韩振宇. 中国2020年城市生活污水排放量预测及淡水资源财富GDP指标的建立. 环境科学研究, 2005,18(5):88-90 Han Zhenyu. Domestic sewage discharge forecast and countermeasures for Chinese cities in 2020. Research of Environmental Sciences, 2005,18(5):88-90(in Chinese)
[2]
Zhang Y., Chen X., Zheng X., et al. Review of water reuse practise and development in China. Water Sci. Technol., 2007,55(1-2):495-502
[3]
李本高, 汪燮卿. 污水回用技术进展与发展趋势. 工业水处理, 2006,37(4):1-6 Li Bengao, Wang Xieqing. Improvement and development trend of wastewater reuse technology. Industrial Water Treatment, 2006,37(4):1-6(in Chinese)
[4]
刘国平. 混凝和活性炭吸附配合去除水中有机物. 水处理技术, 1988,14(2):111-114 Liu Guoping. Combination of coagulation and activated carbon adsorption to remove organic compounds. Technology of Water Treatment, 1988,14(2):111-114(in Chinese)
[5]
汤鸿霄. 无机高分子絮凝剂的几点新认识. 工业水处理, 1997,17(4):1-5 Tang Hongxiao. Some new concepts in the development of inorganic polymer flocculants. Industrial Water Treatment, 1997,17(4):1-5(in Chinese)
[6]
田秉晖, 潘纲, 栾兆坤. 阳离子聚电解质强化絮凝去除有机污染物的化学成因. 化学进展, 2007,19(2/3):205-211 Tian Binghui, Pan Gang, Luan Zhaokun. Chemical characteristics of enhanced flocculation removal of organic pollutants by cationic polyelectrolytes. Progress in Chemistry, 2007,19(2/3):205-211(in Chinese)
[7]
许保玖, 龙腾跃. 当代给水与废水处理原理.北京:高等教育出版社, 1999
[8]
Chen Y., Senesi N., Schnitzer M. Information provided on humic substances by E4/E6 ratios. Soil Sci. Soc. Am. J., 1977,41(2):352-358
[9]
Hem L. J., Efraimsen H. Assimilable organic carbon in molecular weight fractions of natural organic matter. Wat. Res., 2001,35(4):1106-1110
[10]
Yan M. Q., Wang D. S., You S. J., et al. Enhanced coagulation in a typical North-China water treatment plant. Wat. Res., 2006,40(19):3621-3627
[11]
徐志嫱, 黄廷林, 王晓昌,等. 城市污水再生回用潜力的优化分析.中国给水排水, 2006,22(11):18-21 Xu Zhiqiang, Huang Tinglin, Wang Xiaochang, et al. Optimal analysis on potential of urban wastewater reclamation and reuse. China Water & Wastewater, 2006,22(11):18-21(in Chinese)
[12]
Nowack K. O., Cannon F. S., Arora H. Ferric chloride plus GAC for removing TOC. J. AWWA, 1999,91(2):65-78
[13]
Stephenson R. J., Duff S. J. B. Coagulation and precipitation of a mechanical, pulping effluent:Ⅰ. Removal of carbon, color and turbidity. Wat. Res., 1996,30(4):781-792
[14]
Ernesto Coro, Shonali Laha. Color removal in groundwater through the enhanced softening process. Wat. Res., 2001,35(7):1851-1854
[15]
Jiang J. Q., Graham N. J. D., Harward C. Coagulation of upland colored water with polyferric sulphate compared to conventional coagulants. Journal of Water Supply: Research and Technology-AQUA, 1996,45(3):143-154
[16]
王占生, 刘文君. 微污染水源饮用水处理. 北京: 中国建筑工业出版社, 1999
[17]
Ronald L. Malcolm. Factors to be considered in the isolation and characterization of aquatic humic substances. Earth and Environmental Science, 1991,33(1):7-36
[18]
Aiken G. R., Mcknight D. M., Thorn K. A., et al. Isolation of hydrophilic organic acids from water using nonionic macroporous resins. Organic Geochemistry, 1992,18(4):567-573
[19]
乔春光, 魏群山, 王东升,等. 典型南方水源溶解性有机物分子量分布变化及去除特性.环境科学学报, 2007, 27(2):195-200 Qiao Chunguang, Wei Qunshan, Wang Dongsheng, et al. Molecular weight distribution and removal characters of DOM in the typical source water in south of China. Acta Scientiae Circumstantiae, 2007,27(2):195-200(in Chinese)
[20]
蔡金傍, 李文奇, 逄勇,等. 洋河水库富营养化限制性因子分析. 水资源保护, 2007,23(3):52-55 Cai Jinbang, Li Wenqi, Pang Yong, et al. Limiting factors of eutrophication in Yanghe Reservoir. Water Resources Protection, 2007,23(3):52-55(in Chinese)
[21]
万俊力, 王晓昌, 金鹏康. 铝盐和铁盐对腐植酸混凝特性的比较. 净水技术, 2008,27(1):16-19 Wan Junli,Wang Xiaochang,Jin Pengkan. Comparison of the properties of coagulation between alum sulfate and ferric chloride with humic acids. Water Purification Technology, 2008,27(1):16-19(in Chinese)
[22]
龚剑丽, 刘勇弟, 孙贤波,等. 城市污水二级生化出水中有机污染物特性表征. 环境化学, 2007,26(5):706-707 Gong Jianli, Liu Yongdi, Sun Xianbo, et al. Characterization of organic pollutants in secondary effluent from municipal wastewater treatment plant. Environmental Chemistry, 2007,26(5):706-707(in Chinese)
[23]
Virjenhoek E. M.Removing particles and THMs precursors by enhanced coagulation. J. AWWA, 1998,90(4):139-150
[24]
谷洁, 李生秀, 秦清军,等. 微生物及胡敏酸E4/E6值在农业废弃物静态高温腐解中的变化. 西北农林科技大学学报(自然科学版), 2005,33(12):98-102 Gu Jie, Li Shengxiu, Qin Qingjun, et al. Changes of microorganisms and E4/E6 in agricultural waste materials during composting in static state with high temperature. Jour. of Northwest Sci-Tech Univ. of Agri. and For. (Nat. Sci. Ed.), 2005,33(12):98-102(in Chinese)
