Title :
Compact thermal models for internal convection
Author :
Sabry, Mohamed-Nabil
Author_Institution :
Univ. Francaise d´´Egypte, Chourouk City, Egypt
fDate :
3/1/2005 12:00:00 AM
Abstract :
Objects undergoing heat transfer by convection internally, i.e., not at their boundaries, need special care in their modeling. An extension of the general formulation made earlier for compact thermal models is discussed here in order to cover the case of internal forced convection problems such as micro-channels. The single resistor model based on the heat transfer coefficient h is replaced with a compact model linking all relevant nodes using h as well as fluid thermal capacitance and inertia, such as to satisfy thermodynamic constraints derived earlier for conduction compact models.
Keywords :
forced convection; heat transfer; modelling; compact thermal models; conduction compact models; fluid thermal capacitance; heat transfer coefficient; internal convection; internal forced convection; micro-channels; single resistor model; thermodynamic constraints; Admittance; Computational modeling; Heat transfer; Life testing; Power system analysis computing; Power system simulation; Resistors; Temperature; Thermal force; Thermodynamics; Compact thermal models (CTMs); heat transfer coefficient; thermodynamic constraints;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/TCAPT.2004.843207
