Estimation by Inverse Approach of a Transmissivity Field over the Entire Continental Terminal Aquifer of Abidjan
Kouamé Auguste Kouassi *
UFR Environment, Laboratory of Environmental Sciences and Technologies, Jean Lorougnon Guedé Daloa University, BP 150 Daloa, Côte d'Ivoire.
Francis Williams Kouassi
UFR Environment, Laboratory of Environmental Sciences and Technologies, Jean Lorougnon Guedé Daloa University, BP 150 Daloa, Côte d'Ivoire.
Oi Mangoua Jules Mangoua
UFR Sciences and Environmental Management, Geosciences and Environment Laboratory, Nangui Abrogoua University, 02 BP 801 Abidjan 02, Côte d'Ivoire.
Philippe Ackerer
Department ‘Laboratoire d’Hydrologie et de Géochimie de Strasbourg’, Strasbourg University, France.
Gountôh Aristide Douagui
UFR Environment, Laboratory of Environmental Sciences and Technologies, Jean Lorougnon Guedé Daloa University, BP 150 Daloa, Côte d'Ivoire.
Issiaka Savane
UFR Environment, Laboratory of Environmental Sciences and Technologies, Jean Lorougnon Guedé Daloa University, BP 150 Daloa, Côte d'Ivoire.
*Author to whom correspondence should be addressed.
Abstract
Hydraulic characterization of aquifer systems is important for the development of exploitation scenarios and groundwater management strategies. Especially in lithologically heterogeneous aquifers, local scale variations in transmissivity (T) may not be neglected. Field scale transmissivity values are usually derived from pumping tests, but in most cases their number and availability are rather limited. Thus, direct measurement of transmissivity over an entire aquifer is expensive and technically almost impossible. In such situations, inverse hydrodynamic modelling is the appropriate solution. In this article, the real transmissivity field of the aquifer of the Continental Terminal of Abidjan is investigated by a multi-scale parametrization that allows to bypass the problem of scale change and to determine this hydrodynamic parameter over the entire aquifer. This hydrogeological modelling of the Continental Terminal aquifer identified a structure of 153 nodes in size as the closest structure to that of the Continental Terminal aquifer. The transmissivity field associated with this optimal size, ranging from 5.4.10-5 to 1 m2s-1, has been compared with values published in other studies in Africa and the world. These identified values are plausible and have a good overall structure. The success of this modeling is strongly linked to the quantity, quality and spatial distribution of authentic informations on the parameters sought.
Keywords: Aquifer of Abidjan Continental Terminal, dimension, multiscale, parametrization, structure, transmissivity.