AC 6-10 Test Data: Difference between revisions

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{{AC|front=AC 6-10|description=AC 6-10 Description|testdata=AC 6-10 Test Data|cfdsimulations=AC 6-10 CFD Simulations|evaluation=AC 6-10 Evaluation|qualityreview=AC 6-10 Quality Review|bestpractice=AC 6-10 Best Practice Advice|relatedACs=AC 6-10 Related ACs}}
{{AC|front=AC 6-10|description=AC 6-10 Description|testdata=AC 6-10 Test Data|cfdsimulations=AC 6-10 CFD Simulations|evaluation=AC 6-10 Evaluation|qualityreview=AC 6-10 Quality Review|bestpractice=AC 6-10 Best Practice Advice|relatedUFRs=AC 6-10 Related ACs}}




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= Axial compressor cascade =
= Axial compressor cascade =


'''Application Challenge 6-10''' <font size="-2" color="#888888">               © copyright ERCOFTAC 2004</font>
'''Application Challenge 6-10''' <font size="-2" color="#888888">               © copyright ERCOFTAC 2004</font>




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== Overview of Measurements ==
== Overview of Measurements ==


Experimental investigations on the boundary layer and loss behaviour on a high turning compressor cascade up to 0.90 inlet Mach number were performed in the High Speed Cascade Wind Tunnel of DFVLR Braunschweig. The tunnel was installed in a tank which could be evacuated from 1 to 0.05 bar and an independent variation of Mach number and Reynolds number was possible. The degree of turbulence at inlet was about 5% using grids of crossed bars upstream of the cascade. The tunnel geometry is described in section 1.4. The design point of the V2 cascade is given by an inlet Mach number of 0.85, Reynolds number of 5E5 (based on blade chord), inlet flow angle of 139.5<sup>o</sup> and flow turning of 50<sup>o</sup>.
Experimental investigations on the boundary layer and loss behaviour on a high turning compressor cascade up to 0.90 inlet Mach number were performed in the High Speed Cascade Wind Tunnel of DFVLR Braunschweig. The tunnel was installed in a tank which could be evacuated from 1 to 0.05 bar and an independent variation of Mach number and Reynolds number was possible. The degree of turbulence at inlet was about 5% using grids of crossed bars upstream of the cascade. The tunnel geometry is described in section 1.4. The design point of the V2 cascade is given by an inlet Mach number of 0.85, Reynolds number of 5x10<sup>5</sup> (based on blade chord), inlet flow angle of 139.5&deg; and flow turning of 50&deg;.


Wake traverse measurements (total pressure, static pressure and outlet flow angle) at mid-span position of blade number 8 were performed with a wedge type probe located at 30% of true chord axially downstream of the blade trailing edge. [A6-10exp.htm#Figure21 Figure 2.1] shows a diagram of the wedge probe used and [A6-10exp.htm#Figure22 Figure 2.2] shows the location of the measuring plane. Surface pressure distributions also at the midspan position were measured using static pressure tappings on the suction and the pressure sides of the blades adjacent to the center blade.
Wake traverse measurements (total pressure, static pressure and outlet flow angle) at mid-span position of blade number 8 were performed with a wedge type probe located at 30% of true chord axially downstream of the blade trailing edge. [[#Figure2.1|Figure 2.1]] shows a diagram of the wedge probe used and [[#Figure2.2|Figure 2.2]] shows the location of the measuring plane. Surface pressure distributions also at the midspan position were measured using static pressure tappings on the suction and the pressure sides of the blades adjacent to the center blade.


<center></center>


<span id="Figure2.1"></span>
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<center>Figure 2.1 Wedge probe</center>
<center>Figure 2.1 Wedge probe</center>




<span id="Figure2.2"></span>
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<br clear="ALL" />Figure 2.2 V2 Cascade geometry and locations of measurement planes
<br clear="ALL" />
Figure 2.2 V2 Cascade geometry and locations of measurement planes


<br clear="ALL" />
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<span id="Table 2.1"></span>
<span id="Table2.1"></span>
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<center>0.0924</center>
<center>0.0924</center>
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<center> </center>
<center> </center>
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<center>Symmetrical for x/l = 0 – 0.5 and 0.5 – 1.0 respectively.</center>
<center>Symmetrical for x/l = 0 &ndash; 0.5 and 0.5 &ndash; 1.0 respectively.</center>


