Modelling of the Hydrogeological Behaviour of the Tassette Aquifer: Study of the Possibilities of Exploiting This Aquifer as an Alternative against the Limestone Problem in the Commune of Thies
Senegal’s drinking water supply comes on the one hand
from groundwater and mainly from Maastrichtian and Paleocene aquifers. The
Tassette area included in the Thies region has such potential that the
Paleocene is currently exploited to cover a certain part of Dakar’s important
water needs. In addition, the city of Thies
is itself confronted with the problems of limestone present in its
drinking water and generally creating problems of scaling pipes. A water
transfer is therefore a possible option to deal with this situation. This study
will consist of modelling the Tassette aquifer to determine if it will cover
Thies’ water needs over a period of 20 years. To assess the responses of the
groundwater to pumping at this level and the changes that may occur, a
numerical hydrogeological model is necessary. In order to have a better
overview of the area, boreholes and piezometric tests were carried out,
highlighting the different characteristics of the aquifer and the water it
contains. Based on these, the model was
developed according to a mesh system and more precisely by
discretization and simulation according to the finite difference method from
the Visual Modflow Flex software. The results observed for this modelling show
that the city of Thies cannot be supplied as a whole. This mining model also causes brackish water
intrusion. On the other hand, the additional withdrawal of a certain quantity
of water compared to the current situation does not have as great negative
impacts and would still partially meet the expectations of this modelling.
References
[1]
Faye, C. Water Resources Management in Africa: Data Availability Issues and Uncertainties Associated with Hydrological Measurements in Senegal.
[2]
Faye, M.M. (2005) Senegal Agricultural Market Development Program.
[3]
Diakhaté, F. (2022) Mining Resources and Local Development: The Case of the Commune of Chérif Lô (Thies Region).
[4]
Diop, M. (2021) Problem of Access to Drinking Water in Urban Areas: The Case of the Commune of the Cleaned Plots of Dakar.
[5]
Laissard, G. (1984) Water for Your Health: Practical Manual for Hydrotherapy and Balneotherapy. FeniXX.
[6]
SY, B.A., Kola, E., Magrin, G., et al. Tropicale (IGT) of the University. Felix Houphouët-Boigny, Cote d’Ivoire-Dr. Ibrahima MBAYE (Geographer), Associate Professor, Assane SECK University, Ziguinchor (Senegal)-Dr. Tidiane SANE (Geographer), Associate Professor, Assane SECK University, Ziguinchor (Senegal)-Dr Irène KASSI-DJODJO, (Geographer), Associate Professor, Institute of Tropical Geography (IGT).
[7]
Diédhiou, A., LO, M.L., Thioune, P.B.D., et al. (2018) Modelling of Water Erosion of Cultivated and Uncultivated Soils on the Thies Plateau (Senegal). International Journal of Innovation and Applied Studies, 25, 210-221.
[8]
Mainguet, M. (1999) Aridity: Droughts and Human Development. Springer Science & Business Media, Berlin. https://doi.org/10.1007/978-3-662-03906-9
[9]
Ly, C., Fall, B., Camara, B., et al. (1998) Urban Horse-Drawn Transport in Senegal-Situation and Economic Importance in the City of Thies. Journal of Livestock and Veterinary Medicine of Tropical Countries, 51, 165-172. https://doi.org/10.19182/remvt.9643
[10]
Martos-Rosillo, S., Guardiola-Albert, C. and Marín-Lechado, C. (2015) Hydrogeological Characterization and Evaluation of the Recharge of a High Mountain Aquifer Developed in Hard Rocks, Bérchules River Basin, Sierra Nevada, Granada. Water in Andalusia. Water: Key Environmental and Socio-Economic Issues. IGME, Madrid, 623-634.
[11]
López Ramírez, S.E., et al. (2015) Update of the Numerical Model of the Morroa Aquifer Using Visual Modflow Flex.
[12]
Cisneros Zamora, G.Z. (2019) Groundwater Flow Model of the Laguna de Hormigas Aquifer, Chihuahua, Mexico. Ph.D. Thesis, Autonomous University of Chihuahua, Chihuahua.
[13]
Mouakoumbat, N.J.L., Gampio, U.M., Nkaya, G.M., et al. (2022) Hydrogeological Characterization and Approach to a Conceptual Model of the Aquifer of the Cuvette Basin, Republic of Congo. International Journal of Geosciences, 13, 997-1023. https://doi.org/10.4236/ijg.2022.1311051
[14]
Gossel, W. (2013) GIS-MODFLOW: A Small OpenSource Tool to Connect GIS Data with MODFLOW. Grundwasser, 18, 99-102. https://doi.org/10.1007/s00767-012-0218-9
[15]
Khalil, K., Khan, Q. and Mohamed, M. (2022) Modeling Aquifer Storage and Recovery in the Eastern District of the United Arab Emirates Using MODFLOW. Scientific Reports, 12, Article No. 17537. https://doi.org/10.1038/s41598-022-20470-7
[16]
Diop, T. (1990) Population and Cities Senegal: Demographic Growth. Africa Development/Afrique et Développement, 33-43.
