污泥不同脱水方法的实验分析及脱水机理探讨

汤连生, 郑邓衡, 赵占仑. 污泥不同脱水方法的实验分析及脱水机理探讨[J]. 环境工程学报, 2018, 12(5): 1536-1546. doi: 10.12030/j.cjee.201710173
引用本文: 汤连生, 郑邓衡, 赵占仑. 污泥不同脱水方法的实验分析及脱水机理探讨[J]. 环境工程学报, 2018, 12(5): 1536-1546. doi: 10.12030/j.cjee.201710173
TANG Liansheng, ZHENG Dengheng, ZHAO Zhanlun. Dewatering mechanism and experimental analysis of sludge under different dehydration methods[J]. Chinese Journal of Environmental Engineering, 2018, 12(5): 1536-1546. doi: 10.12030/j.cjee.201710173
Citation: TANG Liansheng, ZHENG Dengheng, ZHAO Zhanlun. Dewatering mechanism and experimental analysis of sludge under different dehydration methods[J]. Chinese Journal of Environmental Engineering, 2018, 12(5): 1536-1546. doi: 10.12030/j.cjee.201710173

污泥不同脱水方法的实验分析及脱水机理探讨

  • 基金项目:

    广州市科技计划项目(201607010023)

Dewatering mechanism and experimental analysis of sludge under different dehydration methods

