好氧颗粒污泥处理含盐有机废水研究进展

doi:10.11894/1005-829x.2018.38(3).012

摘要/Abstract

摘要： 综述了好氧颗粒污泥在榨菜废水、鱼罐头废水、含酚高盐废水、垃圾渗滤液等含盐有机废水处理中的研究现状，探讨了好氧颗粒污泥技术在高盐条件下对废水中有机物、氮磷及其他特征污染物的去除特性，高盐条件下污泥颗粒的形成机理和成长特性，以及影响其稳定性的主要因素，旨在为好氧颗粒污泥技术在含盐有机废水处理中的应用研究提供参考。

关键词: 好氧颗粒污泥, 含盐有机废水, 废水处理

Abstract: The present state of research on aerobic granular sludge(AGS) and its applications to the treatment of saline organic wastewater,such as preserve szechuan pickle wastewater,fish canning wastewater,high salinity waste-water containing phenol,landfill leachate,etc. are summarized. The removing characteristics of AGS for organic sub-stances in wastewater,nitrogen/phosphorus,and other specific pollutants under high salinity condition,and the forma-tion mechanism and growth characteristics of sludge granules under high salinity condition,as well as the main factors affecting the stability of sludge granules are investigated,in order to provide reference for the application of AGS tech-nology to the treatment of saline organic wastewater.

Key words: aerobic granular sludge, saline organic wastewater, wastewater treatment

中图分类号:

X703

罗芳林, 杨红薇. 好氧颗粒污泥处理含盐有机废水研究进展[J]. 工业水处理, 2018, 38(3): 12-16.

Luo Fanglin, Yang Hongwei. Research progress in aerobic granular sludge for the treatment of saline organic wastewater[J]. INDUSTRIAL WATER TREATMENT, 2018, 38(3): 12-16.

