Research progress in sulfate-reducing ammonia oxidation reaction

doi:10.11894/1005-829x.2015.35(8).001

Abstract

Abstract:

Sulfate-reducing ammonia oxidation(SRAO) could simultaneously remove ammonium and sulfate in one anaerobic reactor,providing a new idea on simultaneous biological denitrification and desurfurization of wastewater. Research progress in SRAO in recent years both in China and abroad is summarized,mainly including the simultaneous transformation characteristics of ammonium and sulfate,reaction equation of SRAO,microbial community in sludge,and the influencing factors of SRAO reaction. Furthermore,the directions of SRAO as well as the challenges faced in application are put forward.

Key words: sulfate-reducing ammonia oxidation, transformation characteristics, microbial community

摘要：

硫酸盐还原氨氧化(SRAO)反应可以在1个厌氧反应器中实现氨和硫酸盐的同步去除,为废水同步生物脱氮除硫提供了新思路。综述了SRAO反应近年来的国内外研究进展,主要包括SRAO反应的氨和硫酸盐同步转化特性、反应方程式、污泥中微生物菌群以及反应的影响因素,并指出了SRAO反应的未来研究方向以及该反应走上实际应用面临的挑战。

关键词: 硫酸盐还原氨氧化, 转化特性, 微生物菌群

CLC Number:

X703.1

Jiang Yongrong, Liu Chengliang, Liu Kehui, Qin Yongli, Li Haiqing, Lu Dongyun, Guo Danni, Sun Zhenju, Lu Qingqing, Li Liangjian. Research progress in sulfate-reducing ammonia oxidation reaction[J]. INDUSTRIAL WATER TREATMENT, 2015, 35(8): 1-5.

蒋永荣, 刘成良, 刘可慧, 秦永丽, 黎海清, 陆冬云, 郭丹妮, 孙振举, 卢青青, 李良剑. 硫酸盐还原氨氧化反应研究进展[J]. 工业水处理, 2015, 35(8): 1-5.