<center>Leading radius r<sub>N</sub>/l = 0.0049</center>
<center>Leading radius r<sub>N</sub>/l = 0.0049</center>
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<center>Table 2.1 Profile coordinates for the ECA2-V2 cascade.</center>
<center>Table 2.1 Profile coordinates for the ECA2-V2 cascade.</center>


Boundary layer measurements were carried out at different positions on the blade suction side at the midspan position. [A6-10exp.htm#Figure22 Figure 2.2] shows the locations of the inlet and exit measuring planes and the locations of the boundary layer measurements. These boundary layer measurements were carried out with a specially developed two finger probe (see [A6-10exp.htm#Figure23 Figure 2.3]). The probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer. There is a high level of confidence in the experimental data and the case was chosen by AGARD Working Group 18.
Boundary layer measurements were carried out at different positions on the blade suction side at the midspan position. [[#Figure2.2|Figure 2.2]] shows the locations of the inlet and exit measuring planes and the locations of the boundary layer measurements. These boundary layer measurements were carried out with a specially developed two finger probe (see [[#Figure2.3|Figure 2.3]]). The probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer. There is a high level of confidence in the experimental data and the case was chosen by AGARD Working Group 18.
 
<center></center>


<span id="Figure2.3"></span>
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<br clear="ALL" />  <br clear="ALL" /> Figure 2.3 Two finger boundary layer probe
<br clear="ALL" /> <br clear="ALL" /> Figure 2.3 Two finger boundary layer probe


=== Overview of tests ===
=== Overview of tests ===


All the tests were carried out at an inlet Reynolds number of 5E5 based on blade chord and with a freestream turbulence intensity of 5%. The results are presented in two groups. EXP1-4 investigated a range of inlet mach numbers from 0.3 to 0.85 for the design inlet angle of 49.5 degrees and a constant &Omega; of 1.20. EXP7-EXP10 then demonstrated the influence of inlet angle at constant Mach number (M<sub>1</sub>=0.8) on different &Omega; values. These tests are summarized in [A6-10exp.htm#TableEXPA Table Exp-A].
All the tests were carried out at an inlet Reynolds number of 5E5 based on blade chord and with a freestream turbulence intensity of 5%. The results are presented in two groups. EXP1-4 investigated a range of inlet mach numbers from 0.3 to 0.85 for the design inlet angle of 49.5 degrees and a constant &Omega; of 1.20. EXP7-EXP10 then demonstrated the influence of inlet angle at constant Mach number (M<sub>1</sub>=0.8) on different &Omega; values. These tests are summarized in [[AC 6-10 Test Data#TableEXPA|Table Exp-A]].


In all tests the measured parameters were:
In all tests the measured parameters were:


•Total pressure, static pressure and outlet flow angle at the mid-span position of blade number 8 at 30% of true chord axially downstream of the blade trailing edge.
* Total pressure, static pressure and outlet flow angle at the mid-span position of blade number 8 at 30% of true chord axially downstream of the blade trailing edge.


•Surface pressure distributions also at the midspan position on the suction and the pressure sides of the blades adjacent to the center blade.
* Surface pressure distributions also at the midspan position on the suction and the pressure sides of the blades adjacent to the center blade.


•Boundary layer measurements (total and static pressure through the boundary layer) were carried out at different positions (see [A6-10exp.htm#Figure22 Figure 2.2]) on the blade suction side at the midspan position.
* Boundary layer measurements (total and static pressure through the boundary layer) were carried out at different positions (see [[#Figure2.2|Figure 2.2]]) on the blade suction side at the midspan position.


The data corresponding to these measurements is summarized in [A6-10exp.htm#TableEXPB Table Exp-B].
The data corresponding to these measurements is summarized in [[AC 6-10 Test Data#TableEXPB|Table Exp-B]].


=== Boundary Data ===
=== Boundary Data ===
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<br clear="ALL" /><br clear="ALL" /> Pressure and temperature data is measured at the inlet and outlet.
<br clear="ALL" />
Pressure and temperature data is measured at the inlet and outlet.


