种植土-碎石绿化带雨水入渗的数值分析  被引量：4

作　　者：程树斌 张春会 关彤军[2] 戴凌云 赵彦辉 马志中 CHENG Shubin;ZHANG Chunhui;GUAN Tongjun;DAI Tfngyun;ZHAO Yanhui;MA Zhizhong(Shijiazhuang Municipal Construction Management Office,Shijiazhuang,Hebei 050000,China;Shijiazhuang Municipal Design & Research Co.,Ttd.,Shijiazhuang,Hebei 050000,China;School of Civil Engineering,Hcbfi University of Science and Technology,Shijiazhuang,Hebei 050018.China)

机构地区：[1]石家庄市市政建设管理处,河北石家庄050000 [2]石家庄市政设计研究院有限责任公司,河北石家庄050000 [3]河北科技大学建筑工程学院,河北石家庄050018

出　　处：《河北科技大学学报》2019年第1期79-85,共7页Journal of Hebei University of Science and Technology

基　　金：国家自然科学基金(51574139);河北省重点科技研发项目(18276109D;15275409D)

摘　　要：为分析理论解析法求解种植土-碎石绿化带雨水入渗问题的合理性,建立了非饱和种植土-碎石绿化带雨水入渗的有限元模型,模型上边界设置储水表皮,模拟雨水入渗和积蓄,下边界为饱和排水,模型两侧不透水。首先,利用有限元模型模拟了均匀降雨条件下的雨水入渗特征,与理论解析解对比,验证了模型的正确性。然后,利用有限元模型计算石家庄市2年重现期3h设计暴雨雨型条件下种植土的雨水入渗,地表开始积水时间、降雨结束后积水深度、雨量径流系数分别为0.75h,13.6cm和0.24,均匀降雨理论解析解计算结果分别为0.72h,14.4cm和0.17,两种方法计算结果相差不多。再次,利用有限元模型计算了下边界孔压变化、上边界孔压变化条件下的种植土地表开始积水时间,结果表明随着下边界孔压降低,地表开始积水时间延长,随着上边界孔压降低,地表开始积水时间延长,当下边界孔压为0kPa时,初始上边界孔压分别为-6kPa和-12kPa,地表开始积水时间分别为45 min和50 min,地表开始积水时间有一定差异;当初始上边界为-6kPa,下边界分别为0kPa,-1kPa,-2kPa和-3kPa时,地表开始积水时间分别为45min,45min,46min和47min,下边界条件对地表开始积水时间影响较小。地基土渗透系数为6.5×10^(-9) m/s,地基土孔隙水压力分别为0kPa,-4.5kPa,-9kPa,-13.5kPa和-18kPa,利用有限元模型求解获得种植土地表开始积水时间分别为54min,54min,55min,55min和56min,地表积水深度分别为11.9cm,11.7cm,11.5cm,11.4cm和11.3cm,随着地基土孔隙水压力降低,种植土地表开始积水时间略有延长,种植土地表积水深度略有降低,总体上地基土孔隙水压力对种植土地表积水时间和积水深度影响不大。地基土孔隙水压力0kPa,渗透系数分别为6.5×10^(-9) m/s和6.5×10-7 m/s,利用有限元模型计算获得种植土地表开始积水时间均为54 min,积水深度均为11.9cm,地基土渗透系数�To verify the rationality of the theoretical analytical method to solve the rainfall infiltration into planting-soilcrushed-stone green belt,the finite element model of the rainfall infiltration into unsaturated planting soil is established.The water storage skin is used to model the infiltration and accumulation of rainwater on the upper boundary of the model.The lower boundary is saturated and drained,and the both sides of the model are impervious.Firstly,the infiltration characteristics of road rainwater under uniform rainfall conditions are modeled by the finite element model.Compared with the theoretical analytical solution,the finite element model is proved to be right.Secondly,the infiltration of road rainwater into planted soils is calculated by the finite element model under the condition of 2-year recurrence period and 3-hour design rainstorm of Shijiazhuang city.The beginning time of the surface water,the rainwater depth of stopping rainfall and the coefficient of rainfall runoff are 0.75 h,13.6cm and 0.24,respectively.The analytical results of uniform rainfall method are 0.72 h,14.4cm and0.17,respectively.The results of the both methods are basically identical.Thirdly,the finite element model is employed to calculate the beginning time of the surface water under the condition of different pore pressure at the lower boundary and upper boundary.The results show that with the pore pressure descending at the lower boundary,the beginning time of the surface water rises up.With the pore pressure dropping at the upper boundary,the beginning time of the surface water increases.When the pore water pressure is 0kPa at the lower boundary and the initial pore water pressure at the upper boundary are-6and-12 kPa,the beginning time of the surface water are 45 and 50min,respectively.Obviously the beginning time of the surface water is different.When the initial pore water pressure is-6kPa at the upper boundary and the pore water pressure at the lower boundary are 0,-1,-2and-3kPa,the beginning time of the surface wat

关 键 词：城市给水排水工程 种植土-碎石绿化带 有限元模型 边界条件 雨型 

分 类 号：TU443[建筑科学—岩土工程]