

FELIX ANTONIO BERLANGA CAÑETE
COORDINADOR TITULO GRADO ING. MECANICA
PROFESOR CONTRATADO DOCTOR
MECÁNICA
ESCUELA TÉCN.SUP INGENIEROS INDUSTRIALES
(+34) 91398-8667
Academic Information
PhD. in Advanced Computing, Energy and Plasma, University of Cordoba (2018).
Industrial Engineer, University of Jaen (2011).
Academic positions held
Assistant Professor at the Department of Mechanics of the Escuela Técnica Superior de Ingenieros Industriales, UNED.
Research activity
His research activity has focused on the study of ventilation and the study of the dispersion of indoor pollutants as well as the analysis of the development of respiratory flows.
He is currently a member of the Computational Fluid Mechanics Research Group, UNED.
Professional experience
Assistant Professor at the Department of Mechanics of the Escuela Técnica Superior de Ingenieros Industriales, UNED.
Educational management experience
Coordinator of the Degree in Mechanical Engineering at UNED - since December 2021.
Teaching
Asignaturas de Grado:
- 68034039 - PROYECTO FIN DE GRADO (I.MECÁNICA)
- 68034163 - TRABAJO FIN DE GRADO (I. MECÁNICA)
- 68043044 - MÁQUINAS E INSTALACIONES HIDRÁULICAS
- 68033028 - MECÁNICA DE FLUIDOS II
- 68901039 - FÍSICA II
- 68901016 - FÍSICA I
Asignaturas de Master:

Research
INVESTIGATION GROUPS
- Computational Fluid Mechanics Research Group Lines of research: Numerical simulation of free surface flows; Numerical simulation of fires; Two-phase flows; Droplet impact; 3D micro-printing processes by droplet deposition; Development of direct numerical simulation methods for interfacial flows. +info
PROYECTOS DE INVESTIGACIÓN
- Advanced techniques for computational simulation of isothermal interfacial flows. Application to microbubble trapping in manufacturing processes (PID2020-120100GB-C21). Advanced techniques of computational simulation of isothermal interfacial flows are studied. Application to microbubble trapping in manufacturing processes. +info
- Influence of the ventilation system on the airborne dispersion of bioaerosols exhaled by humans. Evaluation of the risk of cross-infection (DPI2014-55357-C2-2-R). Influence of the ventilation system on the airborne dispersion of bioaerosols exhaled by humans is studied. evaluation of the risk of cross infection.
Publications
- PUBLICATIONS IN MAGAZINES Ir a Orcid