The outflow measurement plane is located far enough downstream of the blade trailing edge to have no effect on the flow over the blade. The blade surfaces and the wall boundaries are considered to be smooth. The pitchwise boundaries for the measurement blade can be considered to be periodic.
The outflow measurement plane is located far enough downstream of the blade trailing edge to have no effect on the flow over the blade. The blade surfaces and the wall boundaries are considered to be smooth. The pitchwise boundaries for the measurement blade can be considered to be periodic.
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The errors in measurement quantities for all tests are:
The errors in measurement quantities for all tests are:


&alpha; = &plusmn;0.2degrees
''&alpha;'' = &plusmn;0.2degrees


M = &plusmn;0.003
''&Omega;'' = &plusmn;0.003


&zeta;<sub>1</sub> = &plusmn;0.001
''&zeta;<sub>1</sub>'' = &plusmn;0.001


Cp = &plusmn;0.005
''Cp'' = &plusmn;0.005


The boundary layer probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer.
The boundary layer probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer.


<br style="page-break-before: always" clear="all" /><div class="Section4">
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'' ''


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{|align="center" border="1" width="600"
<center>''GNDPs''</center>
|+ align="bottom"|<b>Table EXP-A Summary Description of all Test Cases</b>
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!align="center"|
<center>''PDPs (problem definition parameters)''</center>
!align="center" colspan="2"|[[DOAPs#GNDPs:_Governing_Non-Dimensional_Parameters|GNDPs]]
 
!align="center" colspan="3"|[[DOAPs#PDPs:_Problem_Definition_Parameters|PDPs]]
<center> </center>
!align="center" colspan="2"|[[DOAPs#MPs:_Measured_Parameters|MPs]]
| style="width: 238.9pt; border: solid black .1pt; background: white; padding: 0cm 0cm 0cm 0cm; height: 17.25pt" colspan="2" width="319" valign="top" |
<center>''MPs (measured parameters)''</center>
|-
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|
 
|align="center"|''Re''
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|align="center"|''Tu<sub>1</sub>'' %
<center>Re<sub>1</sub></center>
|align="center"|''M<sub>1</sub>''
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|align="center"|''&alpha;<sub>1</sub>'' (deg)
<center>Tu<sub>1</sub> %</center>
|align="center"|''&Omega;''
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
|align="center"|Detailed Data
<center>M<sub>1</sub></center>
|align="center"|DOAPs
| style="width: 94.3pt; border: none; border-left: solid black .1pt; background: white; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border: none; border-left: solid black .1pt; background: white; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
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<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; background: white; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
|-
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!align="center"|EXP 1
'''EXP 1'''
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.3||align="center"|49.5
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|align="center"|1.2
<center>5E5</center>
|align="center" rowspan="8"|''Cp'', ''&omega;'', ''w/w<sub>&infin;</sub>
| style="width: 57.4pt; border: none; border-left: solid black .1pt; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
|align="center" rowspan="8"|''&zeta;<sub>1</sub>'', ''a<sub>2</sub>, ''M<sub>2</sub>
<center>5</center>
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<center>0.3</center>
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<center>49.5</center>
| style="width: 56.55pt; border-top: solid black .1pt; border-left: solid black .1pt; border-bottom: none; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.2</center>
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<center>Cp, ω, w/w<sub></sub></center>
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<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
|-
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!align="center"|EXP 2
 
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.6||align="center"|49.5
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|align="center"|1.2
<center>Re<sub>1</sub></center>
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<center>Tu<sub>1</sub> %</center>
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<center>M<sub>1</sub></center>
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<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; background: white; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
|-
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!align="center"|EXP 3
'''EXP 2'''
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.8||align="center"|49.5
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|align="center"|1.2
<center>5E5</center>
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<center>5</center>
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<center>0.6</center>
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<center>49.5</center>
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<center>1.2</center>
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<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
|-
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!align="center"|EXP 4
 
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.85||align="center"|49.5
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|align="center"|1.2
<center>Re<sub>1</sub></center>
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<center>Tu<sub>1</sub> %</center>
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<center>M<sub>1</sub></center>
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<center>&alpha;<sub>1</sub> (degs)</center>
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<center>&Omega;</center>
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<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
|-
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!align="center"|EXP 7
'''EXP 3'''
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.8||align="center"|49.5
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|align="center"|1.12
<center>5E5</center>
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<center>5</center>
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<center>0.8</center>
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<center>49.5</center>
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<center>1.2</center>
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<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
|-
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!align="center"|EXP 8
 
