagher D.Nickel stimulation of anaerobic digestion[J].Water Research,1983,17:677-683.
[34]张万钦.微量元素添加对餐厨垃圾和鸡粪厌氧消化性能的调控研究[D].北京:中国农业大学,2016:97.
[35]Nordell E,Nilsson B,Nilsso P,et al.Co-digestion of manure and industrial waste---The effects of trace element addition[J].Waste Management,2016,47:21-27.
[36]Takashima M,Shimada K,Speece R.Minimum requirements for trace metals(iron,nickel,cobalt,and zinc)in thermophilic and mesophilic methane fermentation from glucose[J].Water Environment Research,2011,83(4):339-346.
[37]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.
[38]Zandvoort M,van Hullebusch E,Fermoso F,et al.Trace metals in anaerobic granular sludge reactors:bioavailability and dosing strategies[J].Engineering in Life Science,2006,6(3):293-301.
[39]黄翔峰,叶广宇,穆天帅,等.污泥厌氧消化过程中重金属稳定性研究进展[J].环境科学,2017,36(9):2005-2014.
[40]Voolapalli R,Stuckey D.Stability enhancement of anaerobic digestion through membrane gas extraction under organic shock loads[J].Journal of Chemical Technology and Biotechnology,1998,73:153-161.
[41]Stuckey D.Recent developments in anaerobic membrane reactors[J].Bioresource Technology,2012,122:137-148.
[42]Gonzalez-Gil G,Lopes S,Saikaly P,et al.Leaching and accumulation of trace elements in sulfate reducing granular sludge under concomitant thermophilic and low p Hconditions[J].Bioresource Technology,2012,126:238-246.
[43]Vintiloiu A,Boxeriker M,Lemmer A,et al.Effect of ethylenediaminetetraacetic acid(EDTA)on the bioavailability of trace elements during anaerobic digestion[J].Chemical Engineering Journal,2013,223:436-441.
[44]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.
[2]张庆芳,张婷婷,陈吉祥,等.添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):77-80.
[3]Choong Y,Norli I,Abdullah A,et al.Impacts of trace element supplementation on the performance of anaerobic digestion process:A critical review[J].Bioresource Technology,2016,209:369-379.
[4]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.
[5]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 Research,2015,84:266-277.
[6]Thanh P,Ketheesan B,Zhou Y,et al.Trace metal speciation and bioavailability in anaerobic digestion:A review[J].Biotechnology Advances,2016,34(2):122-136.
[7]徐霞,韩文彪,赵玉柱.金属离子对剩余污泥和生活垃圾联合厌氧消化的影响[J].中国沼气,2014,3(32):47-50.
[8]农丽薇,徐龙君,谢金连,等.微量Co和Ni对稻草厌氧消化的影响[J].环境科学研究,2008,21(2):163-167.
[9]江水英,吴声东.微量元素强化污泥和油脂厌氧共消化生物产气[J].科学技术与工程,2018,18(6):346-349.
[10]Zhang L,Lee Y,Jahng D.Anaerobic co-digestion of food waste and piggery wastewater:focusing on the role of trace elements[J].Bioresource Technology,2011,102(8):5048-5059.
[11]张瑜.微量金属元素Fe3+和Ni2+对厌氧消化的影响机理研究[D].合肥:安徽大学,2018:24-26.
[12]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 Technology,2015,178:297-305.
[13]Yirong C,Heaven S,Banks C.Effect of a trace element addition strategy on volatile fatty acid accumulation in thermophilic anaerobic digestion of food waste[J].Waste Biomass and Valorization,2014,6(1):1-12.
[14]Fermoso F,Collins G,Bartacek J,et al.Role of nickel in high rate methanol degradation in anaerobic granular sludge bioreactors[J].Biodegradation,2008,19(5):725-737.
[15]孙娟,李东,郑涛,等.微量元素对蔬菜废弃物厌氧消化的促进效果[J].新能源进展,2018,6(1):21-25.
[16]周友新,王晓玭,康晓荣,等.镍对餐厨垃圾厌氧消化中挥发酸降解的影响[J].中国给水排水,2018,34(5):101-104.
[17]Espiosa A,Rosas L,Ilangovan K,et al.Effect of trace metals on the anaerobic degradation of volatile fatty acids in molasses stillage[J].Water Science and Technology,1995,32:121-129.
[18]Zitomer D,Johnson C,Speece R.Metal stimulation and municipal digester thermophilic/mesophilic activity[J].Journal of Environmental Engineering-ASCE,2008,134(1):42-47.
