Lecture Demonstration 1: Heat Engines Michal Kepa [email protected] 26 th October 2017 Thermodynamics 2017: Lecture Demonstration 26 th Oct 2017
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Lecture Demonstration 1:
Heat Engines
Michal [email protected]
26th October 2017
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Outline of the lecture:
1. Heat engine motivation.
2. Stirling engine.
3. Erikson engine.
Hand-out to fill in during the lecture.
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Heat engine motivation:
1. Very flexible: they can operate using any available source of
heat such as solar or geothermal.
2. They are also reversible:
Recall the Carnot principle (derived from the 2nd Law):
The efficiency of an irreversible engine is always less than
that of a reversible one, operating between the same two
reservoirs.
Exercise: Calculation of the efficiency of an internal
combustion engine.
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Robert Stirling, 1816
The patent was a heat exchanger, which he called an
"economiser" for its enhancement of fuel economy in
a variety of applications.
Stirling engine:
Stirling engine: Applications:
Pre
ssu
re (
Pa)
Volume (m3)
Heat Engine Cycles Carnot
Stirling
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Philips Stirling Engine, 1952
Solar Stirling Engine, 1998
Kockums Naval Solutions, 1980
Pre
ssure
Volume
1
2
1→ 2 2 → 3
3
4
3 → 4 4 → 1
1→ 2 Isothermal expansion
2 → 3 Isochoric cooling
3 → 4 Isothermal compression
4 → 1 Isochoric heating
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
Ericsson engine:P
ressu
re (
Pa)
Volume (m3)
Heat Engine Cycles
Carnot
Stirling
Ericsson
A
B
CC
CE
DC
CS
DS
DE
Thermodynamics 2017: Lecture Demonstration 26th Oct 2017
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