磷酸盐还原系统除磷机理的研究进展
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摘要
利用磷酸盐还原产生磷化氢进行除磷是一种新型的除磷方法,研究其机理不仅在学术上补充了生物除磷理论,在实际应用上还具有将污染物资源化重要意义。分别从磷化氢产生途径、环境影响因素、微生物新陈代谢及分子生物学角度对研究现状进行分析总结。
The phosphate reduction to generate phosphine is a new method for phosphorus removal. The study of its mechanism not only complements the theory of biological phosphorus removal, but also has the important significance for reusing pollutants in practice. In this paper, the research status of phosphate removal mechanism in phosphate reduction system was summarized from the perspectives of phosphine generation, environmental factors, microbial metabolism and molecular biology.
The phosphate reduction to generate phosphine is a new method for phosphorus removal. The study of its mechanism not only complements the theory of biological phosphorus removal, but also has the important significance for reusing pollutants in practice. In this paper, the research status of phosphate removal mechanism in phosphate reduction system was summarized from the perspectives of phosphine generation, environmental factors, microbial metabolism and molecular biology.
引文
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[18]卢莉琼,徐亚同,梁俊.分子生物学方法在微生物多样性及微生物生态研究中的应用[J].应用与环境生物学报,2004,(06):826-830.
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[20]Liu C,Li H,Zhang Y,et al.Evolution of microbial community along with increasing solid concentration during high-solids anaerobic digestion of sewage sludge[J].Bioresource Technology,2016,216:87-94.
[21]Liao X,Chen C,Zhang J,et al.Operational performance,biomass and microbial community structure:impacts of backwashing on drinking water biofilter[J].Environmental Science&Pollution Research,2015,22(1):546-554.
[22]璩绍雷,孙宝盛,赵双红,等.p H对间歇进水序批式生物反应(SBR)工艺活性污泥沉降性能和微生物结构的影响[J].环境化学,2016,35(03):508-515.
[23]储昭瑞.厌氧氨氧化反应器启动及微生物群落结构解析[D].哈尔滨工业大学,2012.
[24]戴睿.16S r DNA分子生物学技术在除磷菌种群结构分析中的应用[D].同济大学,2007.
[25]简陈生.高盐氨氮废水MBR处理效能及微生物特性研究[D].江西理工大学,2016.
[2]Iverson W P.Research on the mechanisms of anaerobic corrosion[J].International Biodeterioration&Biodegradation,2001,47(2):63-70.
[3]Roels J,Huyghe G,Verstraete W.Microbially mediated phosphine emission.[J].Science of the Total Environment,2005,338(3):253-265.
[4]曹海峰,刘季昂,庄亚辉,D.Glindemann.环境中磷化氢的源及厌氧条件下前体物类型的研究[J].中国科学(B辑),2000,(01):63-68.
[5]]牛晓君.沉积物中磷化氢产生的微生物作用初步探讨[J].中国科技论文在线,2010,5(05):373-376.
[6]游丽丽,宗海波,张淑芳,等.金普湾海域表层沉积物中基质结合态磷化氢的分布特征[J].环境科学,2013,34(10):3 804-3 809.
[7]万金保,邓觅,何华燕,等.猪场废水中磷化氢释放的影响因素研究[J].中国给水排水,2013,29(23):117-120.
[8]刘轶,周健,李晓品,等.磷酸盐生物还原系统构建过程中磷形态的转化研究[J].中国给水排水,2013,29(13):105-108.
[9]张可方,张朝升,韦伟,等.好氧及厌氧/好氧序批式工艺中磷化氢的释放[J].环境工程,2011,29(05):127-129,134.
[10]Zhang,Fang.Effect of p H change on the performance and microbial community of enhanced biological phosphate removal process[J].中国生物学文摘,2005,92(8):27-27.
[11]栗静静,周健,卿晓霞,等.碳源种类对生活污水磷酸盐生物还原系统磷形态转化的影响[J].重庆大学学报,2013,36(03):104-108.
[12]孙亮,荣宏伟,韦伟,等.无机磷源及酶活性与厌氧污泥产磷化氢的关系[J].中国给水排水,2017,33(01):110-113.
[13]罗秋容.厌氧除磷过程的影响因素和功能菌的筛选[J].能源与节能,2013,(04):64-66.
[14]刘志培,王宝军,贾省芬,等.样品磷化氢含量与某些微生物群落及酶活的关系[J].微生物学报,2006,(04):608-612.
[15]李茵,罗翠,Chróst R J.城市污水生物处理系统中微生物酶的活性及其分布[J].环境污染与防治,2007,(05):333-335.
[16]曹建平,张朝升,赵丽敏,等.无机磷源及酶活性与厌氧污泥产磷化氢的关系[J].中国给水排水,2017,33(01):110-113.
[17]李相昆.反硝化除磷工艺与微生物学研究[D].哈尔滨工业大学,2006.
[18]卢莉琼,徐亚同,梁俊.分子生物学方法在微生物多样性及微生物生态研究中的应用[J].应用与环境生物学报,2004,(06):826-830.
[19]Ravel J,Gordon J I.Vaginal microbiome of reproductive-age women[J].Proceedings of the National Academy of Sciences of the United States of America,2011,(108 Suppl 1):4 680.
[20]Liu C,Li H,Zhang Y,et al.Evolution of microbial community along with increasing solid concentration during high-solids anaerobic digestion of sewage sludge[J].Bioresource Technology,2016,216:87-94.
[21]Liao X,Chen C,Zhang J,et al.Operational performance,biomass and microbial community structure:impacts of backwashing on drinking water biofilter[J].Environmental Science&Pollution Research,2015,22(1):546-554.
[22]璩绍雷,孙宝盛,赵双红,等.p H对间歇进水序批式生物反应(SBR)工艺活性污泥沉降性能和微生物结构的影响[J].环境化学,2016,35(03):508-515.
[23]储昭瑞.厌氧氨氧化反应器启动及微生物群落结构解析[D].哈尔滨工业大学,2012.
[24]戴睿.16S r DNA分子生物学技术在除磷菌种群结构分析中的应用[D].同济大学,2007.
[25]简陈生.高盐氨氮废水MBR处理效能及微生物特性研究[D].江西理工大学,2016.
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