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FMA-007
Thermodynamics, propellants, turbomachines - 2020

Introduction to thermal transfers

OBJECTIVE :

The introductory course helps learners:

  • discover the different modes of heat transfer and their couplings
  • understand the basics of heat science
  • understand the principle of energy assessment/usage

by illustrating the theory with practical applications and examples.

COURSE DURATION AND TIMETABLE :

The course lasts 4.5 days (27 hours) and includes:

  • 9 lectures
  • 8 sessions with practical exercises
  • panel discussion

GENERAL APPROACH :

The course consists of basic classes based on mathematical reminders and practical applications (exercises) in order to master the three forms of heat transfer (conduction, convection and radiation) and their coupling in simple situations, before moving onto the use of these principles in writing an energy usage assessment.

PREREQUISITE :

Course level: Basic

Introductory course for people with Bac+2 and above who have no practical knowledge of heat science.

COURSE DIRECTOR(S) :

Pierre MILLAN:

Director of the Department of Multi-Physics for Energy at ONERA

Philippe REULET:

Research Engineer at ONERA/DMPE

CONTENT :

  • Physical parameters of heat transfer
    • Temperature and energy levels
    • Flow
    • Different modes of heat transfer
    • Fundamental laws of heat transfer
  • Conduction
    • Equation of heat in homogeneous and isotropic media
    • Linear steady-state problems (Cartesian, cylindrical, spherical)
    • Unsteady aspects of conduction
    • Electrical analogy in stationary and non-stationary
  • Convection
    • Dimensional analysis of convection
    • Description of forced convection and natural convection
    • Research the law of transfer by convection
    • Dimensionless numbers
    • Reference temperatures
    • Heat transfer in correlation form  (flat plate, conduit)
  • Radiation of opaque bodies
    • Solid angles
    • Thermal radiation of solids
    • Laws of black-body radiation
    • Real body radiation
    • Radiative assessment of gray surfaces
  • Energy assessment
    • Coupled heat exchanges
    • Fin exchanges
    • Heat exchangers
    • Nodal methods based on electrical analogy
  • Thermal measurement techniques
    • Temperature measurement
    • Convection flow measurement
    • Measurement of thermophysical properties

WHEN AND WHERE :

Scheduled in French:

TOULOUSE: NEXT DATE - PLEASE CONSULT US 

 

For the English realization, please, consult us.

COURSE FEES :

€1,650 excluding tax (20% VAT)

See general terms

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