CAJ | 학술논문

为控制太湖流域农业面源污染,设计了一种可以有效减少农田排水氮磷含量、控制水头的氮磷拦截潜流坝.该文介绍了该潜流坝的结构特点、建造方法及工作原理,并根据设计构建了实体氮磷拦截潜流坝,同时进行了数据监测.结果表明该氮磷拦截潜流坝运行稳定、控制农业面源污染效果良好.其中水体铵态氮的平均去除率较不建造潜流坝提高了8.3%;总氮的去除率平均提高了7.2%;总磷的去除率平均提高了17%.因此,该氮磷拦截潜流坝可作为农业面源污染氮磷拦截系统中的重要部分.
위공제태호류역농업면원오염,설계료일충가이유효감소농전배수담린함량、공제수두적담린란절잠류패.해문개소료해잠류패적결구특점、건조방법급공작원리,병근거설계구건료실체담린란절잠류패,동시진행료수거감측.결과표명해담린란절잠류패운행은정、공제농업면원오염효과량호.기중수체안태담적평균거제솔교불건조잠류패제고료8.3%;총담적거제솔평균제고료7.2%;총린적거제솔평균제고료17%.인차,해담린란절잠류패가작위농업면원오염담린란절계통중적중요부분.
In order to control non-point pollution in Taihu Lake Basin, the technique of subsurface flow dam (SFD) was designed for intercepting nitrogen and phosphorus in farmland drainage . To reduce the content of nitrogen and phosphorus in farmland drainage, SFD presented the features of controlling the hydraulic retention time and the hydraulic head. Two same ponds were built in the field, including ecological pond 1 (22 m×45m×1 m) , and ecological pond 2 (25.3 m×45 m×1 m) with two SFD (24 m2) and Artificial island (100 m2). The SFD, 6m×4 m×0.8m (long×wide×high), was made of hollow brick and filled with gravel. Gravel with diameter between 5-8 cm was filled at one end of the intake, and the diameter of the gravel gradually decreased to 1-2 cm along with the direction of flow at the other end of intake. A 40 cm soil layer was paved at the top of the gravel layer. The overflow pipe with 20 cm diameter was placed at the site 50 cm from the bottom of SFD. Five species of free floating plants, emergent plants, submerged plants, revetment plants and shrub were used in this study. After planting, the units were flooded. The two types of experimental wetlands were run in parallel under identical conditions for 3a. The results showed that SFD for nitrogen and phosphorus interception was more stable in the nitrogen and phosphorus treatment and had a better treatment effect and landscape benefit, and could ensure the quality of final effluent water. Meanwhile, the level of dissolved NH4+-N, TN and PO4--P in the effluent of the constructed wetlands increased to a range of 8.3%, 7.2% and 17% by flowing though SFD, respectively. SFD for nitrogen and phosphorus interception is very efficient in the treatment of nitrogen and phosphorus for agricultural non-point source pollution, and can be one of the effective technologies for treating the non-point pollution in farmland drainage in Taihu Lake Basin.