基于有限元分析的透水摩擦路面地下流出物研究

Hung Tan Nguyen, Dang Nhat Le Huynh, Triet Minh Pham, Dung Thi My Huynh, H. V. Huynh
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引用次数: 0

摘要

透水摩擦系数路面的设计具有高孔隙率,因此水可以渗入其孔隙中,并从侧面排出。本研究通过有限元分析程序 SV Flux 2D 观察透水摩擦路面的地下排水情况。针对不同坡度和降雨强度值的透水摩擦路面进行了一系列分析。结果表明,不同的坡度值对地下出流产生了不同的结果。随着坡度的增加,透水摩擦路面的地下流出量也随之增加。我们注意到,当坡度从 6% 增加到 8% 时,坡度对地下流出量的影响减小。此外,这项研究还发现,随着降雨事件时间的增加,路面下层流出量也减少了。降雨强度对透水摩擦路面地下流出量的影响调查显示,随着降雨强度的增加,地下流出量稳步增加。但值得注意的是,降雨强度越大,路面的饱和速度越快,溢流发生的时间也越早。今后,应进一步研究透水摩擦路面的排水情况,包括地下和地表流出情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A STUDY OF SUBSURFACE OUTFLOW OF PERMEABLE FRICTION COURSE PAVEMENT BASED ON FINITE ELEMENT ANALYSIS
Permeable friction course pavement is designed with high porosity so that water can infiltrate into its pores and drain out laterally through the side. This study observes the subsurface outflow of a permeable friction course pavement via the finite element analysis program SV Flux 2D. A series of analyses were conducted for the permeable friction course pavement with different slope and rainfall intensity values. The results showed that different slope values provided different results for the subsurface outflow. As the slope increased, the subsurface outflow of the permeable friction course pavement increased. It is noticed that the effect of slope on the subsurface outflow decreased when the slope increased from 6% to 8%. In addition, this study also found that as the time of rain events increased, the subsurface outflow pavement was reduced. The investigation of the effect of rainfall intensity on the subsurface outflow of the permeable friction course pavement showed that as the rainfall intensity increased, the subsurface outflow steadily increased. However, it is noted that at the higher rainfall intensity, the pavement became saturated faster and the overflow happened earlier. In the future, further studies focused on the drainage of permeable friction course pavement including subsurface and surface outflow should be carried out.
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