Listar por autor "Fernández Águila, Jesús"
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Dynamic update of flow and transport parameters in reactive transport simulations of radioactive waste repositories
Fernández Águila, Jesús; Samper, Javier; Mon, Alba; Montenegro, Luis (Elsevier, 2020)[Abstract:] The changes in porosity caused by mineral dissolution/precipitation and the associated changes in flow, transport and chemical parameters of porous and fractured media are relevant for the geochemical time-evolution ... -
Modeling cesium migration through Opalinus clay: a benchmark for single- and multi-species sorption-diffusion models
Fernández Águila, Jesús; Montoya, Vanessa; Samper, Javier; Montenegro, Luis; Kosakowski, Georg; Krejci, Philipp; Pfingsten, Wilfried (Springer, 2021)[Abstract:] Sophisticated modeling of the migration of sorbing radionuclides in compacted claystones is needed for supporting the safety analysis of deep geological repositories for radioactive waste, which requires robust ... -
Optimizing wastewater treatment plants with advanced feature selection and sensor technologies
Timiraos, Míriam; Fernández Águila, Jesús; Arce Fariña, Elena; García Núñez, Moisés Alberto; Zayas-Gato, Francisco; Quintián, Héctor (Oxford University Press, 2024)[Abstract] This research establishes a foundational framework for the development of virtual sensors and provides significant preliminary results. Our study specifically focuses on identifying the key factors essential for ... -
Reactive transport model of gypsum karstification in physically and chemically heterogeneous fractured media
Fernández Águila, Jesús; Samper, Javier; Buil Gutiérrez, Belén; Gómez, Paloma; Montenegro, Luis (MDPI, 2022)[Abstract:] Gypsum dissolution leads to the development of karstic features within much shorter timescales than in other sedimentary rocks, potentially leading to rapid deterioration of groundwater quality and increasing ... -
Reactive transport models of low permeability structured porous and fractured media
Fernández Águila, Jesús (2017)[Abstract] Groundwater flow and reactive transport models are essential tools for the analysis of coupled physical, chemical and biological processes in Earth systems. This dissertation aims at improving flow and reactive ...