A computer cooled by a fan contains eight printed circuit boards (PCBs), each dissipating 10 W of power. The height of the PCBs is 12 cm and the length is 18 cm. The clearance between the tips of the components on the PCB and the back surface of the adjacent PCB is 0.3 cm. The cooling air is supplied by a 10-W fan mounted at the inlet. If the temperature rise of air as it flows through the case of the computer is not to exceed 10°C, determine (a) the flow rate of the air that the fan needs to deliver, (b) the fraction of the temperature rise of air that is due to the heat generated by the fan and its motor, and (c) the highest allowable inlet air temperature if the surface temperature of the components is not to exceed 70°C anywhere in the system. As a first approximation, assume flow is fully developed in the channel. Evaluate properties of air at a bulk mean temperature of 25°C. Is this a good assumption?
A computer cooled by a fan contains eight printed
circuit boards (PCBs), each dissipating 10 W of power.
The height of the PCBs is 12 cm and the length is 18 cm. The
clearance between the tips of the components on the PCB and
the back surface of the adjacent PCB is 0.3 cm. The cooling
air is supplied by a 10-W fan mounted at the inlet. If the temperature
rise of air as it flows through the case of the computer
is not to exceed 10°C, determine (a) the flow rate of
the air that the fan needs to deliver, (b) the fraction of the
temperature rise of air that is due to the heat generated by the
fan and its motor, and (c) the highest allowable inlet air temperature
if the surface temperature of the components is not
to exceed 70°C anywhere in the system. As a first approximation,
assume flow is fully developed in the channel. Evaluate
properties of air at a bulk mean temperature of 25°C. Is
this a good assumption?
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