| [1] | Knowles P. R., Griffin P., Davies P. A. Complementary methods to investigate the development of clogging within a horizontal sub-surface flow tertiary treatment wetland. Water Research, 2010,44(1): 320-330 |
| [2] | Cooper D., Griffin P., Cooper P. F. Factors affecting the longevity of sub-surface horizontal flow systems operating as tertiary treatment for sewage effluent. In: Vymazal, J., Wastewater Treatment, Plant Dynamics and Management in Constructed and Natural Wetlands. Backhuys Publishers, Leiden, The Netherlands, 2008 |
| [3] | 陈腾殊, 白少元, 王敦球, 等. 基质结构对水平潜流人工湿地净化效果影响. 环境工程学报, 2012,6(10):3449-3454 Chen Tengshu, Bai Shaoyuan, Wang Dunqiu, et al. Effect of substrate structure on the purification performances of horizontal subsurface flow constructed wetlands. Chinese Journal of Environmental Engineering, 2012,6(10):3449-3454 (in Chinese) |
| [4] | Claudiane O. P., Florent C., Yves C. Artificial aeration to increase pollutant removal efficiency of constructed wetlands in cold climate. Ecological Engineering, 2006,27(3):258-264 |
| [5] | Zhang L. Y., Zhang L., Liu Y. D., et al. Effect of limited artificial aeration on constructed wetland treatment of domestic wastewater. Desalination, 2010, 250 (3):915-920 |
| [6] | Wieβner U., Kappelmeyer U., Kuschk P., et al. Influence of the redox condition dynamics on the removal efficiency of a laboratory-scale constructed wetland. Water Research, 2005, 39 (1) 248-256 |
| [7] | Gabriel M. L., Roxane M., Jacques B., et al. Nitrogen transformations and retention in planted andartificially aerated constructed wetlands. Water Research, 2009,43(2):535-545 |
| [8] | Chazarenc F., Gagnon V., Comeau Y., et al. Effect of plant and artificial aeration on solids accumulation and biological activities in constructed wetlands. Water Research, 2009, 35(6):1005-1010 |
| [9] | Chazarenc F.,Merlin G.,Gonthier Y. Hydrodynamics of horizontal subsurface flow constructed wetlands. Ecological Engineering,2003,21(2):165-173 |
| [10] | Ta C. T., Brignal W. J. Application of computational fluid dynamics technique to storage reservoir studies. Water Science and Technology, 1998, 137(2): 219-226 |
| [11] | Thackston E. L., Shields J. F. D., Schroeder P. R. Residence time distribution of shallow basins. Ecological Engineering, 1987, 113(6): 1319-1332 |
| [12] | Persson J., Somes N. L. G., Wong T. H. F. Hydraulics efficiency of constructed wetlands and ponds. Water Science and Technology, 1999,140(3):291-300 |
| [13] | 宋新山, 张涛, 严登华, 等. 不同布水方式下水平潜流人工湿地的水力效率. 环境科学学报, 2010, 30 (1): 117-123 Song X. S., Zhang T., Yan D. H., et al. Hydraulic efficiency of horizontal subsurface flow constructed wetlands for differential inflow configuration. Acta Scientiae Circumstantiae, 2010, 30 (1): 117-123 (in Chinese) |
| [14] | Ronkanen A. K., Klve B. Hydraulics and flow modeling of water treatment wetlands constructed on peat lands in Northern Finland. Water Research, 2008,42(14): 3826-3836 |
| [15] | 宋新山, 邓伟.基于连续性扩散流的湿地表面水流动力学模型.水利学报,2007,37(10): 1166-1171 Song Xin shan, Deng Wei. Mathematical model for continuous diffusion flow on wetland surface. Journal of Hydraulic Engineering, 2007,37(10): 1166-1171 (in Chinese) |