节点文献
透水道路径流系数试验研究
Experimental research of the runoff coefficient about permeable road
【摘要】 透水道路是缓解城市道路积水问题的有效途径,但现有道路的排水设计方法对于透水道路并不完全适用,为解决上述问题,利用人工降雨装置和特别设计的透水道路试验平台和流量监测系统,通过人工模拟降雨试验,研究在不同降雨条件下透水道路径流系数的变化规律。试验研究结果表明:在地形条件不发生改变的情况下,透水道路径流系数在降雨过程中呈现单峰状动态变化,并且降雨历时与降雨重现期都会影响透水道路径流系数的最大值,并与之成正相关关系;在试验条件下,径流系数随降雨强度的变化存在一个敏感区间,在此区间内,径流系数随雨强变化的速率较快;当试验工况不变且降雨强度小于50 mm/h时,透水道路的径流系数平均值为0.023,说明该条件下的透水道路可控制降雨强度50 mm/h以下的降雨不产流,即在后续排水通畅条件下,所研究透水道路可以解决多数降雨事件的道路积水问题。试验为后续透水道路径流系数的研究打下了基础,也为透水道路的排水设计提供了一定的理论依据。
【Abstract】 The permeable road is an effective way to alleviate the problem of water accumulation in urban roads, but the drainage design method of existing roads is not fully applicable to permeable roads. Using artificial rainfall device and specially designed permeable road test platform, according to the set flow monitoring system, the variation law of the flow coefficient of the permeable channel under different rainfall conditions was studied by artificial simulated rainfall experiment to solve the above problems.Experimental research results showed that:When the local shape conditions did not change, the runoff coefficient had a dynamic process with the change of rainfall intensity; Both rainfall duration and recurrence period were positively correlated with the peak value of runoff coefficient; There was a sensitive interval in the function of runoff coefficient and rainfall intensity, where, the runoff coefficient changed rapidly with the rain intensity;Under the condition of constant experimental conditions, when the rainfall intensity was less than 50 mm/h, the average value of the runoff coefficient of the permeable road was 0.023, indicating that the rainfall with rainfall intensity below 50 mm/h would not make the runoffon the permeable road under such conditions,that is to say under the condition of smooth drainage, the permeable roads can solve the problem of road water accumulation in most rainfall events.The test laid the foundation for the study of the flow coefficient of the permeable passage, and also provided a theoretical basis for the drainage design of the permeable road.
【Key words】 permeable road; dynamic runoff coefficient; rainfall intensity; low impact development; utilization of urban rainfall and flood resources; sponge city construction;
- 【文献出处】 水利水电技术 ,Water Resources and Hydropower Engineering , 编辑部邮箱 ,2019年05期
- 【分类号】TU992
- 【网络出版时间】2019-04-18 11:22
- 【被引频次】2
- 【下载频次】234