Everything about The Heat Capacity Rate totally explained
The
heat capacity rate is
heat transfer
terminology used in
thermodynamics and different forms of engineering denoting the ability of a
fluid to resist
change in
temperature as heat transfer occurs. It is typically denoted as C, listed from empirical data experimentally determined in various reference works, and is typically stated as a comparison between a hot and a cold fluid, C
h and C
c either graphically, or as a
linearized equation. It is an important quantity in
heat exchanger technology common to either heating or cooling systems and needs, and the solution of many real world problems such as the design of disparate items as different as a
microprocessor and an internal combustion
engine.
Basis
A hot fluid's heat capacity rate can be much greater than, equal to, or much less than the heat capacity rate of the same fluid when cold. In practice, it's most important in specifying heat-exchanger systems, wherein one fluid usually of dissimilar nature is used to cool another fluid such as the hot gases or steam cooled in a
power plant by a
heat sink from a water source—a case of dissimilar fluids, or for specifying the minimal cooling needs of heat transfer across boundaries, such as in air cooling.
As the ability of a fluid to resist change in temperature itself changes as heat transfer occurs changing it's net average instantaneous temperature, it's a quantity of interest in designs which have to compensate for the fact that it varies continuously in a dynamic system. While itself varying, such change must be taken into account when designing a system for overall behavior to stimuli or likely
environmental conditions, and in particular the worst case conditions encountered under the high stressess imposed near the limits of operability— for example, an air cooled engine in a desert clime on a very hot day.
If the hot fluid had a much larger heat capacity rate, then when hot and cold fluids went through a heat exchanger, the hot fluid would have a very small change in temperature while the cold fluid would heat up a significant amount. If the cool fluid has a much lower heat capacity rate, that's desirable. If they were equal, they'd both change more or less temperature equally, assuming equal mass-flow per unit time through a heat exchanger. In practice, a cooling fluid which has both a higher
specific heat capacity and a lower heat capacity rate is desirable, accounting for the pervasiveness of water cooling solutions in technology—the polar nature of the water molecule creates some distinct sub-atomic behaviors favorable in practice.
where
C = heat capacity rate of the fluid of interest,
dm/dt = mass flow rate of the fluid of interest and
cp = specific heat of the fluid of interest.
Further Information
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