  • Fund Project:
  • 摘要: 为进一步认识污泥脱水的机理,寻找更为有效的污泥脱水方法,提出了一种新的污泥中水分存在形式的划分方法,同时进行了自重、离心、盐溶液渗析脱水3种实验,并利用光学显微镜和扫描电镜等手段,对原状污泥与3种脱水后污泥的微观结构进行形态学及定量分析。自重、离心、盐溶液渗析脱水后污泥的最终含水率分别为89.4%、78.0%、28.4%,且不同脱水方式会影响污泥的微观结构,进而影响脱水效率;污泥中微生物、絮团、褶皱、裂隙及物质成分等方面是污泥中水分难以脱除的重要原因。污泥在不同的脱水阶段,水分的存在形式不同,脱水的难易程度也不同;脱水程度越高的脱水手段,其脱水后污泥的结构越紧密,孔隙率及等效孔径明显降低,可通过减小污泥内部孔隙的方式进一步提高脱水效率。
  • 加载中
  • [1] 李立欣,赵乾身,马放,等.废水处理中污泥减量技术现状及发展趋势[J].水处理技术,2015,41(1):1-4 10.16796/j.cnki.1000-3770.2015.01.001
    [2] 白冰,李现瑾,徐长思,等.剩余污泥机械脱水技术研究进展[J].节能,2014,33(4):4-8
    [3] 刘吉宝,李亚明,吕鑑,等.污水处理厂不同工艺的污泥脱水效能分析及其影响因素研究[J].环境科学,2015,36(10):3794-3800 10.13227/j.hjkx.2015.10.031
    [4] MARTINEZ J, ROSAS J G, MORAN A, et al.Effect of ultrasound pretreatment on sludge digestion and dewatering characteristics: Application of particle size analysis[J].Water,2015,11(11):6483-6495 10.3390/w7116483
    [5] 石秀娟,梁文俊,李依丽,等.超声波技术在城市污泥处理中的应用进展[J].四川环境,2017,36(1):157-162 10.14034/j.cnki.schj.2017.01.030
    [6] HANG S T, YANG Z J, LV X B, et al.Novel electro-dewatering system for activated sludge biosolids in bench-scale, pilot-scale and industrial-scale applications[J].Chemical Engineering Research and Design,2017,121:44-56 10.1016/j.cherd.2017.02.035
    [7] SUN B, XIN Y B, HAO J, et al.Influence of conductivity on the electro-dewatering of sewage sludge under constant voltage[J].Separation Science and Technology,2017,52(15):2429-2434 10.1080/ 01496395.20171368561
    [8] 刘阳,程洁红.不同固含量城市污泥的电化学预处理工艺研究[J].水处理技术,2016,42(7):126-129 10.16796/j.cnki.1000-3770.2016.07.029
    [9] HUA L C, HUANG C, Su Y C, et al.Effects of electro-coagulation on fouling mitigation and sludge characteristics in a coagulation-assisted membrane bioreactor[J].Journal of Membrane Science,2015,495:29-36 10.1016/j.memsci.2015.07.062
    [10] 李红欣,田博,杨雯晶,等.冷冻预处理剩余污泥脱水性能研究[J].黑龙江科技信息,2014,18(1):63
    [11] 卢映专,王景芝,高淑涛,等.南方14种污泥中六溴环十二烷的浓度水平与组成特征[J].生态环境学报,2016,25(1):118-123 10.16258/j.cnki.1674-5906.2016.01.017
    [12] 王鸣, 吴海珍, 刘雷,等.厌氧条件下不同共基质对焦化污泥降解多环芳烃的影响[J].生态环境学报,2016,25(3):510-516 10.16258/j.cnki.1674-5906.2016.03.021
    [13] HIGGINS M J, NOVAK J T.The effect of cations on the settling and dewatering of activated sludges: Laboratory results[J].Water Environment Research,1997,69(2):215-224 10.2175/106143097x125371
    [14] WANG L F, QIAN C, JIANG J K, et al.Response of extracellular polymeric substances to thermal treatment in sludge dewatering process[J].Environmental Pollution,2017,231:1388-1392 10.1016/j.jhazmat.2003.11.014
    [15] 邢奕, 王志强, 洪晨, 等. 不同pH 值下胞外聚合物对污泥脱水性能及束缚水含量的影响[J]. 北京科技大学学报,2015,37(10):1387-1395 10.13374/j.issn2095-9389.2015.10.020
    [16] ZHAO P, GE S, YOSHIKAWA K.Effect of operating conditions on measurement of bound water in sludge by employing drying test[J].Fresenius Environmental Bulletin,2015,24(11B):3912-3920 10.13374/j.issn2095-9389.2015.10.020
    [17] XIE H H, HONG-LEI M A, YONG C, et al.Bound water measurement methods and moisture distribution within sewage sludge[J].Journal of Zhejiang University,2012,46(3):503-508 10.3785/j.issn.1008-973X.2012.03.019
    [18] 裴海燕, 胡文容, 李晶, 等. 活性污泥与消化污泥的脱水特性及粒径分布[J]. 环境科学,2007,28(10):2236-2242
    [19] FENG J, WANG Y L, JI X Y.Dynamic changes in the characteristics and components of activated sludge and filtrate during the pressurized electro-osmotic dewatering process[J].Separation and Purification Technology,2014,134:1-11 10.1016/j.seppur.2014.07.019
    [20] XU H, HE P, LI M S.Characteristics of organic matters during anaerobic digestion of ultrasonically pretreated sludge and the effects on sludge dewaterability[J].Journal of Residuals Science and Technology,2009,6(3):119-124 10.1016/S1001-0742(09)60132-7
