18.4. Heat Engine http://www.ck12.org
18.4 Heat Engine
- Give an overview of Heat Engines and Pressure Volume diagrams.
- Calculate ideal efficiencies of heat engines.
Students will learn about Heat Engines, Pressure Volume diagrams and how to calculate ideal efficiencies of heat
engines.Key Equations
Qin=Qout+W+∆UUis the internal energy of the gas. (This is the first law of Thermodynamics and applies to all heat engines.)ec= 1 −Tc
Th
Efficiency of a Carnot (ideal) heat enginewhereTcandThare the temperatures of the hot and cold reservoirs, respectively.
adiabatic expansionis a process occurring without the exchange of heat with the environment
isothermal expansionis a process occurring without a change in temperature
isobaric expansionis a process occurring without a change in pressureGuidance
Heat engines transform input heat into work in accordance with the laws of thermodynamics. For instance, as we
learned in the previous Concept, increasing the temperature of a gas at constant volume will increase its pressure.
This pressure can be transformed into a force that moves a piston.
The mechanics of various heat engines differ but their fundamentals are quite similar and involve the following
steps:- Heat is supplied to the engine from some source at a higher temperature(Th).
- Some of this heat is transferred into mechanical energy through work done(W).
- The rest of the input heat is transferred to some source at a lower temperature(Tc)until the system is in its
original state.
A single cycle of such an engine can be illustrated as follows: