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Revision as of 08:59, 11 February 2004 edit67.118.247.22 (talk) Added three stirling engine types and descriptions← Previous edit Revision as of 20:10, 9 March 2004 edit undoMichael Hardy (talk | contribs)Administrators210,266 editsmNo edit summaryNext edit →
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:''A Stirling machine having two pistons coupled to a harmonic crank drive linkage for providing a specified phase relationship between sinusoidal displacements of each piston with respect to a fixed fiducial point. The harmonic crank drive linkage has a primary crankshaft and an eccentric crankshaft mounted internally to the primary crankshaft and coupled via a gear set to counterrotate with respect to the primary crankshaft. The eccentric crankshaft may be cantilevered with respect to the primary shaft, with the pistons of the engine coupled to the eccentric crankshaft externally to the supporting bearings. A flywheel coupled to the eccentric crankshaft provides for operation of the engine with a zero net angular momentum. An intake manifold provides for mixing air and fuel for combustion heating of the engine.'' :''A Stirling machine having two pistons coupled to a harmonic crank drive linkage for providing a specified phase relationship between sinusoidal displacements of each piston with respect to a fixed fiducial point. The harmonic crank drive linkage has a primary crankshaft and an eccentric crankshaft mounted internally to the primary crankshaft and coupled via a gear set to counterrotate with respect to the primary crankshaft. The eccentric crankshaft may be cantilevered with respect to the primary shaft, with the pistons of the engine coupled to the eccentric crankshaft externally to the supporting bearings. A flywheel coupled to the eccentric crankshaft provides for operation of the engine with a zero net angular momentum. An intake manifold provides for mixing air and fuel for combustion heating of the engine.''


==Stirling Engine Types== ==Stirling engine types==


Stirling Engines come in three distinct types: Stirling Engines come in three distinct types:

Revision as of 20:10, 9 March 2004


A Stirling engine, named after Robert Stirling, clergyman and inventor of what he called an "air engine", is a type of engine that creates a time-phase relationship between hot and cold temperatures to move a piston, that is harnessed to provide power. Patented in 1816, Stirling's engines couldn't explode (unlike steam engines) and produced more power than the steam engines of the time. Stirling engines are also used as a fast cooling device, using a motor to move the piston making the engine very cold.

From a new (1998) patent by John Kerwin, Dean Kamen, and others:

A Stirling machine having two pistons coupled to a harmonic crank drive linkage for providing a specified phase relationship between sinusoidal displacements of each piston with respect to a fixed fiducial point. The harmonic crank drive linkage has a primary crankshaft and an eccentric crankshaft mounted internally to the primary crankshaft and coupled via a gear set to counterrotate with respect to the primary crankshaft. The eccentric crankshaft may be cantilevered with respect to the primary shaft, with the pistons of the engine coupled to the eccentric crankshaft externally to the supporting bearings. A flywheel coupled to the eccentric crankshaft provides for operation of the engine with a zero net angular momentum. An intake manifold provides for mixing air and fuel for combustion heating of the engine.

Stirling engine types

Stirling Engines come in three distinct types:

  • An Alpha Stirling contains two separate power pistons, one "hot" piston and one "cold" piston. The hot piston is situated after the higher temperature heat exchanger and the cold piston is situated after the low temperature heat exchanger. This type of engine has a very high power to volume ratio but has technical problems due to the (often) high temperature of the "hot" piston and its seals.
  • A Beta Stirling has a single power piston arranged coaxially with a displacer piston. The displacer piston does not extract any power from the expanding gas but only serves to shuttle the working fluid from the hot heat exchanger to the cold heat exchanger. This engine does not require moving seals in the hot portion of the engine and can achieve high compression ratios due to pistons being able to overlap in their motions.
  • A Gamma Stirling is simply a Beta Stirling in which the Power piston is not mounted coaxially to it's displacer piston. This configuration produces a lower compression ratio but is often mechanically simpler and often used in multi cylinder stirling engines.

External links

Indexes

How it works

Information media

Do-It-Yourself model Stirling/Hot-Air maskiner

Applications