Numerical simulation of groundwater flow of urucuia aquifer system in Cor-rente River hydrogeological watershed (BA)

Published
2015-10-30
DOI: https://doi.org/10.14295/ras.v29i2.28435
Keywords: Urucuia Group. São Francisco River. Groundwater modelling. Finite element numeric simulation. FEFlow. Grupo Urucuia. Rio São Francisco. Modelagem hidrogeológica. Simulação numérica por elementos finitos. FEFlow.

    Authors

  • Bruno Zanon Engelbrecht LEBAC - Laboratório de Estudos de Bacias Universidade Estadual Julio de Mesquita Filho - Rio Claro
  • Hung Kiang Chang LEBAC - Laboratório de Estudos de Bacias Universidade Estadual Julio de Mesquita Filho - Rio Claro

Abstract

Steady state groundwater flow simulation of Urucuia Aquifer System (UAS) in the Corrente river watershed was carried out in order to quantify the water balance and to understand the dynamics of the groundwater flow. The UAS is located in the San Francisco river watershed and corresponds to a set of interconnected aquifers that occur in the Urucuia group. The aquifer is composed of sandstones with a table mountain architecture. In order to perform the numerical simulation, finite element method was applied using FEFlow (Finite Element Subsurface Flow e Transport Simulation System) computational algorithm. The following hydrodynamic parameters were obtained from numerical simulation: horizontal and vertical hydraulic conductivity of 9.7 x 10-5 m/s; maximum and minimum recharges of 267 mm/y and 142 mm/y, respectively; and baseflow of 1.26 x 107 m³/day. The results of the steady state model confirmed the homogeneous and isotropic nature of the aquifer as well as its importance in maintaining the flow of São Francisco River.

How to Cite
Engelbrecht, B. Z., & Chang, H. K. (2015). Numerical simulation of groundwater flow of urucuia aquifer system in Cor-rente River hydrogeological watershed (BA). Águas Subterrâneas, 29(2), 244–256. https://doi.org/10.14295/ras.v29i2.28435