2E2AC4 | Thermohydraulique 1 | Electronics and Applied Physics | S8 | ||||||
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Lessons : 16 h | TD : 6 h | TP : 0 h | Project : 0 h | Total : 22 h | |||||
Co-ordinator : Marc Labalme |
Prerequisite | |
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Basic vector calculus Vector Analysis Integral Calculus Classical mechanics : Fundamental Principles of Dynamics, Statics Laws and Equilibrium |
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Course Objectives | |
This course aims to introduce concepts of thermohydraulic needed for the study of the movement of fluids (liquids or gases) taking into account the effects of temperature. The theoretical lectures are supplemented by examples related to the extraction of heat from nuclear power plants. |
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Syllabus | |
Flowing fluids : Kinematics (velocity and acceleration fields, examples of fluid flows, deformation) Dynamics (stress tensor, Euler and Navier-Stokes equations, Bernoulli s theorem) Thermodynamics (heat transfer, temperature field, heat transfer coefficient) |
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Practical work (TD or TP) | |
Prevent the risk of accidents in nuclear power plants (fluid-structure interaction: thermal fatigue, release of water ...) | |
Acquired skills | |
Thermohydraulic modeling systems | |
Bibliography | |
"Mécanique des fluides appliquée", Roger Ouziaux et Jean Perrier, DUNOD "Transferts thermiques", Jean Taine et Jea-Pierre Petit, DUNOD "Hydraulique générale", Armando Lencastre, EYROLLES |
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