Functional response: Difference between revisions

Revision as of 22:42, 14 January 2014

The West number is an empirical parameter used to characterize the performance of Stirling engines and other Stirling systems. It is very similar to the Beale number where a larger number indicates higher performance; however, the West number includes temperature compensation. The West number is often used to approximate of the power output of a Stirling engine. The average value is (0.25) [1] for a wide variety of engines, although it may range up to (0.35) [2], particularly for engines operating with a high temperature differential.

The West number may be defined as:

W_{n}={\frac {Wo}{PVf}}{\frac {(T_{H}+T_{K})}{(T_{H}-T_{K})}}=B_{n}{\frac {(T_{H}+T_{K})}{(T_{H}-T_{K})}}

where:

W_n is the West number
W_o is the power output of the engine (watts)
P is the mean average gas pressure (Pa) or (MPa, if volume is in cm³)
V is swept volume of the expansion space (m³) or (cm³, if pressure is in MPa)
f is the engine cycle frequency (Hz)
T_H is the absolute temperature of the expansion space or heater (kelvins)
T_K is the absolute temperature of the compression space or cooler (kelvins)
B_n is the Beale number for an engine operating between temperatures T_H and T_K

When the Beale number is known, but the West number is not known, it is possible to calculate it. First calculate the West number at the temperatures T_H and T_K for which the Beale number is known, and then use the resulting West number to calculate output power for other temperatures.

To estimate the power output of a new engine design, nominal values are assumed for the West number, pressure, swept volume and frequency, and the power is calculated as follows:

W_{o}=W_{n}PVf{\frac {(T_{H}-T_{K})}{(T_{H}+T_{K})}}

^[1]

For example, with an absolute temperature ratio of 2, the portion of the equation representing temperature correction equals 1/3. With a temperature ratio of 3, the temperature term is 1/2. This factor accounts for the difference between the West equation, and the Beale equation in which this temperature term is taken as a constant. Thus, the Beale number is typically in the range of 0.10 to 0.15, which is about 1/3 to 1/2 the value of the West number.

References

↑ ornl-tm-10475

External links

Stirling Engine Performance Calculator

Template:Heat engines

[1] rnl-tm-10475

[1]

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+The '''West number''' is an empirical parameter used to characterize the performance of '''[[Stirling engine]]s''' and other Stirling systems. It is very similar to the [[Beale number]] where a larger number indicates higher performance; however, the West number includes temperature compensation. The West number is often used to approximate of the [[Power (physics)|power]] output of a Stirling engine. The average value is (0.25) [http://www.ornl.gov/~webworks/cppr/y2001/rpt/27113.pdf] for a wide variety of engines, although it may range up to (0.35) [http://www.bekkoame.ne.jp/~khirata/academic/simple/simplee.htm], particularly for engines operating with a high [[temperature]] differential.
+The West number may be defined as:
+:<math>W_n = \frac{Wo}{P V f} \frac{(T_H + T_K)}{(T_H - T_K)} = B_n \frac{(T_H + T_K)}{(T_H - T_K)}</math>
+where:
+*'''W<sub>n</sub>''' is the West number
+*'''W<sub>o</sub>''' is the power output of the engine ([[watt]]s)
+*'''P''' is the [[Arithmetic_mean|mean average]] gas [[pressure]] ([[Pascal (unit)|Pa]]) or ([[MPa]], if volume is in cm<sup>3</sup>)
+*'''V''' is swept [[volume]] of the expansion space (m<sup>3</sup>) or (cm³, if pressure is in MPa)
+*'''f''' is the engine cycle [[frequency]] ([[Hertz|Hz]])
+*'''T<sub>H</sub>''' is the absolute [[temperature]] of the expansion space or [[heater]] ([[kelvin]]s)
+*'''T<sub>K</sub>''' is the absolute temperature of the compression space or cooler (kelvins)
+*'''B<sub>n</sub>''' is the [[Beale number]] for an engine operating between temperatures ''T''<sub>''H''</sub> and ''T''<sub>''K''</sub>
+When the Beale number is known, but the West number is not known, it is possible to calculate it.  First calculate the West number at the temperatures ''T''<sub>''H''</sub> and ''T''<sub>''K''</sub> for which the Beale number is known, and then use the resulting West number to calculate output power for other temperatures.
+To estimate the power output of a new engine design, nominal values are assumed for the West number, pressure, swept volume and frequency, and the power is calculated as follows:
+:<math>W_o = W_n P V f \frac{(T_H - T_K)}{(T_H + T_K)} </math> <ref>[http://www.ornl.gov/~webworks/cppr/y2001/rpt/27113.pdf ornl-tm-10475<!-- Bot generated title -->]</ref>
+For example, with an absolute temperature ratio of 2, the portion of the equation representing temperature correction equals 1/3. With a temperature ratio of 3, the temperature term is 1/2. This factor accounts for the difference between the West equation, and the Beale equation in which this temperature term is taken as a constant. Thus, the Beale number is typically in the range of 0.10 to 0.15, which is about 1/3 to 1/2 the value of the West number.
+== References ==
+<references/>
+==External links==
+* [http://www.bekkoame.ne.jp/~khirata/academic/simple/simplee.htm Stirling Engine Performance Calculator]
+{{heat engines}}
+[[Category:Dimensionless numbers]]
+[[Category:Piston engines]]
+[[Category:Mechanical engineering]]

Functional response: Difference between revisions

Revision as of 22:42, 14 January 2014

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