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.8||align="center"|49.5
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|align="center"|1.27
<center>Re<sub>1</sub></center>
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<center>Tu<sub>1</sub> %</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>M<sub>1</sub></center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
!align="center"|EXP 9
'''EXP 4'''
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.8||align="center"|52.5
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
|align="center"|1.12
<center>5E5</center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>5</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>0.85</center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>49.5</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.2</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
!align="center"|EXP 10
|align="center"|5x10<sup>5</sup>||align="center"|5||align="center"|0.8||align="center"|52.5
|align="center"|1.3
|}


| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>Re<sub>1</sub></center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>Tu<sub>1</sub> %</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>M<sub>1</sub></center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
'''EXP 7'''
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>5E5</center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>5</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>0.8</center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>49.5</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.12</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>Re<sub>1</sub></center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>Tu<sub>1</sub> %</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>M<sub>1</sub></center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
'''EXP 8'''
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>5E5</center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>5</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>0.8</center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>49.5</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.27</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>Re<sub>1</sub></center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>Tu<sub>1</sub> %</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>M<sub>1</sub></center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
'''EXP 9'''
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>5E5</center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>5</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>0.8</center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>52.5</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.12</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |


| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>Re<sub>1</sub></center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>Tu<sub>1</sub> %</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>M<sub>1</sub></center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>&alpha;<sub>1</sub> (degs)</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>&Omega;</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>detailed data</center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
|-
| style="width: 84.6pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; background: white; padding: 0cm 0cm 0cm 0cm" width="113" valign="top" |
'''EXP 10'''
| style="width: 66.2pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="88" valign="top" |
<center>5E5</center>
| style="width: 57.4pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="77" valign="top" |
<center>5</center>
| style="width: 102.8pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="137" valign="top" |
<center>0.8</center>
| style="width: 94.3pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="126" valign="top" |
<center>52.5</center>
| style="width: 56.55pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="75" valign="top" |
<center>1.3</center>
| style="width: 146.1pt; border-top: none; border-left: solid black .1pt; border-bottom: solid black .1pt; border-right: none; padding: 0cm 0cm 0cm 0cm" width="195" valign="top" |
<center>Cp, ω, w/w<sub>∞</sub></center>
| style="width: 92.8pt; border: solid black .1pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="124" valign="top" |
<center>&zeta;<sub>1</sub>, a<sub>2</sub>, M<sub>2</sub></center>
|}


Table EXP-A Summary description of all test cases


<br style="page-break-before: always" clear="all" />
<br style="page-break-before: always" clear="all" />
 
<span id="TableEXPB"></span>
{| style="margin-left: 85.45pt; border-collapse: collapse; border: none" border="1"
{| style="margin-left: 85.45pt; border-collapse: collapse; border: none" border="1"
|+ align="bottom"|<b>Table EXP-B Summary description of all measured parameters and available datafiles</b>
|- style="height: 34.25pt"
|- style="height: 34.25pt"
| style="width: 56.8pt; border: solid black .75pt; padding: 0cm 0cm 0cm 0cm; height: 34.25pt" width="76" valign="top" |
| style="width: 56.8pt; border: solid black .75pt; padding: 0cm 0cm 0cm 0cm; height: 34.25pt" width="76" valign="top" |
Line 649: Line 416:
<center>(velocity ratio)</center>
<center>(velocity ratio)</center>
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| style="width: 120.5pt; border: solid black .75pt; border-left: none; padding: 0cm 0cm 0cm 0cm; height: 34.25pt" width="161" valign="top" |
<center>[../../help/glossary.htm DOAP]s</center>
<center>[[DOAP]]s</center>


