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Boletín de Geología
Print version ISSN 0120-0283On-line version ISSN 2145-8553
Abstract
DUQUE, Jhon Camilo; BETANCUR, Teresita and GARCIA-ARISTIZABAL, Edwin. Multi-scale modelling for the understanding of flow systems in a layered aquifer, Uraba-Colombia. Bol. geol. [online]. 2022, vol.44, n.3, pp.179-198. Epub Nov 21, 2022. ISSN 0120-0283. https://doi.org/10.18273/revbol.v44n3-2022008.
Numerical modelling is a valuable tool that allows the characterisation of groundwater flow behaviour, its interactions, and the representation of different flow systems in an aquifer. A regional-scale model requires general information to describe the flow trends. In contrast, local and intermediate-scale models require a more detailed knowledge of the flow boundaries, and field information. To understand the groundwater flow in the aquifer system of the Eje Bananero del Uraba Antioqueno-Colombia, a multi-scale numerical model was implemented using MODFLOW®. This was performed following modelling protocols on three spatial scales in which the regional model provided the boundary conditions for the intermediate pattern, and the intermediate pattern for the local model. Finally, we represented some details relating local and intermediate flows to regional flows, in which surface-groundwater interactions involving shallow and deep ascending flows became evident. The results obtained in this work show the potential of multi-scale modelling to recognise and understand the groundwater flows in a layered aquifer system, which provide grounds for decision-making and proper management of hydrogeological systems.
Keywords : Groundwater flow; Regional flows; Local flows; Numerical modeling; Hydrogeological conceptual model.