Engine power
Engine power is the power that an engine can put out. It can be expressed in power units, most commonly kilowatt, pferdestärke (metric horsepower), or horsepower. In terms of internal combustion engines, the engine power usually describes the rated power, which is a power output that the engine can maintain over a long period of time according to a certain testing method, for example ISO 1585. In general though, an internal combustion engine has a power take-off shaft (the crankshaft), therefore, the rule for shaft power applies to internal combustion engines: Engine power is the product of the engine torque and the crankshaft's angular velocity.
Engine power | |
---|---|
Common symbols | P |
SI unit | Kilowatt (kW) |
In SI base units | 1000 kg⋅m2⋅s−3 |
Derivations from other quantities | P = M·ω |
Dimension |
Definition
Power is the product of torque and angular velocity:[1]
Let:
- Power in Watt (W)
- Torque in Newton-metre (N·m)
- Crankshaft speed per Second (s−1)
- Angular velocity =
Power is then:
In internal combustion engines, the crankshaft speed is a more common figure than , so we can use instead, which is equivalent to :[2]
Note that is per Second (s−1). If we want to use the common per Minute (min−1) instead, we have to divide by 60:
Usage
Numerical value equations
The approximate numerical value equations for engine power from torque and crankshaft speed are:[1][3][4]
International unit system (SI)
Let:
- Power in Kilowatt (kW)
- Torque in Newton-metre (N·m)
- Crankshaft speed per Minute (min−1)
Then:
Technical unit system (MKS)
- Power in Pferdestärke (PS)
- Torque in Kilopondmetre (kp·m)
- Crankshaft speed per Minute (min−1)
Then:
Imperial/U.S. Customary unit system
- Power in Horsepower (hp)
- Torque in Pound-force foot (lbf·ft)
- Crankshaft speed in Revolutions per Minute (rpm)
Then:
Example
The power curve (orange) can be derived from the torque curve (blue)
by multiplying with the crankshaft speed and dividing by 9550
A diesel engine produces a torque of 234 N·m at 4200 min−1, which is the engine's rated speed.
Let:
Then:
or using the numerical value equation:
The engine's rated power output is 103 kW.
Units
Kilowatt | Kilopondmetre per Second | Pferdestärke | Horsepower | Pound-force foot per minute | |
---|---|---|---|---|---|
1 kW (= 1000 kg·m2·s−3) = | 1 | 101.97 | 1.36 | 1.34 | 44,118 |
1 kp·m·s−1 = | 0.00980665 | 1 | 0.013 | 0.0132 | 433.981 |
1 PS = | 0.73549875 | 75 | 1 | 0.986 | 32,548.56 |
1 hp = | 0.7457 | 76.04 | 1.014 | 1 | 33,000 |
1 lbf·ft·min−1 = | 2.26·10−5 | 0.0023 | 2.99·10−5 | 3.03·10−5 | 1 |
Bibliography
- Böge, Wolfgang (2017), Alfred Böge (ed.), Handbuch Maschinenbau (in German), Wiesbaden: Springer, ISBN 978-3-658-12528-8
- Böge, Alfred (1972), Mechanik und Festigkeitslehre (in German), Wiesbaden: Vieweg, ISBN 9783528140106
- Kemp, Albert W. (1998), Industrial Mechanics, American Technical Publishers, ISBN 9780826936905
- Fred Schäfer, Richard van Basshuysen, ed. (2017), Handbuch Verbrennungsmotor (in German), Wiesbaden: Springer, ISBN 978-3-658-10901-1
References
- Böge 2017. p 233
- Fred Schäfer, Richard van Basshuysen 2017. p. 21
- Böge 1972. p 154
- Kemp 1998. p 259