<center>&zeta;<sub>1</sub> (%), M<sub>2</sub>,&alpha;<sub>2</sub> (deg)</center>
<center>&zeta;<sub>1</sub> (%), M<sub>2</sub>,&alpha;<sub>2</sub> (deg)</center>
Line 658: Line 425:
EXP 1
EXP 1
| style="width: 120.4pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
| style="width: 120.4pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp11.dat exp11.dat]</center>
<center>[[media:AC6-10_exp11.dat|exp11.dat]]</center>
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| style="width: 5.0cm; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="189" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp12.dat exp12.dat]</center>
<center>[[media:AC6-10_exp12.dat|exp12.dat]]</center>
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| style="width: 92.15pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="123" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp13.dat exp13.dat]</center>
<center>[[media:AC6-10_exp13.dat|exp13.dat]]</center>
| style="width: 120.5pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
| style="width: 120.5pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp14.dat exp14.dat]</center>
<center>[[media:AC6-10_exp14.dat|exp14.dat]]</center>
|-
|-
| style="width: 56.8pt; border: solid black .75pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="76" valign="top" |
| style="width: 56.8pt; border: solid black .75pt; border-top: none; padding: 0cm 0cm 0cm 0cm" width="76" valign="top" |
EXP 2
EXP 2
| style="width: 120.4pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
| style="width: 120.4pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp21.dat exp21.dat]</center>
<center>[[media:AC6-10_exp21.dat|exp21.dat]]</center>
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| style="width: 5.0cm; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="189" valign="top" |
<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp22.dat exp22.dat]</center>
<center>[[media:AC6-10_exp22.dat|exp22.dat]]</center>
| style="width: 92.15pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="123" valign="top" |
| style="width: 92.15pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="123" valign="top" |
<center><u>exp23.dat</u></center>
<center>exp23.dat</center>
| style="width: 120.5pt; border-top: none; border-left: none; border-bottom: solid black .75pt; border-right: solid black .75pt; padding: 0cm 0cm 0cm 0cm" width="161" valign="top" |
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp24.dat exp24.dat]</center>
<center>[[media:AC6-10_exp24.dat|exp24.dat]]</center>
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EXP 3
EXP 3
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp31.dat exp31.dat]</center>
<center>[[media:AC6-10_exp31.dat|exp31.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp32.dat exp32.dat]</center>
<center>[[media:AC6-10_exp32.dat|exp32.dat]]</center>
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<center><u>exp33.dat</u></center>
<center>exp33.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp34.dat exp34.dat]</center>
<center>[[media:AC6-10_exp34.dat|exp34.dat]]</center>
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EXP 4
EXP 4
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp41.dat exp41.dat]</center>
<center>[[media:AC6-10_exp41.dat|exp41.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp42.dat exp42.dat]</center>
<center>[[media:AC6-10_exp42.dat|exp42.dat]]</center>
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<center><u>exp43.dat</u></center>
<center>exp43.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp44.dat exp44.dat]</center>
<center>[[media:AC6-10_exp44.dat|exp44.dat]]</center>
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EXP 7
EXP 7
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp71.dat exp71.dat]</center>
<center>[[media:AC6-10_exp71.dat|exp71.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp72.dat exp72.dat]</center>
<center>[[media:AC6-10_exp72.dat|exp72.dat]]</center>
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<center><u>Exp73.dat</u></center>
<center>exp73.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp74.dat exp74.dat]</center>
<center>[[media:AC6-10_exp74.dat|exp74.dat]]</center>
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EXP 8
EXP 8
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp81.dat exp81.dat]</center>
<center>[[media:AC6-10_exp81.dat|exp81.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp82.dat exp82.dat]</center>
<center>[[media:AC6-10_exp82.dat|exp82.dat]]</center>
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<center><u>Exp83.dat</u></center>
<center>exp83.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp84.dat exp84.dat]</center>
<center>[[media:AC6-10_exp84.dat|exp84.dat]]</center>
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EXP 9
EXP 9
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp71.dat exp71.dat]</center>
<center>[[media:AC6-10_exp91.dat|exp91.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp72.dat exp72.dat]</center>
<center>[[media:AC6-10_exp92.dat|exp92.dat]]</center>
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<center><u>Exp93.dat</u></center>
<center>exp93.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp74.dat exp74.dat]</center>
<center>[[media:AC6-10_exp94.dat|exp94.dat]]</center>
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EXP 10
EXP 10
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp81.dat exp81.dat]</center>
<center>[[media:AC6-10_exp101.dat|exp101.dat]]</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp82.dat exp82.dat]</center>
<center>[[media:AC6-10_exp102.dat|exp102.dat]]</center>
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<center><u>Exp103.dat</u></center>
<center>exp103.dat</center>
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<center>[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp84.dat exp84.dat]</center>
<center>[[media:AC6-10_exp104.dat|exp104.dat]]</center>
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Table EXP-B Summary description of all measured parameters and available datafiles
</div>


