Mean piston speed
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The mean piston speed is the average speed of the piston in a reciprocating engine. It is a function of stroke and RPM. There is a factor of 2 in the equation to account for one stroke to occur in 1/2 of a crank revolution (or alternatively: two strokes per one crank revolution) and a '60' to convert seconds from minutes in the RPM term.
MPS = 2 * Stroke * RPM / 60
For example, a piston in an automobile engine which has a stroke of 90 mm will have a mean speed at 3000 rpm of 2 * (90 / 1000) * 3000 / 60 = 9 m/s.
It is a good indicator of the class and performance of an engine relative to its competitors. Honda S2000 had the highest piston speed for any production car (25.2 m/s) until the B7 Audi RS4 (2006-2008) debuted. This Audi was powered by a 4.2-liter naturally aspirated V8 (92.7mm stroke; 8250 RPM redline), resulting in a mean piston speed of 25.5 m/s. The Audi was in turn beaten by the 2015-2016 Ford Mustang Shelby GT350, which has a 5.2-liter naturally aspirated V8 (93.0mm stroke; 8250 RPM redline) with a mean piston speed of 25.6 m/s.
Corrected Piston Speed Frederick Lanchester and Janke and King
Corrected Piston speed is a method to more accurately represent stress on an engine, and is calculated as
mean piston speed divided by the square root of the stroke/bore ratio
http://autos.groups.yahoo.com/group/mc-engine/message/2928 Classic Racing Engines Karl Ludvigsen (Glossay)
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 Sprint Cup Series and Formula one engines with ~25 m/s and Top Fuel engines ~30 m/s
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