[1] JING L D, WU C X, LIU J T, et al. The Effects of Dredging on Nitrogen Balance in Sediment-water Microcosms and Implications to Dredging Projects[J]. Ecological Engineering, 2013, (52): 167-174.
[2] 郑超海, 范成新, 逢 勇. 太湖底泥的污染控制及修复技术的可行性应用探讨[J]. 污染防治技术,2003, 16(4): 23-26.(ZHENG Chao-hai, FAN Cheng-xin, FENG Yong. Discussion on Feasible Application of Pollution Control and Remediational Techniques to Sediment of Taihu Basin [J]. Pollution Control Technology, 2003, 16(4):23-26. (in Chinese ))
[3] 钟继承, 范成新. 底泥疏浚效果及环境效应研究进展[J]. 湖泊科学,2007, 19 (1): 1-10. (ZHONG Ji-cheng, FAN Cheng-xin. Advance in the Study on the Effectiveness and Environmental Impact of Sediment Dredging [J]. Journal of Lake Sciences, 2007, 19 (1): 1-10. (in Chinese))
[4] 郑 杰. 城市湖泊清淤工程的探讨[J]. 中国农村水利水电,2010, 9(5): 43-47. (ZHENG Jie. Discussion on Urban Lake Dredging Projects [J]. China Rural Water and Hydropower, 2010, 9(5): 43-47. (in Chinese))
[5] 和丽萍, 陈异晖, 赵祥华. 云南高原湖泊污染底泥环境疏浚工程设计要点问题探析[J]. 云南环境科学,2006, 2 (增1): 40-42. (HE Li-ping, CHEN Yi-hui, ZHAO Xiang-hua. Analysis on Main Designing Problems of Environmental Dredging of Polluted Sediment in Plateau Lakes of Yunnan [J]. Yunnan Environmental Science, 2006, 2 (Sup.1): 40-42. (in Chinese))
[6] 陈德林, 赵 勇, 顾新刚, 等. 东太湖疏浚对河网环境影响的研究[J]. 水资源保护,2006, 22 (3): 30-32. (CHEN De-lin, ZHAO Yong, GU Xin-gang, et al. Study on the Environmental Impact on River Network Caused by Dredging in East Lake Taihu Lake[J]. Water Resources Protection, 2006, 22 (3):30-32. (in Chinese))
[7] 范成新, 张 路, 王建军, 等. 湖泊底泥疏浚对内源释放影响的过程与机理[J]. 科学通报,2004, 49 (15): 1523-1528. (FAN Cheng-xin, ZHANG Lu, WANG Jian-jun, et al. Process and Mechanism of Lake Sludge Dredging Effects on Endogenous Release [J]. Chinese Science Bulletin, 2004, 49 (15): 1523-1528. (in Chinese))
[8] 邵玉芳, 何 超, 楼庆庆. 西湖疏浚淤泥的固化试验[J]. 江苏大学学报,2007, 28 (5): 441-445. (SHAO Yu-fang, HE Chao, LOU Qing-qing. Stabilization of Dredged Silt from West Lake [J]. Journal of Jiangsu University, 2007, 28 (5): 441-445. (in Chinese))
[9] 苏德纯, 胡育峰, 宋崇渭, 等. 官厅水库坝前疏浚底泥的理化特征和土地利用研究[J]. 环境科学,2007, 28 (6): 1319-1323. (SU De-chun, HU Yu-feng, SONG Chong-wei, et al. Physicochemical Properties of Guanting Reservoir Sediment and Its Land Application [J]. Environmental Science, 2007, 28 (6):1319-1323. (in Chinese))
[10]张云霞, 王立彤, 王 馨,等. 天津大沽排污河清淤污泥填埋场设计方案[J]. 中国给水排水,2006, 22 (8): 46-50. (ZHANG Yun-xia, WANG Li-tong, WANG Xin, et al. Design Scheme on Landfill Site of Dredged Sediment from Dagu River [J]. China Water & Waste Water, 2006, 22 (8): 46-50. (in Chinese))
