Title :
Pressure drop and heat transfer in an isothermal channel with impinging flow
Author :
Biber, Catharina R.
Author_Institution :
Wakefield Eng., MA, USA
fDate :
12/1/1997 12:00:00 AM
Abstract :
The performance of air-cooled plate-fin heat sinks in impinging flow differs significantly from that of similar heat sinks in parallel flow. A numerical experiment and analytical scaling has been carried out to determine the pressure drop and thermal performance of single isothermal channels with variable-width impinging flow. The flow enters the channel normal to the heat sink base. The pressure drop and thermal performance of the flow in this configuration are particularly important for analyzing plate-fin heat sinks for which axial fans supply the flow, since the fan flow rate varies with the static pressure. The results of the numerical experiment and scaling are combined into dimensionless correlations for pressure loss coefficient and channel average Nusselt number. These correlations may then be used to predict the thermal performance of the heat sink
Keywords :
channel flow; cooling; heat sinks; Nusselt number; air-cooled plate-fin heat sink; analytical scaling; axial fan; dimensionless correlations; electronics cooling; heat transfer; impinging flow; isothermal channel; numerical experiment; pressure drop; thermal performance; Channel spacing; Geometry; Heat engines; Heat sinks; Heat transfer; Isothermal processes; Performance analysis; Power engineering and energy; Thermal conductivity; Thermal resistance;
Journal_Title :
Components, Packaging, and Manufacturing Technology, Part A, IEEE Transactions on
