Research on Environmental Risk Assessment of Contaminated Sites Reuse

[1] Chen Hui, Chen Yang, Chen gang, etc. Study on management mode and classification method for contaminated land regeneration of heavy metal[J]. China Environmental Protection Industry, 2008: 49-53. (in Chinese).

Google Scholar

[2] Liu Wuxing LuoYongMing, Wang Dianxi. Advances and prospects in remediation technology and large-scale applications for petroleum contaminated soil[J]. The Administration and Technique of Environmental Monitoring, 2011, 23 (3) : 47-51.

Google Scholar

[3] Zhao Qinna. Study on the risk assessment and risk management of soil pollution during urban land replacement [D]. Shanghai: East China Normal University, 2006. （in Chinese）.

Google Scholar

[4] Zhao Qiguo LuoYongMing, Teng Ying. Strategic thinking on soil protection in China[J]. Acta Pedologica Sinica, 2009 (6) : 1140-1145. （in Chinese）.

Google Scholar

[5] Yu Qin fei, Hou Gong, Bai Zhongke, etc. Frame construction of national classification system for contaminated sites in China[J]. Transactions of the Chinese Society of Agricultural Engineering, 2013, 12: 228-234. （in Chinese）.

Google Scholar

[6] LuoYongMing. Contaminated Site Remediation in China: Progresses, Problems and Prospects [J]. Journal of environmental monitoring management and technology, 2011, 01: 1-6.

Google Scholar

[7] The national bureau of statistics of the People's Republic of China. China statistical yearbook 2013 [M]. Beijing: China statistics press. （in Chinese）.

Google Scholar

[8] Xie Jian, Li Fasheng. World environment authority report [R], Overview of the current situation on brownfield remediation and redevelopment in China. 2011, 3. （in Chinese）.

Google Scholar

[9] Luo YongMing. Current Research and Development in Soil Remediation Technologies.

Google Scholar

[10] Yu Qin fei, Hou Hong, Lv Liangqing, etc. Industrial enterprise relocation and their implications to contaminated site management-Beijing and Chongqing case study[J]. Urban Studies, 2010, 11: 95-100. （in Chinese）.

Google Scholar

[11] Swickard T j. Regulatory incentives to promote private sector brownfield remediation and reuse [J]. Journal of Soil & sediment contamination, 2008, 17 (2) : 121-136.

DOI: 10.1080/15320380701870393

Google Scholar

[12] Sun Zuoyu, Xie Hongbin, Yang Yingwu. Preliminary study of the environmental conflicts and their coordinating countermeasures among brownfield stakeholders[J]. Journal of environmental science and management, 2009, 10: 1-5. （in Chinese）.

Google Scholar

[13] Yang wenrui, Wang Rusong Li Feng. Organochlorine pesticides distribution and ecological risk assessment in a abandoned industrial site [J]. Acta Ecologica Sinica, 2008, 28 (11) : 5454-5460. （in Chinese）.

Google Scholar

[14] Liao Xiaoyong, Yan Xiulan, etc. Urban industrial contaminated sites: a new issue in the field of environmental remediation in China[J]. Environmental science, 2011, 01: 784-794. （in Chinese）.

Google Scholar

[15] Zhang Xiaofei, Lin Yusuo, YuFei. Typical city industrial zone soil heavy metal pollution[J]. Journal of resources and environment in Yangtze river basin, 2005, 512: 512-515. （in Chinese）.

Google Scholar

[16] Hu Erbang. Practical technology and environmental risk assessment method (second edition) [M]. Beijing: China environmental science press, 2009. （in Chinese）.

Google Scholar

[17] Hu Liumei Xie Hongbin. Analysis on environmental risk assessment of urban contaminated site reuse[J]. Urban environment and urban ecology, 2013 preceding: 6-9. （in Chinese）.

Google Scholar

[18] Zhong Zhenglin, Zeng Guangming. The development of environment risk assessment research [J]. Advances in environmental science, 1996, 4 (6) : 17-21. （in Chinese）.

Google Scholar

[19] Liu Jing TengYanGuo, Cui Yanfang etc. Review in ecological risk assessment methods for heavy metal polluted soils[J]. The Administration and Technique of Environmental Monitoring, 2007, 12 (3) : 6-22. （in Chinese）.

Google Scholar

[20] Hope B K.A. Review of models for estimating terrestrial ecological receptors exposure to chemical contaminants[ J]. Chemosphere, 1995, 30(12): 2267-2287.

DOI: 10.1016/0045-6535(95)00100-m

Google Scholar

[21] Forstner U. Lecture notes in earth sciences( contaminated sediments)[M]. Berlin: Springer Verlag, 1989: 107-109.

Google Scholar

[22] Hakanson L. An ecological risk index for aquatic pollution control. A sedimentological app roach[J]. Water Research, 1980, 14(8): 975-1001.

DOI: 10.1016/0043-1354(80)90143-8

Google Scholar

[23] Hilton J, Davison W, Ochsenbein U. A mathematical model for analysis of sediment coke data: implications for enrichment factor calculation and trace transport mechanisms[J]. Chemical Geology, 1985, 48: 281-291.

DOI: 10.1016/0009-2541(85)90053-1

Google Scholar

[24] Gu Yangguang, Wang Chaohui, Fang Jun, etc. Heavy metal distribution and ecological risk assessment in surface sediments of Daya Bay [J]. Journal of Instrumental Analysis, 2009, 28 (4) : 449-453. （in Chinese）.

Google Scholar

[25] Duan Xiaoli. Research methods of exposure factors and its application in environmental health [M]. Beijing: science press, 2012, 2. （in Chinese）.

Google Scholar

[26] The people republic of China ministry of environmental protection, brownfield risk assessment technology guideline [S]. 2014. （in Chinese）.

Google Scholar

[27] Yu yunjiang, Xiang mingdeng, Sun peng. Uncertainty in health risk assessment：a review of recent related studies[J]. Journal of Environment and Health, 2011, 09: 835-838.

Google Scholar

[28] Heinemeyer g. Sources of uncertainty [J]. Journal of Toxicology Letters, 2008, 180: S3.

Google Scholar

[29] Wang Yongjie, Jia Donghong Meng Qingbao, etc. Uncertainty analysis of health risk assessment [J]. Journal of environmental engineering, 2003 practices: + 5 to 6, 66-69. （in Chinese）.

Google Scholar