Federico Domenichini
Associate Professor
Department of Civil and Environmental Engineering
University of Firenze
Italy
Biography
Doctor of Civil Engineering, Hydraulic Section, cum laude, University of Florence, 1994. Degree in Civil Engineering , cum laude, University of Florence , 1994. Research Doctor of Hydraulic Engineering, University of Padua, 1998. PhD in Hydraulic Engineering , University of Padua , 1998. Researcher in Hydraulics, Department of Civil Engineering, University of Florence, 1999. Permanent researcher in Hydraulics, Department of Civil Engineering, University of Florence, 1999. Associate Professor in Hydraulics, since 2014, Department of Civil and Environmental Engineering.Associated Professor in Hydraulics, Department of Civil Engineering and Environmetal Engineering,University of Florence.
Research Interest
Mathematical and numerical modeling of fluid mechanics problems, with particular reference to interaction with solid, fixed or moving contours, rigid or deformable. Applications for cardiovascular fluid dynamics.
Publications
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Badas, Maria Grazia; Domenichini, Federico; Querzoli Giorgio (2016). Lyapunov exponents at end time as indicators of hemostasis in the left ventricle. In: XXXV National Hydraulics and Hydraulic Construction Project, Bologna, September 14-16, 2016, Department of Civil Engineering, Chemistry, Environmental and Materials (DICAM) School of Engineering and Architecture University of Bologna - ALMA MATER STUDIORUM AD 1088, pp. 0-0, ISBN: 9788898010400
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DOMENICHINI, FEDERICO (2016). Fluid dynamics of the flow inside the left ventricle. In: XXXV National Hydraulics and Hydraulic Construction Project, Bologna, September 14-16, 2016, Department of Civil Engineering, Chemistry, Environmental and Materials (DICAM) School of Engineering and Architecture University of Bologna - ALMA MATER STUDIORUM AD 1088, pp. 0-0, ISBN: 9788898010400
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Pedrizzetti, Gianni; Arvidsson, Per M .; Töger, Johannes; Borgquist, Rasmus; Domenichini, Federico; Arheden, H㠥 kan; Heiberg, Einar (2017). On estimating intraventricular hemodynamic forces from endocardial dynamics: A comparative study with 4D flow MRI. JOURNAL OF BIOMECHANICS, vol. 60, pp. 203-210, ISSN: 0021-9290