== Test Case EXP-1 ==
== Test Case EXP-1 ==
Line 752: Line 515:
'''EXP1''' Measurements on the V2 high subsonic linear compressor cascade: The test was carried out with an inlet mach number of 0.3 for the design inlet angle of 49.5 degrees and a constant &Omega; of 1.20. Reynolds number at inlet was 5E5 based on blade chord and turbulence intensity was 5%. Data was recorded for total and static pressure and flow direction at stations 1 and 2 corresponding to inlet and exit planes respectively. Pressure distribution through the boundary layer was recorded at several locations on the blade suction surface.
'''EXP1''' Measurements on the V2 high subsonic linear compressor cascade: The test was carried out with an inlet mach number of 0.3 for the design inlet angle of 49.5 degrees and a constant &Omega; of 1.20. Reynolds number at inlet was 5E5 based on blade chord and turbulence intensity was 5%. Data was recorded for total and static pressure and flow direction at stations 1 and 2 corresponding to inlet and exit planes respectively. Pressure distribution through the boundary layer was recorded at several locations on the blade suction surface.


[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp11.dat exp11.dat] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. columns: x/l, Cp)
[[Media:AC6-10_exp11.dat|exp11.dat]] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. columns: x/l, Cp)


[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp12.dat exp12.dat] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. columns: y/t, ω)
[[Media:AC6-10_exp12.dat|exp12.dat]] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. columns: y/t, &omega;)


[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp13.dat exp13.dat] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;, x/l. columns: h, w/w<sub></sub>)
[[Media:AC6-10_exp13.dat|exp13.dat]] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;, x/l. columns: h, w/w<sub>&infin;</sub>)


[http://qnetkb.cfms.org.uk/TA6/AC6-10/X/exp14.dat exp14.dat] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. Data: M<sub>2</sub>, &alpha;<sub>2</sub>, &zeta;<sub>1</sub>)
[[Media:AC6-10_exp14.dat|exp14.dat]] (ASCII file; headers: Re, Tu; M<sub>1</sub>, &alpha;<sub>1</sub>, &Omega;. Data: M<sub>2</sub>, &alpha;<sub>2</sub>, &zeta;<sub>1</sub>)


== Test Case EXP-2 ==
== Test Case EXP-2 ==
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Contributors: Michael Dickens; Alex Read - Computational Dynamics Ltd
Contributors: Michael Dickens; Alex Read - Computational Dynamics Ltd
 
 
{{AC|front=AC 6-10|description=AC 6-10 Description|testdata=AC 6-10 Test Data|cfdsimulations=AC 6-10 CFD Simulations|evaluation=AC 6-10 Evaluation|qualityreview=AC 6-10 Quality Review|bestpractice=AC 6-10 Best Practice Advice|relatedACs=AC 6-10 Related ACs}}




[[Category:Application Challenge]]
{{AC|front=AC 6-10|description=AC 6-10 Description|testdata=AC 6-10 Test Data|cfdsimulations=AC 6-10 CFD Simulations|evaluation=AC 6-10 Evaluation|qualityreview=AC 6-10 Quality Review|bestpractice=AC 6-10 Best Practice Advice|relatedUFRs=AC 6-10 Related ACs}}

Latest revision as of 18:42, 11 February 2017

Front Page

Description

Test Data

CFD Simulations

Evaluation

Best Practice Advice




Axial compressor cascade

Application Challenge 6-10 © copyright ERCOFTAC 2004


Test Data

Overview of Measurements

Experimental investigations on the boundary layer and loss behaviour on a high turning compressor cascade up to 0.90 inlet Mach number were performed in the High Speed Cascade Wind Tunnel of DFVLR Braunschweig. The tunnel was installed in a tank which could be evacuated from 1 to 0.05 bar and an independent variation of Mach number and Reynolds number was possible. The degree of turbulence at inlet was about 5% using grids of crossed bars upstream of the cascade. The tunnel geometry is described in section 1.4. The design point of the V2 cascade is given by an inlet Mach number of 0.85, Reynolds number of 5x105 (based on blade chord), inlet flow angle of 139.5° and flow turning of 50°.