[11]李 华, 孙福奎, 陈 超, 等. 污泥机械脱水与热干化脱水的经济性比较[J]. 中国给水排水,2012, 28(23): 143-144. (LI Hua, SUN Fu-kui, CHEN Chao, et al. Economic Comparison between Sludge Mechanical Dewatering and Sludge Thermal Drying [J]. China Water & Waste Water, 2012, 28 (23): 143-144. (in Chinese))
[12]陈 剑, 刘露莹. 污泥脱水用离心机的絮凝剂耗用量调式研究[J]. 中国给水排水,2012, 28 (9): 97-100. (CHEN Jian, LIU Lu-ying. Flocculant Consumption of Centrifuge for Sludge Dewatering [J]. China Water & Waste Water, 2012, 28 (9): 97-100. (in Chinese))
[13]陈雄峰, 荆一凤, 吕 鳢, 等. 电渗法对太湖环保疏浚底泥脱水干化研究[J]. 环境科学研究,2006, 19(5):54-58. (CHEN Xiong-feng, JING Yi-feng, LV Li, et al. The Research of Environmental Dredged Sludge Dewatering in Taihu Lake by Electro-Osmotic [J]. Research of Environmental Sciences, 2006, 19 (5):54-58. (in Chinese))
[14]柴朝晖, 杨国录, 刘林双, 等. 污泥机械脱水前处理方法研究进展[J]. 南水北调与水利科技,2010, 8(5): 157-161. (CHAI Zhao-hui, YANG Guo-lu, LIU Lin-shuang, et al. Advances in the Pretreatment Methods for Sludge Mechanical Dewatering [J]. South-to-North Water Transfers and Water Science&Technology, 2010, 8(5): 157-161. (in Chinese))
[15]ROBINSON J, KNOCKE R W. Use of Dilatometric and Drying Techniques for Assessing Sludge Dewatering Characteristics[J]. Water Environmental Research, 1992, 64(1): 60-68.
[16]VESILIND P A. The Role of Water in Sludge Dewatering[J]. Water Environmental Research, 1994, 66 (1): 4-11.
[17]GLENDINNING S, LAMONT-BLACK J, JONES C J F P. Treatment of Sewage Sludge using Electrokinetic Geosynthetics[J]. Journal of Hazardous Materials, 2007, 139 (3): 491-499.
[18]BRENDAN O K. Geotechnical Properties of Municipal Sewage Sludge[J]. Geotechnical and Geological Engineering, 2006, 24 (4): 833-850.
[19]毛艳丽, 张延风, 罗世田, 等. 水处理用絮凝剂机理及研究进展[J]. 华中科技大学学报(城市科学版),2008, 25 (2): 78-82. (MAO Yan-li, ZHANG Yan-feng, LUO Shi-tian, et al. Advances in Flocculation Mechanisms and Research of Water-treatment Flocculants [J]. Journal of HUST (Urban Science Edition), 2008, 25(2):78-82. (in Chinese))
[20]胡保安. 环保疏浚泥浆脱水干化技术研究进展[J]. 水资源与水工程学报,2009, 20(4): 132-136. (HU Bao-an. Research Progress on the Dewatering Technologies for Environmental Dredge Sediment [J]. Journal of Water Resources & Water Engineering, 2009, 20(4): 132-136. (in Chinese))
[21]毕 涛, 西伟力, 王旭东, 等. 絮凝剂在河湖污泥脱水中的应用研究[J]. 环境科学与管理,2012, 37(1): 113-119. (BI Tao, XI Wei-li, WANG Xu-dong, et al. The Application and Research of Flocculants in Dehydration of Lake Sludge [J]. Environmental Science and Management, 2012, 37(1): 113-119. (in Chinese))
