%0 Journal Article %T Identification of the Diffusion Coefficients of Pollutants ( N O 3 - and Mn2+) through the Walls of Concrete Tank and Vulnerability of the Stored Water Quality %A Narcisse Malanda %A Bienvenu Ebata Ndion %A Christian Tathy %A Thibault Mongo %A Paul Louzolokimbembe %J Engineering %P 246-274 %@ 1947-394X %D 2024 %I Scientific Research Publishing %R 10.4236/eng.2024.169019 %X The populations of urban centers in Congo-Brazzaville have decided to develop various methods of water storage (concrete or masonry underground tanks) for domestic use, due to shortages in the distribution of water through the public network. However, questions remain as to the physico-chemical quality of the water stored in these tanks, when these structures are built in wet and relatively polluted areas. This paper presents a model of pollutant diffusion through the cementitious matrix (concrete) of tank walls simulated at a buried reservoir. The results of the experimental and numerical simulations show that certain concrete parameters, such as porosity, permeability and diffusivity, have a significant influence on the transfer of pollutants through the concrete walls, thus altering the physico-chemical quality of the stored water. The numerical models (1D) used to predict pollutant transfer and the quality of the stored water are consistent with those of the optimal control for identifying the diffusion coefficient. Major ion concentrations appear to be correlated with system porosity and diffusion coefficient. Nevertheless, the identification of the diffusion coefficient from the optimal control method, based on an explicit numerical resolution of a finite volume PDE for the approximation of the experiment, is not consistent with that of the optimal control method. %K Buried Tank %K Water %K Concrete %K Modelling %K Optimal Control %K Diffusion Coefficient %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=136020