Litcius/Paper detail

On Inflow to a Tunnel in a Fractured Double‐Porosity Aquifer

Mohammad M. Sedghi, Hongbin Zhan

2021Ground Water17 citationsDOI

Abstract

Inflow to a tunnel is a great public concern and is closely related to groundwater hydrology, geotechnical engineering, and mining engineering, among other disciplines. Rapid computation of inflow to a tunnel provides a timely means for quickly assessing the inflow discharge, thus is critical for safe operation of tunnels. Dewatering of tunnels is another engineering practice that should be planned. In this study, an analytical solution of the inflow to a tunnel in a fractured unconfined aquifer is obtained. The solution takes into account either the spherical or slab-shaped matrix block and the unsteady state interporosity flow. The instantaneous drainage water table and anisotropic hydraulic conductivities of the fractures network are also considered. Both uniform flux and uniform head boundary condition are considered to simulate the constant head boundary condition in the tunnel. The effects of the hydraulic parameters of the fractured aquifer on the inflow variation of the tunnel are explored. The application of the presented solution to obtain the optimum location and discharge of the well to minimize the inflow to a tunnel is illustrated.

Topics & Concepts

InflowAquiferGeotechnical engineeringDewateringGeologyHydraulic headGroundwaterDrainageWater tableWater tunnelElectrical conduitHead (geology)Groundwater flowEngineeringMechanicsGeomorphologyPhysicsMechanical engineeringBiologyEcologyOceanographyVortexGroundwater flow and contamination studiesHydraulic Fracturing and Reservoir AnalysisDam Engineering and Safety
On Inflow to a Tunnel in a Fractured Double‐Porosity Aquifer | Litcius