[22]霍守亮, 荆一凤, 程 静. 环保疏浚余水处理试验研究[J]. 环境科学研究,2005, 18 (1): 49-52. (HUO Shou-liang, JING Yi-feng, CHENG Jing, et al. Experimental Research on Residual Water Treatment for Environmental Dredging [J]. Research of Environmental Science, 2005, 18 (1): 49-52. (in Chinese))
[23]刘林双, 杨国录, 王党伟. 絮凝剂比例以及淤泥浓度对淤泥脱水速率的影响[J]. 南水北调与水利科技,2009, 7 (4): 57-59. (LIU Lin-shuang, YANG Guo-lu, WANG Dang-wei. Effects of Silt Density and Flocculent Proportion 011 Flocculent Silt Dehydration [J]. South-to-North Water Transfers and Water Science & Technology, 2009, 7 (4):57-59. (in Chinese))
[24]王党伟, 杨国录. 淤泥絮凝脱水试验研究及水铰链假说的提出[J]. 水利水运工程学报,2011, (4): 69-73. (WANG Dang-wei, YANG Guo-lu. Research on Hydrogel Chain Theory in Sludge Dehydrating by Flocculating [J]. Hydro-Science and Engineering, 2011, (4): 69-73. (in Chinese))
[25]HAMIR R B, JONES C J F P, CLARKE B G. Electrically Conductive Geosynthetics for Consolidation and Reinforced Soil [J]. Geotextiles and Geomembranes, 2001, 19 (8): 455-482.
[26]周家祥, 余 鹏, 刘 铮. 水平电场污泥脱水过程[J]. 化工学报,2001, 52 (7): 635-638. (ZHOU Jia-xiang, YU Peng, LIU Zheng. Sludge Dewatering in Horizontal Electric Field [J]. Journal of Chemical Industry and Engineering, 2001, 52 (7): 635-638. (in Chinese))
[27]戴鼎立, 何圣兵, 陈雪初,等. 湖库环保疏浚底泥的脱水干化技术研究进展[J]. 净水技术,2012, 31 (1): 80-85. (DAI Ding-li, HE Sheng-bing, CHEN Xue-chu, et al. Advances in Research on Dewatering and Drying Technology of Sediment Sludge from Lakes and Reservoirs Environmental Dredging [J]. Water Purification Technology, 2012, 31(1):80-85. (in Chinese))
[28]YUAN SH, SHU Z, WAN J Z, et al. Enhanced Desorption of Hexachlorobenzene from Kaolin by Single and Mixed Surfactants [J]. Journal of Colloid and Interface Science, 2007, 314 (1): 167-175.
[29]REDDY K R, SAICHEK R E. Effect of Soil Type on Electrokinetic Removal of Phenanthrene Using Surfactants and Cosolvents [J]. Journal of Environmental Engineering-ASCE, 2003, 129 (4): 336-346.
[30]冯 源, 詹良通, 陈云敏. 城市污泥电渗脱水实验研究[J]. 环境科学学报,2012, 32 (5): 1081-1087. (FENG Yuan, ZHAN Liang-tong, CHEN Yun-min, et al. Laboratory Study on Electro-osmosis Dewatering of Sewage Sludge [J]. Acta Scientiae Circumstantiae, 2012, 32 (5): 1081-1087. (in Chinese))
[31]WEBER K, STAHL W. Improvement of Filtration Kinetics by Pressure Electrofiltration [J]. Separation and Purification Technology,2002,(1),DOI:10.1016/S1383-5866(01)00118-6.
[32]冉光兴, 曹 卉, 李 巍. 东钱湖底泥环境特征与疏浚方案[J]. 水利水电科技进展,2007, 27 (2): 73-76. (RAN Guang-xing , CAO Hui, LI Wei, et al. Environmental Characteristics and Dredging Scheme for Sediment of Dongqian Lake [J]. Advances in Science and Technology of Water Resources, 2007, 27 (2): 73-76.