Wake traverse measurements (total pressure, static pressure and outlet flow angle) at mid-span position of blade number 8 were performed with a wedge type probe located at 30% of true chord axially downstream of the blade trailing edge. Figure 2.1 shows a diagram of the wedge probe used and Figure 2.2 shows the location of the measuring plane. Surface pressure distributions also at the midspan position were measured using static pressure tappings on the suction and the pressure sides of the blades adjacent to the center blade.


A6-10d30 files image010.gif


Figure 2.1 Wedge probe


A6-10d30 files image012.gif


Figure 2.2 V2 Cascade geometry and locations of measurement planes


x/l
YPS/l
x/l
YSS/l
0
0.0049
0
0.0049
0.0003
0.0033
0.0014
0.0082
0.0012
0.0017
0.0020
0.0087
0.0020
0.0009
0.0054
0.0112
0.0040
0.0001
0.0120
0.0156
0.0066
0.0003
0.0254
0.0244
0.0103
0.0018
0.0355
0.0309
0.0196
0.0034
0.0665
0.0493
0.0242
0.0071
0.1017
0.0683
0.0335
0.0106
0.1341
0.0840
0.0662
0.0222
0.1672
0.0983
0.0992
0.0329
0.2007
0.1113
0.1325
0.0428
0.2348
0.1229
0.1660
0.0519
0.2655
0.1320
0.1997
0.0601
0.3004
0.1409
0.2336
0.0674
0.3317
0.1576
0.2677
0.0738
0.3672
0.1538
0.3020
0.0793
0.3989
0.1581
0.3314
0.0834
0.4348
0.1615
0.3659
0.0873
0.4667
0.1633
0.4005
0.0903
0.4988
0.1639
0.4351
0.0924
0.4698
0.0936
0.4995
0.0940


Symmetrical for x/l = 0 – 0.5 and 0.5 – 1.0 respectively.
Leading radius rN/l = 0.0049
Trailing edge radius rH/l = 0.0049
Table 2.1 Profile coordinates for the ECA2-V2 cascade.

Boundary layer measurements were carried out at different positions on the blade suction side at the midspan position. Figure 2.2 shows the locations of the inlet and exit measuring planes and the locations of the boundary layer measurements. These boundary layer measurements were carried out with a specially developed two finger probe (see Figure 2.3). The probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer. There is a high level of confidence in the experimental data and the case was chosen by AGARD Working Group 18.

A6-10d30 files image014.gif



Figure 2.3 Two finger boundary layer probe

Overview of tests

All the tests were carried out at an inlet Reynolds number of 5E5 based on blade chord and with a freestream turbulence intensity of 5%. The results are presented in two groups. EXP1-4 investigated a range of inlet mach numbers from 0.3 to 0.85 for the design inlet angle of 49.5 degrees and a constant Ω of 1.20. EXP7-EXP10 then demonstrated the influence of inlet angle at constant Mach number (M1=0.8) on different Ω values. These tests are summarized in Table Exp-A.

In all tests the measured parameters were:

  • Total pressure, static pressure and outlet flow angle at the mid-span position of blade number 8 at 30% of true chord axially downstream of the blade trailing edge.
  • Surface pressure distributions also at the midspan position on the suction and the pressure sides of the blades adjacent to the center blade.
  • Boundary layer measurements (total and static pressure through the boundary layer) were carried out at different positions (see Figure 2.2) on the blade suction side at the midspan position.

The data corresponding to these measurements is summarized in Table Exp-B.

Boundary Data

At the inlet boundary (station 1) the flow can be assumed steady, uniform pitchwise and turbulent. The turbulent intensity was calculated using a single hotwire probe placed normal to the freestream velocity from which a fluctuating velocity was obtained.

A6-10d30 files image016.gif


Pressure and temperature data is measured at the inlet and outlet.

