Valiant–Vazirani theorem: Difference between revisions

Latest revision as of 21:08, 13 May 2013

Corrected Flow is the mass flow that would pass through a device (e.g. compressor, bypass duct, etc.) if the inlet pressure and temperature corresponded to ambient conditions at Sea Level, on a Standard Day (e.g. 14.696 lbf/in², 518.7R).

Corrected Flow, $w \sqrt{θ} / δ$ , can be calculated as follows, assuming Imperial Units:

$w \sqrt{θ} / δ = w \sqrt{T / 518.7} / (P / 14.696)$

Corrected Flow is often given the symbol $w c$ or $w r$ (for referred flow).

So-called Non-Dimensional Flow, $w \sqrt{T} / P$ , is proportional to Corrected Flow:

$w \sqrt{T} / P = w \sqrt{θ} / δ * \sqrt{518.7} / 14.696$

The equivalent equations for Preferred SI Units are: (101.325kPa, 288.15K)

$w \sqrt{θ} / δ = w \sqrt{T / 288.15} / (P / 101.325)$

$w \sqrt{T} / P = w \sqrt{θ} / δ * \sqrt{288.15} / 101.325$

Nomenclature:

$P$ Stagnation (or Total) Pressure

$T$ Stagnation (or Total) Temperature

$w$ Real Mass Flow

$δ$ Referred Pressure

$θ$ Referred Temperature

In relative form, Corrected Flow, Referred Flow and Non-Dimensional Flow are all measures of axial Mach number.

Side note: If the mass flow can be considered an energy source such as fuel flow, the corrected flow is calculated as follows:

$w / (δ * \sqrt{θ})$

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+'''Corrected Flow''' is the mass flow that would pass through a device (e.g. compressor, bypass duct, etc.) if the inlet pressure and temperature corresponded to ambient conditions at Sea Level, on a Standard Day (e.g. 14.696&nbsp;lbf/in², 518.7R).
+Corrected Flow, '''<math>w\sqrt{\theta}/{\delta}</math>''', can be calculated as follows, assuming Imperial Units:
+'''<math>w\sqrt{\theta}/{\delta} = w\sqrt{T/518.7}/(P/14.696)</math>'''
+Corrected Flow is often given the symbol '''<math>wc</math>''' or '''<math>wr</math>''' (for referred flow).
+So-called Non-Dimensional Flow, '''<math>w\sqrt{T}/{P}</math>''', is proportional to Corrected Flow:
+'''<math>w\sqrt{T}/{P}= w\sqrt{\theta}/{\delta} * \sqrt{518.7}/{14.696}</math>'''
+The equivalent equations for Preferred SI Units are: (101.325kPa, 288.15K)
+'''<math>w\sqrt{\theta}/{\delta} = w\sqrt{T/288.15}/(P/101.325)</math>'''
+'''<math>w\sqrt{T}/{P}= w\sqrt{\theta}/{\delta} * \sqrt{288.15}/{101.325}</math>'''
+Nomenclature:
+*'''<math>P</math>''' Stagnation (or Total) Pressure
+*'''<math>T</math>''' Stagnation (or Total) Temperature
+*'''<math>w</math>''' Real Mass Flow
+*'''<math>{\delta}</math>''' Referred Pressure
+*'''<math>{\theta}</math>''' Referred Temperature
+In relative form, Corrected Flow, Referred Flow and Non-Dimensional Flow are all measures of axial Mach number.
+Side note:
+If the mass flow can be considered an energy source such as fuel flow, the corrected flow is calculated as follows:
+'''<math> w/(\delta * \sqrt{\theta})</math>'''
+==See also==
+*[[compressor map]]
+*[[turbine map]]
+*[[corrected speed]]
+[[Category:Turbines]]
+[[Category:Aerospace engineering]]
+[[Category:Jet engines]]
+{{Engine-aircraft-stub}}

Valiant–Vazirani theorem: Difference between revisions

Latest revision as of 21:08, 13 May 2013

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