    [21] 汤连生, 罗珍贵, 张龙舰,等. 污泥脱水研究现状与新认识[J].水处理技术,2016,42(6):12-17 10.16796/j.cnki.1000-3770.2016.06.003
    [22] HEUKELEKIAN H, WEISBERG E.Bound water and activated sludge bulking[J].Sewage and Industrial Wastes,1956,28(4):558-574 10.2307/25033052
    [23] TSANG K R, VESILIND P A.Moisture distribution in sludges[J].Water Science and Technology,1990,22(12):135-142 10.16796/j.cnki.1000-3770.2016.06.003
    [24] 汤连生, 张龙舰, 罗珍贵. 污泥中水分布形式划分及脱水性能研究[J]. 生态环境学报,2017,26(2):309-314 10.16258/j.cnki.1674-5906.2017.02.017
    [25] 方彦彦, 田野, 王晓琳. 正渗透的机理[J]. 膜科学与技术,2011,31(6):95-100
    [26] CATH T Y, CHILDRESS A E, ELIMELECH M.Forward osmosis: Principles, applications, and recent developments[J].Journal of Membrane Science,2006,281(1/2):70-87 10.1016/j.memsci.2006.05.048
    [27] TRIPATHY S, REES S W.Suction of some polyethylene glycols commonly used for unsaturated soil testing[J].Geotechnical Testing Journal,2013,36(5):768-780 10.1520/gtj20120041
    [28] 任占强. 超声波处理活性污泥细胞破壁脱水研究[J]. 环境科学与管理,2014,39(6):105-108
    [29] 李玉瑛, 何文龙, 邓斌, 等. 超声波联合高分子絮凝剂对污泥的调理研究[J]. 工业水处理,2015,35(2):57-60 10.1520/gtj20120041
    [30] JIN L Y, ZHANG G M, ZHENG X.Effects of different sludge disintegration methods on sludge moisture distribution and dewatering performance[J].Journal of Environmental Sciences,2015,28(2):22-28 10.1016/j.jes.2014.06.040.
    [31] DENG W Y, LI X D, YAN J H, et al.Moisture distribution in sludges based on different testing methods[J].Journal of Environmental Sciences,2011,23(5):875-880 10.1016/s1001-0742(10)60518-9
    [32] CHEN G H, YUE P L, MUJUMDAR A S.Sludge dewatering and drying[J].Drying Technology,2002,20(4/5):883-916 10.1081/DRT-120003768
    [33] VAXELAIR J, CEZAC P.Moisture distribution in activated sludges: A review[J].Water Research,2004,38(9):2215-2230 10.1016/j.watres.2004.02.021
    [34] SJINNER S J, STUDER L J, DIXON D R, et al.Quantification of wastewater sludge dewatering[J].Water Research,2015, 82:2-13 10.1016/j.watres.2015.04.045
    [35] MAO H Z, CHI Y, WANG F, et al.Effect of ultrasonic pre-treatment on dewaterability and moisture distribution in sewage sludge[J].Waste and Biomass Valorization,2017,9(2):247-253 10.1007/s12649-016-9799-3
    [36] YUAN D Q, WANG Y L, QIAN X.Variations of internal structure and moisture distribution in activated sludge with stratified extracellular polymeric substances extraction[J].International Biodeterioration and Biodegradation,2017,116:1-9 10.1016/j.ibiod.2016.09.012
    [37] TURCHIULI C, FARGUES C.Influence of structural properties of alum and ferric flocs on sludge dewaterability[J].Chemical Engineering Journal,2016,103(1/2/3):123-131
    [38] KOPP J, DICHTL N.Prediction of full-scale dewatering results of sewage sludges by the physical water distribution[J].Water Science and Technology,2001,43(11):135-143
    [39] MOORE C A, DONALDSON C F.Quantifying soil microstructure using fractals[J].Geotechnique,1995,45(1):105-116 10.1680/geot.1995.45.1.105
    [40] 谢学斌, 潘长良. 露天矿排土场散体岩石粒度分布的分形特征[J]. 湘潭矿业学院学报,2003,18(3):56-59
    [41] 赵安平, 王清, 李杨, 等. 长春季冻区路基土微观孔隙特征的定量评价[J]. 工程地质学报,2008,16(2):233-238
  • 加载中
计量
  • 文章访问数:  4085
  • HTML全文浏览数:  3735
  • PDF下载数:  266
  • 施引文献:  0
出版历程
  • 刊出日期:  2018-05-19

污泥不同脱水方法的实验分析及脱水机理探讨

  • 1. 中山大学地球科学与工程学院,广州 510275
  • 2. 广东省地质过程与矿产资源探查重点实验室,广州 510275
基金项目:

广州市科技计划项目(201607010023)

摘要: 为进一步认识污泥脱水的机理,寻找更为有效的污泥脱水方法,提出了一种新的污泥中水分存在形式的划分方法,同时进行了自重、离心、盐溶液渗析脱水3种实验,并利用光学显微镜和扫描电镜等手段,对原状污泥与3种脱水后污泥的微观结构进行形态学及定量分析。自重、离心、盐溶液渗析脱水后污泥的最终含水率分别为89.4%、78.0%、28.4%,且不同脱水方式会影响污泥的微观结构,进而影响脱水效率;污泥中微生物、絮团、褶皱、裂隙及物质成分等方面是污泥中水分难以脱除的重要原因。污泥在不同的脱水阶段,水分的存在形式不同,脱水的难易程度也不同;脱水程度越高的脱水手段,其脱水后污泥的结构越紧密,孔隙率及等效孔径明显降低,可通过减小污泥内部孔隙的方式进一步提高脱水效率。

English Abstract

参考文献 (41)

目录

/

返回文章
返回