[19]Scherer P,Lippert H,Wolff G.Composition of the major elements and trace elements of 10 methanogenic bacteria determined by inductively coupled plasma emission spectrometry[J].Biological Trace Element Research,1983,5(3):149-163.
[20]Zhang Y,Zhang Z,Suzuki K,et al.Uptake and mass balance of trace metals for methane producing bacteria[J].Biomass Bioenergy,2003,25(4):427-433.
[21]Munk B,Lebuhn M.Process diagnosis using methanogenic Archaea in maize-fed,trace element depleted fermenters[J].Anaerobe,2014,29:22-28.
[22]苏海锋,张磊,曹良元,等.低温下沼气促进剂驯化菌种及其应用研究[J].能源工程,2008(2):31-35.
[23]Harrop T,Mascharak P.Structural and spectroscopic models of the A-cluster of acetyl coenzyme a synthase/carbon monoxide dehydrogenase:nature's Monsanto acetic acid catalyst[J].Coordination Chemistry Reviews,2005,249(24):3007-3024.
[24]Ferry J.The chemical biology of methanogenesis[J].Planetary and Space Science,2010,58(14/15):1775-1783.
[25]陈曦,夏大平,汪明丰.Fe3+、Ni2+对微生物降解煤制氢影响的试验研究[J].煤炭科学技术,2017,45(3):191-195.
[26]Shima S,Warkentin E,Thauer R,et al.Structure and function of enzymes involved in the methanogenic pathway utilizing carbon dioxide and molecular hydrogen[J].Journal of Bioscience and Bioengineering,2002,93(6):519-530.
[27]张玉秀,孟晓山,王亚炜,等.畜禽废弃物厌氧消化过程的氨氮抑制及其应对措施研究进展[J].环境工程学报,2018,12(4):985-997.
[28]陈泓,王雯,严湖,等.氨氮对有机废弃物厌氧消化的影响及调控策略[J].环境科学与技术,2016,39(9):88-95.
[29]李亚新,董春娟,徐明德.厌氧消化过程中Fe、Co、Ni对NH+4-N的拮抗作用[J].城市环境与城市生态,2000,13(4):11-12.
[30]Marcato C,Pinelli E,Cecchi M,et al.Bioavailability of Cu and Zn in raw and anaerobically digested pig slurry[J].Ecotoxicology and Environmental Safety,2009,72(5):1538-1544.
[31]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.
[32]杨光,张光明,张盼月,等.微量元素Fe、Ni对污泥厌氧消化优化调理[J].环境工程学报,2017,11(9):4971-4977.
[33]Speece R,Parkin G,Gallagher D.Nickel stimulation of anaerobic digestion[J].Water Research,1983,17:677-683.
[34]张万钦.微量元素添加对餐厨垃圾和鸡粪厌氧消化性能的调控研究[D].北京:中国农业大学,2016:97.
[35]Nordell E,Nilsson B,Nilsso P,et al.Co-digestion of manure and industrial waste---The effects of trace element addition[J].Waste Management,2016,47:21-27.
[36]Takashima M,Shimada K,Speece R.Minimum requirements for trace metals(iron,nickel,cobalt,and zinc)in thermophilic and mesophilic methane fermentation from glucose[J].Water Environment Research,2011,83(4):339-346.
[37]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.
[38]Zandvoort M,van Hullebusch E,Fermoso F,et al.Trace metals in anaerobic granular sludge reactors:bioavailability and dosing strategies[J].Engineering in Life Science,2006,6(3):293-301.
[39]黄翔峰,叶广宇,穆天帅,等.污泥厌氧消化过程中重金属稳定性研究进展[J].环境科学,2017,36(9):2005-2014.
[40]Voolapalli R,Stuckey D.Stability enhancement of anaerobic digestion through membrane gas extraction under organic shock loads[J].Journal of Chemical Technology and Biotechnology,1998,73:153-161.
[41]Stuckey D.Recent developments in anaerobic membrane reactors[J].Bioresource Technology,2012,122:137-148.
[42]Gonzalez-Gil G,Lopes S,Saikaly P,et al.Leaching and accumulation of trace elements in sulfate reducing granular sludge under concomitant thermophilic and low p Hconditions[J].Bioresource Technology,2012,126:238-246.
[43]Vintiloiu A,Boxeriker M,Lemmer A,et al.Effect of ethylenediaminetetraacetic acid(EDTA)on the bioavailability of trace elements during anaerobic digestion[J].Chemical Engineering Journal,2013,223:436-441.
[44]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.