CURRENTLY : assistant professor at Polytech Orléans

Courses	Quantity	Audience	Type	Details
Fluid Dynamics	30h	PeiP	C/TD/TP	Continuum mechanics, Fluids static (Hydrostatic, Archimedes, Atmospheric equilibrium), Euler's equations, Bernouilli's principle, practices for initiation to basic principles
	51h	ING1 (TEAM)	C/TD	Fluids static (Hydrostatic, Archimedes, Atmospheric equilibrium), Euler's equations, Bernouilli's principle, hydraulic circuits, balance of momentum on a control volume
	38h	ING2 (TEAM)	TP	Practices for fluid dynamics principles: flows around an airfoil, a cylinder, a sphere; boundary layer; compressible nozzle. CFD using Ansys Fluent: boundary layer; compressible nozzle; flows around an airfoil, a cylinder, projects.
	42h	ING2 (GC)	C/TD	Fluids static (Hydrostatic, Archimedes, Atmospheric equilibrium), Euler's equations, Bernouilli's principle, free surface flows, hydraulic circuits
Renewable marine energies (introduction)	4h	ING3 (TEAM)	C/TD	Characterisation of the wind/waves/current ressources, marine hydraulic energies (tidal power, marine current power), offshore wind turbines
Projects	/	ING2-3 (TEAM)
Internships	/	ING2-3 (TEAM)

(legend) PeiP: “classe préparatoire” of Polytech Orléans, ING1: 1st year engineer Polytech, ING2: 2nd year engineer Polytech, ING3: 3rd year engineer Polytech, TEAM: Energetics option, GC: Civil Engineering option, C: Lectures, TD : Tutorials, TP : Practical work.

PREVIOUSLY : equivalent of 339 hours (equivalent “Practice” in the French system) done :
– teaching assistant (“monitorat”) for two years at École Centrale de Lille (2012-2014)
– temporary assistant professor (“ATER”) at École Centrale de Lille (2014-2015)
– teaching assistant (“vacations”) at École Centrale de Nantes (2020-2021)

École Centrale de Nantes (2020-2021)

Courses	Quantity	Audience	Type	Details
Fluid physics and dynamics	16h	ING1	TP	Euler's jet, aerodynamics around a cylinder, laminar/turbulent flow in pipes, pressure drops, nozzles, flow visualization
Experimental hydrodynamics	12h	ING3/M2	TP	Analysis of turbulent boundary layers properties using hot-wire anemometry

(legend) ING1: 1st year Centrale, ING3: 3rd year Centrale, M2: Master 2 OCEAN [link], TP : Practical work.

École Centrale de Lille (2011-2015)

Courses	Quantity	Audience	Type	Details
Fluid Mechanics introduction	28h	ING1	C/TD	Continuum mechanics, Fluids static (Hydrostatic, Archimedes, Atmospheric equilibrium), Fluids kinematics (Lagrange/Euler), Bernouilli's principle, Euler's equations
	12h	ED	C/TD	Point mechanics, Solid mechanics, Continuum mechanics, Fluids static (Hydrostatic, Archimedes, Atmospheric equilibrium)
Thermodynamics	24h	ING1	TD	Thermodynamics principles, Thermodynamics cycles (petrol, diesel, gas, steam, refrigiration)
	20h	ING2	TD
Aero-hydro dynamics	32h	ING2	TD	Euler's equations, Euler's jet, pressure drops, similarities for pumps
	8h	ING2	TP
Fluid Energetics	24h	ING2	C/TD	Thermodynamics machines, Wind turbines (structure, Betz's limit, horizontal and vertical axis, exploitation), terrestrial hydraulic energies (facilities, sizes and types of dams), marine hydraulic energies (tidal power, marine current power).
Aerodynamics for transportation	10h	ING2	TD	Drag and lift coefficients, similarities. Compressible flows, de Laval nozzle.
High-speed transportation	10h	ING2	TD	Friction, drag and lift coefficients, similarities. Compressible flows, de Laval nozzle.
PIV initiation	12h	ING2	TP	Introduction to the technique, image correlations, velocity fields analysis, practical works on different geometries (cylinder, plane plate, airfoil, etc.)

(legend) ING1: 1st year Centrale, ING2: 2nd year Centrale , ED : Double diploma EDHEC/Centrale, C: Lectures, TD : Tutorials, TP : Practical work.