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The Stirling Cycle Kyle Spengler. The Stirling Cycle Process 1-2: Isothermal expansion 2-3: Constant-volume cooling 3-4: Isothermal compression 4-1: Constant-volume.

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Presentation on theme: "The Stirling Cycle Kyle Spengler. The Stirling Cycle Process 1-2: Isothermal expansion 2-3: Constant-volume cooling 3-4: Isothermal compression 4-1: Constant-volume."— Presentation transcript:

1 The Stirling Cycle Kyle Spengler

2 The Stirling Cycle Process 1-2: Isothermal expansion 2-3: Constant-volume cooling 3-4: Isothermal compression 4-1: Constant-volume heating http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

3 The Stirling Cycle Closed Cycle – the working fluid never leaves the system Reversible External heat source – any heat source is valid, as long as it produces enough heat to expand the fluid Uses a “regenerator” to conserve internal energy and increase thermal efficiency. http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

4 The Stirling Engine First developed in 1816 by Reverend Dr. Robert Stirling After development, had little use until the mid 1900’s, when it became more common Used today in many applications, primarily green energy, since the heat source can be anything (geothermal, solar, etc.) http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

5 The Stirling Engine Main application of the Stirling cycle Uses pistons and cylinders to rotate a crankshaft Two types/configurations – Alpha and Beta Alpha Stirling engines use two cylinders and two pistons Beta Stirling engines use one cylinder, one piston and a “displacer” http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

6 Pros Mechanically very simple in comparison to internal combustion engines Lightweight, compact Not limited by fuel or heat source Aside from a longer warm-up time, reliable in cold weather (unlike some engines) http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

7 Cons Low torque In order to be more efficient, it requires metals with very high thermal conductivity, which can be expensive Rotation is not always smooth – the fluid sometimes heats up faster than it cools off http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

8 Alpha Stirling Engine http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

9 Beta Stirling Engine http://en.wikipedia.org/wiki/Stirling_engine#The_Stirling_cycle

10 Cool Stuff This one runs off of body heat Probably no real application, just cool http://en.wikipedia.org/wiki/Stirling_engine

11 Cool Stuff Solar Stirling engine Uses reflected sun rays as heat source Green energy Could power a house http://www.researchdata.us/Images/Stirlingdish2.jpg

12 Cool Stuff Very large solar Stirling engine Could probably power a small city http://www.tommccarty.com/blog/wp-content/uploads/2008/08/brightsource-solar-mojave2.jpg

13 Cool Stuff Theoretical solar Stirling engine Uses residual heat produced from a solar panel sitting in the sun as heat source Converts the unused heat into electrical energy that can be used http://www.peacekeeper.com/freeideas/ow.asp?p=PersonalStirlingEngine&a=print

14 Works Cited http://en.wikipedia.org/wiki/Stirling_engine #The_Stirling_cycle http://www.tommccarty.com/blog/wp- content/uploads/2008/08/brightsource- solar-mojave2.jpg http://www.peacekeeper.com/freeideas/ow.asp?p=PersonalStirlingEngine&a=print http://www.researchdata.us/Images/Stirlin gdish2.jpg

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