https://www.iwt.cn/CN/Y2018/V38/I3/12

参考文献

[1] Nor-Anuar A,Ujang Z,M van Loosdrecht C,et al. Strength characteristics of aerobic granular sludge[J]. Water Science & Technology,2012,65(2):309-316.
[2] Song Zhiwei,Pan Yuejun,Zhang Kun,et al. Effect of seed sludge on characteristics and microbial community of aerobic granular sludge[J]. Journal of Environment Sciences,2010,22(9):1312-1318.
[3] 陈垚,黄鹏程,杨威,等. 好氧颗粒污泥处理高盐榨菜废水除污特性研究[J]. 工业水处理,2015,35(11):29-32.
[4] 喻钢. 高盐好氧颗粒污泥稳定性调控及处理榨菜废水效能研究[D]. 重庆:重庆交通大学,2014:62-63.
[5] 唐海,刘桂中. 好氧颗粒污泥SBR处理实际含盐废水的研究[J]. 工业水处理,2013,33(7):33-35.
[6] 陈垚,曾朝银,龙腾锐,等. 榨菜综合废水好氧生物处理工艺的选择试验[J]. 中国给排水,2009,25(15):21-24.
[7] Figueroa M,Mosquera-Corral A,Campos J L,et al. Treatment of sa-line wastewater in SBR aerobic granular reactors[J]. Water Sci. Tech-nol.,2008,58(2):479-485.
[8] Corsino S F,Capodici M,Morici C,et al. Simultaneous nitritation-denitritation for the treatment of high-strength nitrogen in hypersaline wastewater by aerobic granular sludge[J]. Water Research,2016,88:329-336.
[9] Moussavi G,Barikbin B,Mahmoudi M. The removal of high concen-trations of phenol from saline wastewater using aerobic granular SBR[J]. Chemical Engineering Journal,2010,158(3):498-504.
[10] 汪善全,原媛,孔云华,等. 好氧颗粒污泥处理高含盐废水研究[J]. 环境科学,2008,29(1):145-151.
[11] Di Iaconi C,Ramadori R,Lopez A,et al. Combined biological and chemical degradation for treating a mature municipal landfill lea-chate[J]. Biochemical Engineering Journal,2006,31(2):118-124.
[12] van den Akker B,Reid K,Middlemiss K,et al. Evaluation of granular sludge for secondary treatment of saline municipal sewage[J]. Jour-nal of Environmental Management,2015,157:139-145.
[13] Corsino S F,Campo R,Di Bella G,et al. Cultivation of granular slu-dge with hypersaline oily wastewater[J]. International Biodeteriora-tion & Biodegradation,2015,105:192-202.
[14] Miao Yu,Liao Runhua,Zhang Xuxiang,et al. Metagenomic insights into salinity effect on diversity and abundance of denitrifying bact-eria and genes in an expanded granular sludge bed reactor treating high-nitrate wastewater[J]. Chemical Engineering Journal,2015, 277:116-123.
[15] Ramos C,Suárez-Ojeda M E,Carrera J. Biodegradation of a high-strength wastewater containing a mixture of ammonium,aromatic compounds and salts with simultaneous nitritation in an aerobic gra-nular reactor[J]. Process Biochemistry,2016,51(3):399-407.
[16] Wan Chunli,Yang Xue,Lee D J,et al. Partial nitrification of waste-waters with high NaCl concentrations by aerobic granules in continuous-flow reactor[J]. Bioresource Technology,2014,152(1):1-6.
[17] Tsuneda S,Ogiwara M,Ejiri Y,et al. High-rate nitrification using aerobic granular sludge[J]. Water Science & Technology,2006,53(3):147-154.
[18] Bassin J P,Pronk M,Muyzer G,et al. Effect of elevated salt concen-trations on the aerobic granular sludge process:linking microbial activity with microbial community structure[J]. Applied & Environ-mental Microbiology,2011,77(22):7942-7953.
[19] Pronk M,Bassin J P,de Kreuk M K,et al. Evaluating the main and side effects of high salinity on aerobic granular sludge[J]. Applied Microbiology & Biotechnology,2014,98(3):1339-1348.
[20] Morgenroth E,Sherden T,van Loosdrecht M C M,et al. Aerobic gra-nular sludge in a sequencing batchreactor[J]. Water Research,1997, 31(12):3191-3194.
[21] Fang H H P. Microbial distribution in UASB granules and its result-ing effects[J]. Water Science & Technology,2000,42(12):201-208.
[22] Tay J H,Yang S F,Liu Y. Hydraulic selection pressure-induced nitri-fying granulation in sequencing batch reactors[J]. Applied Microbio-logy & Biotechnology,2002,59(2/3):332-337.
[23] Wang X H,Zhang H M,Yang F L,et al. Improved stability and per-formance of aerobic granules under stepwise increased selection pre-ssure[J]. Enzyme & Microbial Technology,2007,41(3):205-211.
[24] Lettinga G,van Velsen A F M,Hobma S W,et al. Use of the upflow sludge blanket(USB) reactor concept for biological wastewater treat-ment,especially for anaerobic treatment[J]. Biotechnology & Bioengineering,1980,22(4):699-734.
[25] 刘丽,任婷婷,徐得潜,等. 高强度好氧颗粒污泥的培养及特性研究[J]. 中国环境科学,2008,28(4):360-364.
[26] Wilen B M,Onuki M,Hermansson M,et al. Microbial community structure in activated sludge floc analysed by fluorescence in situ hybridization and its relation to floc stability[J]. Water Research, 2008,42(8/9):2300-2308.
[27] Hulshoff P L W,de Castro L S I,Letting G,et al. Anaerobic sludge granulation[J]. Water Research,2004,38(6):1376-1389.
[28] Di Iaconi C,Ramadori R,Lopez A,et al. Influence of hydrodynamic shear forces on properties of granular biomass in a sequencing batch biofilter reactor[J]. Biochemical Engineering Journal,2006,30(2):152-157.
[29] Beun J J,Hendriks A,van Loosdrecht M C M,et al. Aerobic granu-lation in a sequencing batch reactor[J]. Water Research,1999,33(10):2283-2290.
[30] Vendramel S,Dezotti M,Sant'Anna G L Jr. Nitrification of an indu-strial wastewater in a moving-bed biofilm reactor:effect of salt con-centration[J]. Environmental Technology,2011,32(7/8):837-846.
[31] 倪丙杰,俞汉青,谢文明,等. 好氧颗粒污泥形成机理与模型[EB/OL].(2007-12-28). http://www.paper.edu.cn/releasepaper/content/200712-844.
[32] De Kreuk M K,Pronk M,van Loosdrecht M C M. Formation of aero-bic granules and conversion processes in an aerobic granular sludge reactor at moderate and low temperatures[J]. Water Research,2005, 39(18):4476-4484.
[33] Bassin J P,Dezotti M,Sant'Anna GL Jr. Nitrification of industrial and domestic saline wastewaters in moving bed biofilm reactor and sequencing batch reactor[J]. Journal of Hazardous Materials,2011, 185(1):242-248.
[34] Lin Yuemei,de Kreuk M,van Loosdrecht MCM,et al. Characteriza-tion of alginate-like exopolysaccharides isolated from aerobic granu-lar sludge in pilot-plant[J]. Water Research,2010,44(11):3355-3364.
[35] Ismail S B,de La Parra C J,Temmink H,et al. Extracellular polymeric substances(EPS) in upflow anaerobic sludge blanket(UASB) reactors operated under high salinity conditions[J]. Water Research,2010,44(6):1909-1917.
[36] Kim I S,Kim S,Jang A. Characterization of aerobic granules by mic-robial density at different COD loading rates[J]. Bioresource Tech-nology,2008,99(1):18-25.
[37] Chen Yao,Jiang Wenju,Liang D T,et al. Biodegradation and kine-tics of aerobic granules under high organic loading rates in sequenc-ing batch reactor[J]. Applied Microbiology & Biotechnology,2008, 79(2):301-308.
[38] 李智,李志华,王晓昌,等. 含盐量与负荷对好氧颗粒中自养与异养菌的影响[J]. 环境工程学报,2009,3(2):205-208.
[39] 王芳,杨凤林,张兴文,等. 不同有机负荷下好氧颗粒污泥的特性[J]. 中国给水排水,2004,20(11):46-48.
[40] 董苗苗,陈垚,蒋彬,等. 有机负荷及DO对高盐好氧颗粒污泥稳定性的影响[J]. 水处理技术,2015,41(6):67-70.

选择文件类型/文献管理软件名称

选择包含的内容