| [1] | 彭利群, 张澄博, 李洪艺, 等. 介质材料在可渗透反应墙中的应用进展. 环境科学与管理, 2011, 36(10): 47-52 Peng Liqun,Zhang Chengbo,Li Hongyi,et al. Application progress of reactive media materials in permeable reactive barrier.Environmental Science and Management, 2011, 36(10): 47-52 (in Chinese) |
| [2] | Phillips D. H., Nooten T. V., Bastiaens L., et al. Ten year performance evaluation of a field-scale zero-valent iron permeable reactive barrier installed to remediate trichloroethene contaminated groundwater. Environ. Sci. Technol., 2010, 44 (10): 3861-3869 |
| [3] | Moraci N., Calabrò P. S. Heavy metals removal and hydraulic performance in zero-valent iron/pumice permeablereactive barriers.Journal of Environmental Management,2010, 91(10): 2336-2341 |
| [4] | 骆其金, 谌建宇, 许振成, 等. 适用于污染河水修复的可渗透反应墙材料筛选. 水处理技术, 2010,36(3):55-58 Luo Qijin, Chen Jianyu, Xu Zhencheng, et al. Screening of there active media of the permeable reactive barriers(PRB) for remediation of polluted river water. Technology of Water Treatment, 2010, 36(3):55-58 (in Chinese) |
| [5] | 熊玲, 张瑞雪, 吴攀, 等. 碳酸盐岩处理煤矿酸性废水的试验研究. 水处理技术, 2010, 36(8):45-48 Xiong Ling, Zhang Ruixue, Wu Pan, et al. Experimental study on acid coal mine drainage treatment with carbonate. Technology of Water Treatment, 2010, 36(8):45-48 (in Chinese) |
| [6] | Walker D. J., Bernal M. P. The effects of olive mill waste compost and poultry manure on the availability and plant uptake of nutrients in a highly saline soil. Bioresource Technology, 2008, 99(2): 396-403 |
| [7] | Brown S. L., Chaney R. L., Angle J. S., et al. Phyto remediation potential of thlaspicaerulescens and bladder campion for zinc and cadmium contaminated soil. Journal of Environmental Quality, 1994, 23(6): 1151-1157 |
| [8] | 范建军,张华,谢震震.堆肥在土壤生物修复和污染控制中的应用. 环境卫生工程, 2005, 13(3): 46-49 Fan Jianjun, Zhang Hua, Xie Zhenzhen. Use of compost in bioremediation and pollution prevention. Enviromental Sanitation Engineering, 2005,13 (3):46-49 (in Chinese) |
| [9] | Martin A. J., Jones K. D., Ren Jianhong,et al. Compost product optimization for surface water nitrate treatment in biofiltration applications. Bioresource Technology, 2009, 100(17): 3991-3996 |
| [10] | Fordham W. Yard trimmings composting in the air force. Biocycle, 1995, 36 (1): 36-44 |
| [11] | Ergas S. J., Schroeder E. D., Chang D. P. Y., et al. Control of volatile organic compound emissions using a compost biofilter. Water Environment Research, 1995, 679(5): 816-821 |
| [12] | Arikan O. A., Sikora L. J., Mulbry W., et al. Composting rapidly reduces levels of extractable oxytetracyclinein manure from therapeutically treated beef calves. Bioresource Technology, 2007, 98(1): 169-176 |
| [13] | Ludwig R. D., Smyth D. J. A., Blowes D. W., et al.Treatment of arsenic, heavy metals, and acidity using mixed ZVI-compost PRB. Environ. Sci. Technol., 2009, 43 (6):1970-1976 |
| [14] | 李雅, 张增强, 邵淼. 堆肥-零价铁混合PRB处理铬污染地下水. 农业机械学报, 2010, 41(9): 110-113 Li Ya, Zhang Zengqiang, Shao Miao. Treatment of Cr-polluted groundwater using a mixed ZVI-compost PRB. Transactions of the Chinese society for Agricultutal Machinery, 2010, 41(9): 110-113 (in Chinese) |
| [15] | 国家环境保护总局. 水和废水检测分析方法(第4版). 北京: 中国环境科学出版社, 2002 |
| [16] | 朱凤香, 王卫平, 陈晓旸,等.堆肥在环境修复与农业生产中应用的研究进展. 浙江农业学报, 2008, 20 (6):491-495 Zhu Fengxiang, Wang Weiping, Chen Xiaoyang, et al. Study progress on application of compost in environmental remediation and agricultural production. Acta Agriculturae Zhejiangensis, 2008,20 (6):491-495 (in Chinese) |
| [17] | Dickinson M., Scott T. B. The application of zero-valent iron nanoparticles for the remediation of a uranium-contaminated waste effluent. Journal of Hazardous Materials, 2010, 178(1-3): 171-179 |
| [18] | Biterna M., Antonoglou L., Lazou E., et al. Arsenite removal from waters by zero valent iron: Batch and column tests. Chemosphere, 2010, 78(1): 7-12 |
| [19] | Ponder S. M., Darab J. G., Malloukt E. Remediation of Cr(Ⅵ) and Pb(Ⅱ) aqueous solutions using supported, nanoseale zero-valent iron. Environ. Sci. & Technol., 2000, 34(12): 2564-2569 |
| [20] | Robertson W. D., Blowes D. W., Ptacek C. J., et al. Long-term performance of in situ reactive barriers for nitrate remediation. Ground Water, 2000, 38(5): 689-695 |
| [21] | Greenan C. M., Moorman T. B., Kaspar T. C. Comparing carbon substrates for denireification of subsurface drainage water. Journal of Environmental Quality, 2006, 35(3): 824-829 |
| [22] | Noubactep C., Schöner A. Metallic iron for environmental remediation: Learning from electrocoagulation. Journal of Hazardous Materials, 2010, 175(1-3): 1075-1080 |