The outflow measurement plane is located far enough downstream of the blade trailing edge to have no effect on the flow over the blade. The blade surfaces and the wall boundaries are considered to be smooth. The pitchwise boundaries for the measurement blade can be considered to be periodic.

Measurement Errors

The errors in measurement quantities for all tests are:

α = ±0.2degrees

Ω = ±0.003

ζ1 = ±0.001

Cp = ±0.005

The boundary layer probe was calibrated for Mach and Reynolds number, flow angle and turbulence level. Corrections were applied from these calibrations on the basis of a comparison with flat plate experiments and with measurements by a Laser-Doppler anemometer.


Table EXP-A Summary Description of all Test Cases
GNDPs PDPs MPs
Re Tu1 % M1 α1 (deg) Ω Detailed Data DOAPs
EXP 1 5x105 5 0.3 49.5 1.2 Cp, ω, w/w ζ1, a2, M2
EXP 2 5x105 5 0.6 49.5 1.2
EXP 3 5x105 5 0.8 49.5 1.2
EXP 4 5x105 5 0.85 49.5 1.2
EXP 7 5x105 5 0.8 49.5 1.12
EXP 8 5x105 5 0.8 49.5 1.27
EXP 9 5x105 5 0.8 52.5 1.12
EXP 10 5x105 5 0.8 52.5 1.3




Table EXP-B Summary description of all measured parameters and available datafiles
MP 1
Cp
(pressure coefficient)
MP 2
ω
(pressure loss coefficient)
MP 3
w/w
(velocity ratio)
DOAPs
ζ1 (%), M22 (deg)

EXP 1

exp11.dat
exp12.dat
exp13.dat
exp14.dat

EXP 2

exp21.dat
exp22.dat
exp23.dat
exp24.dat

EXP 3

exp31.dat
exp32.dat
exp33.dat
exp34.dat

EXP 4

exp41.dat
exp42.dat
exp43.dat
exp44.dat

EXP 7

exp71.dat
exp72.dat
exp73.dat
exp74.dat

EXP 8

exp81.dat
exp82.dat
exp83.dat
exp84.dat

EXP 9

exp91.dat
exp92.dat
exp93.dat
exp94.dat

EXP 10

exp101.dat
exp102.dat
exp103.dat
exp104.dat

Test Case EXP-1

EXP1 Measurements on the V2 high subsonic linear compressor cascade: The test was carried out with an inlet mach number of 0.3 for the design inlet angle of 49.5 degrees and a constant Ω of 1.20. Reynolds number at inlet was 5E5 based on blade chord and turbulence intensity was 5%. Data was recorded for total and static pressure and flow direction at stations 1 and 2 corresponding to inlet and exit planes respectively. Pressure distribution through the boundary layer was recorded at several locations on the blade suction surface.

exp11.dat (ASCII file; headers: Re, Tu; M1, α1, Ω. columns: x/l, Cp)

exp12.dat (ASCII file; headers: Re, Tu; M1, α1, Ω. columns: y/t, ω)

exp13.dat (ASCII file; headers: Re, Tu; M1, α1, Ω, x/l. columns: h, w/w)

exp14.dat (ASCII file; headers: Re, Tu; M1, α1, Ω. Data: M2, α2, ζ1)

Test Case EXP-2

See EXP 1: M1=0.6, α1=49.5, Ω=1.2

Test Case EXP-3

See EXP 1: M1=0.8, α1=49.5, Ω=1.2

Test Case EXP-4

See EXP 1: M1=0.85, α1=49.5, Ω=1.2

Test Case EXP-7

See EXP 1: M1=0.8, α1=49.5, Ω=1.12

Test Case EXP-8

See EXP 1: M1=0.8, α1=49.5, Ω=1.27

Test Case EXP-9

See EXP 1: M1=0.8, α1=52.5, Ω=1.12

Test Case EXP-10

See EXP 1: M1=0.8, α1=52.5, Ω=1.3

References

2.1 'Test cases for computation of internal flows in aero engine components', L. Fottner, Propulsion and Energetics Panel Working Group 18, AGARD Advisory report No. 275, 1990.

© copyright ERCOFTAC 2004



Contributors: Michael Dickens; Alex Read - Computational Dynamics Ltd


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