/ / Recommend / Download Citations

URL: https://www.iwt.cn/EN/10.11894/1005-829x.2015.35(8).001

https://www.iwt.cn/EN/Y2015/V35/I8/1

References

[1] 郑平,徐向阳,胡宝兰. 新型生物脱氮理论与技术[M]. 北京:科学出版社, 2004:5-7.
[2] 蒋永荣, 胡明成. 硫酸盐废水生物脱硫研究进展[J]. 环境科学与技术,2008,31(9):67-71.
[3] Mahmood Q,Hayat Y,Hassan M J,et al. Sources of sulfide in waste streams and current biotechnologies for its removal[J]. Journal of Zhejiang University,2007,8(7):1126-1140.
[4] Sipma J,Janssen A J H,Pol L W H,et al. Development of a novel process for the biological conversion of H2S and methanethiol to elemental sulfur[J]. Biotechnology and Bioengineering,2003,82(1):1-11.
[5] 袁怡,黄勇,李祥,等. 含氨和硫酸盐废水的处理技术展望[J]. 工业水处理,2012,32(11):1-5.
[6] Fdz-Polanco F,Fdz-Polaneo M,Fernandez N,et al. New process for simultaneous removal of nitrogen and sulphur under anaerobic conditions[J]. Water Research,2001,35(4):1111-1114.
[7] Fdz-Polanco F,Fdz-Polanco M,Fernandez N,et al.Simultaneous organic nitrogen and sulfate removal in an anaerobic GAC fluidised bed reactor[J]. Water Science and Technology,2001,44(4):15-22.
[8] Fdz-Polanco F,Fdz-Polanco M,Fernandez N,et al. Combining the biological nitrogen and sulfur cycles in anaerobic conditions[J]. Water Science and Technology,2001,44(8):77-84.
[9] 董凌霄,吕永涛,韩勤有,等. 硫酸盐还原对氨氧化的影响及其抑制特性研究[J]. 西安建筑科技大学学报:自然科学版,2006,38(3):425-428.
[10] Sabumon P C. Development of a novel process for anoxic ammonia removal with sulphidogenesis[J]. Process Biochemistry,2008,43 (9):984-991.
[11] Rikmann E,Zekker I,Tomingas M,et al. Sulfate-reducing anaerobic ammonium oxidation as a potential treatment method for high nitrogen-content wastewater[J]. Biodegradation,2012,23(4):509-524.
[12] Zhao Q L,Li W,You S J. Simultaneous removal of ammonium-nitrogen and sulphate from wastewaters with an anaerobic attached-growth bioreactor[J]. Water Science and Technology,2006,54(8): 27-35.
[13] Liu Sitong,Yang Fenglin,Gong Zheng,et al. Application of anaerobic ammonium-oxidizing consortium to achieve completely autotrophic ammonium and sulfate removal[J]. Bioresource Technology, 2008,99(15):6817-6825.
[14] 张蕾,郑平,何玉辉,等. 硫酸盐型厌氧氨氧化性能的研究[J]. 中国科学:B辑,2008,38(12):1113-1119.
[15] Yang Zhiquan,Zhou Shaoqi,Sun Yanbo. Start-up of simultaneous removal o f ammonium and sulfate from an anaerobic ammonium oxidation(anammox) process in an anaerobic up-flow bioreactor[J]. Journal of Hazardous Materials,2009,169(1/2/3):113-118.
[16] 赖杨岚,周少奇. 硫酸盐型厌氧氨氧化反应器的启动特征分析[J]. 中国给水排水,2010,26(15):41-44.
[17] 李祥,黄勇,袁怡,等. 自养厌氧硫酸盐还原/氨氧化反应器启动特性[J]. 化工学报,2012,63(8):2606-2611.
[18] 张丽,黄勇,袁怡,等. 硫酸盐/氨的厌氧生物转化试验研究[J]. 环境科学,2013,34(11):4356-4361.
[19] 袁怡,黄勇,李祥,等. 硫酸盐还原-氨氧化反应的特性研究[J]. 环境科学,2013,34(11):4362-4369.
[20] Mahmood Q. Process performance,optimization and microbiology of anoxic sulfide biooxidation using nitrite as electron acceptor[D]. 杭州:浙江大学,2007.
[21] Strous M,Heijnen J J,Kuenen J G,et al. The sequencing batch reactor as a powerful tool for the study of slowly growing anaerobic ammonium-oxidizing microorganisms[J]. Applied Microbiology and Biotechnology,1998,50(5):589-596.
[22] Lansing M P,John P H,Donald A K. Microbiology[M]. 5th ed. America:McGraw-Hill Companies Inc,2002:464-465,516.
[23] 赖杨岚. 硫酸盐型厌氧氨氧化的启动特性与影响因素研究[D]. 广州:华南理工大学, 2011.
[24] Strous M,Fuerst J A,Kramer E H M,et al. Missing lithotroph identified as new planctomycete[J]. Nature,1999,400(6743):446-449.
[25] 李祥,黄勇,袁怡. 高氨氮、硫酸盐废水的生物脱氮除硫研究新进展[J]. 中国给水排水,2010,26(10):5-8.
[26] 刘思彤. 电/磁场强化厌氧氨氧化及多菌群协同自养生物脱氮[D]. 大连:大连理工大学,2009.
[27] Liu Yan,Fang H H P. Precipitates in anaerobic granules treating sulphate-bearing wastewater[J]. Water Research,1998,32(9): 2627-2632.
[28] 罗慧东,曾国驱,李登兰,等. 厌氧折流板反应器处理高浓度含硫酸盐有机废水研究[J]. 环境工程学报,2010,4(10):2168-2172.
[29] 赵庆良,李威,徐永波,等. 厌氧附着生长反应器处理氨氮和硫酸盐废水的研究[J]. 黑龙江大学自然科学学报, 2007, 24(4):421-426.
[30] 张蕾. 厌氧氨氧化性能的研究[D]. 杭州:浙江大学,2009.

Please choose a citation manager

Content to export