[33]KAWALA Z, ATAMANCZUK T. Microwave Enhanced Thermal Decontamination of Soil [J]. Environmental Science & Technology, 1998, 32 (17): 2602-2607.
[34]马殿旗, 姜 楠, 王 涛, 等. 污泥好氧堆肥工艺技术经济分析[C]∥第五届世界水大会论文集(下).北京:中华人民共和国建设部与国际水协会,2006: 55-57. (MA Dian-qi, JIANG Nan, WANG Tao, et al. Economic Analysis of Sludge Aerobic Composting Technology [C]∥Proceedings of the 5th IWA World Water Congress (Second Volume). Beijing: Ministry of Construction of P.R.C and International Water Association, 2006: 55-57. (in Chinese))
[35]MULLIGAN C N, YONG R N, GIBBS B F. Remediation Technologies for Metal-contaminated Soils and Groundwater: An Evaluation[J]. Engineering Geology, 2001, 60(1-4): 193-207.
[36]刘汉桥, 刘彦博, 张曙光,等. 利用垃圾焚烧飞灰固化污染底泥的实验研究[J]. 天津城市建设学院学报,2010, 16 (1): 31-34. (LIU Han-qiao, LIU Yan-bo, ZHANG Shu-guang, et al. Experimental Study on Solidifying Contaminated Sediment via Waste Incineration Fly Ash [J]. Journal of Tianjin Institute of Urban Construction, 2010, 16 (1): 31-34. (in Chinese))
[37]曹金清, 王 峥, 王朝旭, 等. 污染水体底泥治理技术研究进展[J]. 环境科学与管理,2007,32(7):106-109. (CAO Jin-qing, WANG Zheng, WANG Zhao-xu, et al. Research on Disposition Techniques for Polluted Sediment of Water Body [J]. Environmental Science and Management, 2007, 32 (7): 106-109. (in Chinese))
[38]李润东, 张万里, 孙 洋, 等. 污泥热干化技术适应性分析及未来发展趋势[J]. 可再生能源,2012, 30(5): 95-99. (LI Run-dong, ZHANG Wan-li, SUN Yang, et al. Adaptability Analysis and Future Development Trend of Sludge Thermal Drying Technology [J]. Renewable Energy Resources, 2012, 30 (5): 95-99. (in Chinese))
[39]杨小文, 杜英豪. 污泥热干化在美国的应用[J]. 中国给水排水,2002, 18 (1): 90-92. (YANG Xiao-wen, DU Ying-hao. Sludge Thermal Dying Application in the United States [J]. China Water & Wastewater, 2002, 18 (1): 90-92. (in Chinese))
[40]隆 晓, 王 远, 许 超. 城市生活污泥与底泥混合堆肥试验研究[J]. 环境科技,2011, 24 (2): 10-12. (LONG Xiao, WANG Yuan, XU Chao. Study on Composting Process of Municipal Sewage Sludge and Dredged Sediment [J]. Environmental Science and Technology, 2011, 24 (2): 10-12. (in Chinese))
[41]季俊杰, 何成达, 葛丽英, 等. 氧化塘底泥堆肥过程氮磷及重金属变化研究[J]. 环境科学与技术,2006, (12): 20-21. (JI Jun-jie, HE Cheng-da, GE Li-ying, et al. Nitrogen and Phosphorus Transformation in Composting of Oxidation Pond Sludge [J]. Environmental Science & Technology, 2006, (12): 20-21. (in Chinese))
[42]吕志刚, 杨艳丽, 徐 敏. 河湖疏浚底泥与固废物好氧堆肥研究[J]. 环境科技,2010, 23 (2): 16-18. (LV Zhi-gang, YANG Yan-li, XU Min. Research on Aerobic Co-composting of Water Systems Dredged Sediment and Solid Waste [J]. Environmental Science and Technology, 2010, 23 (2): 16-18. (in Chinese))
[43]钱嫦萍, 王东启, 陈振楼, 等. 生物修复技术在黑臭河道治理中的应用[J]. 水处理技术,2009, 35 (4): 13-17. (QIAN Chang-ping, WANG Dong-qi, CHEN Zhen-lou, et al. Progress of Bioremediation for Controlling Blackening and Stink of Rivers [J]. Technology of Water Treatment, 2009, 35 (4): 13-17. (in Chinese))
[44]CHEN G Q, ZENG G M, TU X, et al. A Novel Biosorbent: Characterization of the Spent Mushroom Compost and Its Application for Removal of Heavy Metals [J]. Journal of Environmental Sciences, 2005, 17 (5): 756-760.
