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ENABLING OBJECTIVES (Cont.) - h1012v2_20

Thermodynamics Heat Transfer and Fluid Flow Volume 2 of 3
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Heat Transfer OBJECTIVES TERMINAL OBJECTIVE 1.0 Given  the  operating  conditions  of  a  thermodynamic  system  and  the  necessary formulas, EVALUATE the heat transfer processes which are occurring. ENABLING OBJECTIVES 1.1 DESCRIBE the difference between heat and temperature. 1.2 DESCRIBE the difference between heat and work. 1.3 DESCRIBE the Second Law of Thermodynamics and how it relates to heat transfer. 1.4 DESCRIBE the three modes of heat transfer. 1.5 DEFINE the following terms as they relate to heat transfer: a. Heat flux b. Thermal conductivity c. Log mean temperature difference d. Convective heat transfer coefficient e. Overall heat transfer coefficient f. Bulk temperature 1.6 Given  Fourier’s  Law  of  Conduction,  CALCULATE  the  conduction  heat  flux  in  a rectangular coordinate system. 1.7 Given  the  formula  and  the  necessary  values,  CALCULATE  the  equivalent  thermal resistance. 1.8 Given  Fourier’s  Law  of  Conduction,  CALCULATE  the  conduction  heat  flux  in  a cylindrical coordinate system. 1.9 Given   the   formula   for   heat   transfer   and   the   operating   conditions   of   the   system, CALCULATE the rate of heat transfer by convection. 1.10 DESCRIBE how the following terms relate to radiant heat transfer: a. Black body radiation b. Emissivity c. Radiation configuration factor Rev. 0 Page vii HT-02







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