Mean piston speed: Difference between revisions
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Revision as of 04:32, 15 August 2009
The mean piston speed is the average speed of the piston in a reciprocating engine. It is obtained by multiplying the stroke length times two for each revolution of the crankshaft by the rotational speed of the engine, since the piston moves up and down the stroke per revolution.
For example, a piston in an automobile engine which has a stroke of 90 mm will have a mean speed at 3000 rpm of
(90 / 1000) * 2 * (3000 / 60) = 9 m/s.
It is a good indicator of the class and performance of an engine relative to its competitors. Honda S2000 has the highest piston speed for any production car (25.2 m/s).
Classes
- low speed diesels
- ~8.5 m/s for marine and electric power generation applications
- medium speed diesels
- ~11 m/s for trains or trucks
- high speed diesel
- ~14 m/s for automobile engines
- medium speed petrol
- ~16 m/s for automobile engines
- high speed petrol
- ~20-25 m/s for sport automobile engines or motorcycles
- competition
- Some extreme examples are Nascar Nextel Cup Series and Formula one engines with ~25 m/s and Top Fuel engines ~30 m/s
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