There are two other cycles that involve an isothermal heat-addition process
at THand an isothermal heat-rejection process at TL: the Stirling cycleand
the Ericsson cycle.They differ from the Carnot cycle in that the two isen-
tropic processes are replaced by two constant-volume regeneration processes
in the Stirling cycle and by two constant-pressure regeneration processes in
the Ericsson cycle. Both cycles utilize regeneration,a process during which
heat is transferred to a thermal energy storage device (called a regenerator)
during one part of the cycle and is transferred back to the working fluid dur-
ing another part of the cycle (Fig. 9–25).
Figure 9–26(b) shows the T-sand P-vdiagrams of the Stirling cycle,
which is made up of four totally reversible processes:1-2 Tconstantexpansion (heat addition from the external source)
2-3 vconstantregeneration (internal heat transfer from the working
fluid to the regenerator)
3-4 Tconstantcompression (heat rejection to the external sink)
4-1 vconstantregeneration (internal heat transfer from the
regenerator back to the working fluid)The execution of the Stirling cycle requires rather innovative hardware.
The actual Stirling engines, including the original one patented by Robert
Stirling, are heavy and complicated. To spare the reader the complexities,
the execution of the Stirling cycle in a closed system is explained with the
help of the hypothetical engine shown in Fig. 9–27.
This system consists of a cylinder with two pistons on each side and a
regenerator in the middle. The regenerator can be a wire or a ceramic mesh504 | Thermodynamics
EnergyEnergyREGENERATORWorking fluidFIGURE 9–25
A regenerator is a device that borrows
energy from the working fluid during
one part of the cycle and pays it back
(without interest) during another part.
s124 3Ts = const. s = const.THTL1234PTH
= const.
TH
= const.TH
= const.TL = const. TL = const.TL
= const.1234PRegeneration Regeneration13 24Ps1 24 3Tv = const.
v = const.Regenerations1 24 3P = const.
P = const.Regeneration(a) Carnot cycle (b) Stirling cycle (c) Ericsson cycleqinqoutTHTLTTHTLqinqoutqinqoutqinqoutqinqinqout
qoutvv vFIGURE 9–26
T-sand P-vdiagrams of Carnot,
Stirling, and Ericsson cycles.