Post-doc researcher, EEAD-CSIC, Spain
Javier FernΓ‘ndez-Pato is a highly accomplished researcher and educator specializing in Computational Fluid Mechanics, Shallow Water Equations, and Hydrology. He holds a PhD in Fluid Mechanics from the University of Zaragoza, where he also earned multiple master’s degrees in Applied Mechanics, Hydric Resources Engineering, and Physics. With over a decade of professional experience, Javier has worked as a researcher at the Spanish National Research Council (CSIC), Hydronia Europe SL, and the University of Zaragoza. His expertise spans numerical modeling, hydraulic simulations, and rainfall-runoff processes. Javier has received numerous accolades, including the Extraordinary PhD Award and ANECA certifications for lecturing. He is also a prolific author, with publications in top-tier journals likeΒ Journal of HydrologyΒ andΒ Advances in Water Resources. His work bridges theoretical research and practical applications, contributing significantly to environmental fluid mechanics and hydrology.
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Education π
Javier FernΓ‘ndez-Pato completed his PhD in Fluid Mechanics at the University of Zaragoza in 2019, earningΒ cum laudeΒ honors, the Industrial Doctorate Mention, and the Extraordinary PhD Award. His dissertation focused on the performance assessment of Finite Volume methods in hydraulic processes. Prior to his PhD, he obtained two MSc degrees: one in Hydric Resources Engineering (2015) and another in Applied Mechanics (2012), both from the University of Zaragoza. He also holds a combined BSc and MSc in Physics from the same institution (2011). Javierβs academic journey reflects a strong foundation in physics and engineering, with a specialization in fluid dynamics and hydrology. His certifications include ANECAβs positive evaluations for PhD Lecturer and Assistant Lecturer roles, underscoring his qualifications in academia.
Professional Experience πΌ
Javier FernΓ‘ndez-Pato has a rich professional background in research and academia. Since April 2023, he has been a Researcher at the Experimental Station of Aula Dei (CSIC) in the Soil and Water Department. Previously, he worked as a Post-Doc Researcher at the University of Zaragoza (2022-2023) and Hydronia Europe SL (2019-2023). He also served as a Part-time Professor at the University of Zaragoza, teaching courses in Fluid Mechanics, Hydrology, and Hydraulic Simulation Models (2020-2022). Earlier roles include Pre-doctoral Researcher at Hydronia Europe SL (2016-2019) and Researcher at the University of Zaragoza (2014-2016). His career highlights include developing manuals for RiverFlow2D software and contributing to advanced hydraulic simulation tools. Javierβs experience bridges academic research and industrial applications, making him a versatile expert in fluid mechanics and hydrology.
Awards and Honors π
Javier FernΓ‘ndez-Pato has received several prestigious awards and honors throughout his career. His PhD dissertation earnedΒ cum laudeΒ distinction, along with the Mention of Industrial Doctorate and the Extraordinary PhD Award from the University of Zaragoza. He holds ANECA certifications for both PhD Lecturer and Assistant Lecturer roles, validating his teaching credentials. Javierβs research contributions have been widely recognized, with publications in high-impact journals such asΒ Journal of HydrologyΒ andΒ Advances in Water Resources. His work on rainfall-runoff simulations and shallow water equations has garnered significant citations, reflecting its impact on the field. Additionally, he has been involved in collaborative projects that have advanced hydraulic modeling and environmental fluid mechanics. These accolades underscore his dedication to excellence in both research and education.
Research Focus π
Javier FernΓ‘ndez-Patoβs research focuses on Computational Fluid Mechanics, particularly the application of Shallow Water Equations to hydrological and hydraulic processes. His work emphasizes numerical modeling, including Finite Volume methods, for simulating transient hydraulic phenomena such as rainfall-runoff processes, overland flow, and pipe network dynamics. He has developed advanced simulation tools for 2D shallow water flows, integrating infiltration models and pollutant transport. Javierβs research also explores GPU-based computational techniques to enhance the efficiency of hydraulic models. His contributions extend to erosion simulation, flood modeling, and the coupling of overland flow with drainage networks. By bridging theoretical and applied research, Javierβs work addresses critical challenges in environmental fluid mechanics, hydrology, and water resources management. His innovative approaches have been published in leading journals, making significant strides in the field.
Publication Top Notes π
- π§οΈ “Rainfall/runoff simulation with 2D full shallow water equations: Sensitivity analysis and calibration of infiltration parameters” (2016)
- π “The shallow water equations and their application to realistic cases” (2019)
- π§ “Performance assessment of 2D Zero-Inertia and Shallow Water models for simulating rainfall-runoff processes” (2020)
- π “2D zero-inertia model for solution of overland flow problems in flexible meshes” (2016)
- οΏ½ “Cellular automata and finite volume solvers converge for 2D shallow flow modelling for hydrological modelling” (2018)
- π₯οΈ “Implicit finite volume simulation of 2D shallow water flows in flexible meshes” (2018)
- π “Towards transient experimental water surfaces: A new benchmark dataset for 2D shallow water solvers” (2018)
- ποΈ “An efficient GPU implementation of a coupled overland-sewer hydraulic model with pollutant transport” (2021)
- π οΈ “Development of a new simulation tool coupling a 2D finite volume overland flow model and a drainage network model” (2018)
- ποΈ “A 2D finite volume simulation tool to enable the assessment of combined hydrological and morphodynamical processes in mountain catchments” (2020)
- π± “A fractional-order infiltration model to improve the simulation of rainfall/runoff in combination with a 2D shallow water model” (2018)
- ποΈ “Application of a distributed 2D overland flow model for rainfall/runoff and erosion simulation in a Mediterranean watershed” (2018)
- π° “A pipe network simulation model with dynamic transition between free surface and pressurized flow” (2014)
- π‘οΈ “A GPU-based 2D shallow water quality model” (2020)
- π¦ “Finite volume simulation of unsteady water pipe flow” (2014)
- π “Finite volume models and efficient simulation tools (EST) for shallow flows” (2022)
- π₯ “A GPU-based 2D viscous flow model with variable density and heat exchange” (2023)
- ποΈ “Non-equilibrium bedload transport model applied to erosive overtopping dambreach” (2023)
- π “2d numerical simulation of floods in ebro river and analysis of boundary conditions to model the mequinenza reservoir dam” (2023)
- ποΈ “SimulaciΓ³n de avenidas mediante un modelo hidrΓ‘ulico/hidrolΓ³gico distribuido en un tramo urbano del rΓo Ginel (Fuentes de Ebro)” (2019)
Conclusion π―
Javier FernΓ‘ndez-Pato is a distinguished researcher and educator with a strong focus on Computational Fluid Mechanics and Hydrology. His academic achievements, professional experience, and numerous awards highlight his expertise in numerical modeling and hydraulic simulations. Through his innovative research and publications, Javier has made significant contributions to understanding and solving complex hydrological challenges. His work bridges theory and practice, advancing the field of environmental fluid mechanics and water resources management.