Genale-Dawa River Basin is one of the largest and most drought prone re-gions in Ethiopia. As a result a search for alternative source of water has always been a major issue in the region. This study therefore, aims at characterizing and evaluating the ground water potential resource of the river basin. The delineation and numerical discretization of the river basin were primarily done for the proper development of the problem domain. And the groundwater governing equation was solved at individual nodal points of the discretized region using a 3-D numerical ground water model called TAGSAC. This resulted in monthly average groundwater table fluctuation and replenishable ground water potential estimation. Hydrogeological classification was also done based on hydraulic conductivity values obtained from model calibration.
References
[1]
Moges, S. (2012) Ag Water Solutions Project Case StudyAgricultural Use of Ground Water in Ethiopia: Assessment of Potential and Analysis of Economics, Policies, Constraints and Opportunities. International Water Management Institute (IWMI), Research Report.
[2]
Semu (2012) Ag Water solution project, Case Study. International Water Management Institute (IWMI), Research Report.
[3]
MOWR (2007) Integrated River Basin Master Plan Studies.
[4]
Mohammed, M. (2010) Adaptive Neuro Fuzzy Inference System Approach for Prediction of Hydraulic Pressure Recharge. Annual Journal of Hydraulic Engineering.
[5]
Sarkar, S., Toksöz, M.N. and Burns, D.R. (2002) Fluid Flow Simulation in Fractured Reservoirs. Earth Resources Laboratory, Massachusetts Institute of Technology.
[6]
de Vries, J.J. and Simmers, I. (2000) Ground Water Recharge: An Overview of Processes and Challenges. Hydrogeology Journal, 10, 5-17.
[7]
Healy, R.W. (2010) Estimating Groundwater Recharge. Cambridge University Press, Cambridge.
[8]
Anderson, M.P. and Wosner, W.W. (1992) Applied Grounwater Modeling; Simulation of Flow and Advictive Transport. Accadamic Press, Sen Dieago, New York, Boston.
[9]
Reilly, T.E. (2001) USGS Book 3, System and Boundary Conceptualization in Ground-Water Flow Simulation.