[45]ZHAO L, ZHU C, GAO C, et al. Phytoremediation of Pentachlorophenol-contaminated Sediments by Aquatic Macrophytes [J]. Environmental Earth Sciences, 2011, 64 (2): 581-588.
[46]ACAR Y B, ALSHAWABKEH A N. Principles of Electrokinetic Remediation [J]. Environmental Science & Technology, 1993, 27 (13): 2638-2647.
[47]LI T P, YUAN S H, WAN J Z, et al. Pilot-scale Electrokinetic Movement of HCB and Zn in Real Contaminated Sediments Enhanced with Hydroxypropyl-beta-cyclodextrin [J]. Chemosphere, 2009, 76 (9): 1226-1232.
[48]NYSTROEM G M, OTTOSEN L M, VILLUMSEN A. Electrodialytic Removal of Cu, Zn, Pb, and Cd from Harbor Sediment:Influence of Changing Experimental Conditions[J]. Environmental Science & Technology 2005, (39): 2906-2911.
[49]NYSTROM G M, OTTOSEN LM, VILLYSEN A. Test of Experimental Set-ups for Electrodialytic Removal of Cu, Zn, Pb and Cd from Different Contaminated Harbour Sediments [J]. Engineering Geology, 2005, 77(3/4):349-357.
[50]林丹妮, 谢国棵, 曾彩明, 等. 不同电压对重金属污染河涌底泥电动修复效果的影响[J]. 华南农业大学学报,2009, 30 (3): 8-12. (LIN Dan-ni, XIE Guo-ke, ZENG Cai-ming, et al. Effect of Different Applied Voltage on Electro-kinetic Removal of Heavy Metals from Sediment [J]. Journal of South China Agricultural University, 2009, 30 (3): 8-12. (in Chinese))
[51]解清杰, 何 佳, 黄卫红, 等. 六氯苯污染底泥的电动力学修复[J]. 华中科技大学学报(自然科学版),2006, 34 (6): 111-114. (XIE Qing-jie, HE Jia, HUANG Wei-hong, et al. Study of Electro-kinetic Remediation for HCB Containing Sediment [J]. Journal of Huazhong University of Science & Technology (Natural Science Edition), 2006, 34 (6): 111- 114. (in Chinese))
[52]TUAN P A, SILLANPAA M. Migration of Ions and Organic Matter During Electro-dewatering of Anaerobic Sludge [J]. Journal of Hazardous Materials, 2010, 173 (1-3): 54-61.
[53]刘贵云, 奚旦立. 利用河道底泥制备陶粒的试验研究 [J]. 东华大学学报(自然科学版),2003, 29(4):81-83. (LIU Gui-yun, XI Dan-li. Experiment on Producing Ceramist with River Sediment [J]. Journal of Donghua University, 2003, 29 (4): 81-83. (in Chinese))
[54]刘志刚. 底泥疏浚工程中余水处理技术[C]∥2012全国河道治理与生态修复技术汇总.北京:中国水利技术信息中心,2012: 189-193. (LIU Zhi-gang. Residual Water Treatment Technologies for Environmental Dredging [C]∥Proceedings of the 2012 Conference of River Treatment and Ecological Remediation Technologies. Beijing: China Information Center for Hydro-technology, 2012: 189-193. (in Chinese))
