Boussinesq equation-based model for flow in drainage layer of highway 被引量：2

Boussinesq equation-based model for flow in drainage layer of highway

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摘要 In order to study the water flow in the drainage layer of highway under steady-state condition, one-dimensional （1D） Boussinesq equation-based model with Dupuit-Forchheimer assumption was established and the semi-analytical solutions to predict the water-table height were presented. In order to validate the model, a two-dimensional （2D） saturated flow model based on the Laplace equation was applied for the purpose of the model comparison. The water-table elevations predicted by ID Boussinesq equation-based model and 2D Laplace equation-based model match each other well, which indicates that the horizontal flow in drainage layer is dominated. Also, it validates the 1D Boussinesq equation-based model which can be applied to predict the water-table elevation in drainage layer. Further, the analysis was conducted to examine the effect of infiltration rate, hydraulic conductivity and slope of drainage layer on the water-table elevation. The results show that water-table falls down as the ratio of Is to K decreases and the slope increases. If the aquifer becomes confined by the top of drainage layer due to the larger ratio of Is to K or smaller slope, the solution presented in this work can also be applied to approximate the water-table elevation in unconfined sub-section as well as hydraulic head in the confined sub-section. In order to study the water flow in the drainage layer of highway under steady-state condition, one-dimensional (1D) Boussinesq equation-based model with Dupuit-Forchheimer assumption was established and the semi-analytical solutions to predict the water-table height were presented. In order to validate the model, a two-dimensional (2D) saturated flow model based on the Laplace equation was applied for the purpose of the model comparison. The water-table elevations predicted by 1D Boussinesq equation-based model and 2D Laplace equation-based model match each other well, which indicates that the horizontal flow in drainage layer is dominated. Also, it validates the 1D Boussinesq equation-based model which can be applied to predict the water-table elevation in drainage layer. Further, the analysis was conducted to examine the effect of infiltration rate, hydraulic conductivity and slope of drainage layer on the water-table elevation. The results show that water-table falls down as the ratio of Is to K decreases and the slope increases. If the aquifer becomes confined by the top of drainage layer due to the larger ratio of Is to K or smaller slope, the solution presented in this work can also be applied to approximate the water-table elevation in unconfined sub-section as well as hydraulic head in the confined sub-section.

作者但汉成罗苏平李亮赵炼恒

机构地区 School of Civil Engineering Guizhou Transportation Planning Survey&Design Academe Co. Administration of Quality Supervision of Hainan Transportation Engineering

出处《Journal of Central South University》 SCIE EI CAS 2012年第8期2365-2372,共8页 中南大学学报（英文版）

基金 Project(511114) supported by the Natural Science Foundation of Hainan Province, China Project(2009YBFZ05) supported by Postgraduate Award of Central South University, China Project(200731) supported by Traffic Technology Fund of Hunan Province, China Project(2008BAG10B01) supported by the National Key Technology R&D Program, China

关键词 drainage layer HIGHWAY GROUNDWATER Boussinesq equation seepage face 方程模型 Boussinesq方程公路排水 Laplace 层流地下水位拉普拉斯方程模型预测

分类号 U412.23 [交通运输工程—道路与铁道工程]

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