SilverP:UFR 1-02 Quality Review: Difference between revisions

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(New page: {{UFR|front=UFR 1-02|description=UFR 1-02 Description|references=UFR 1-02 References|testcase=UFR 1-02 Test Case|evaluation=UFR 1-02 Evaluation|qualityreview=UFR 1-02 Quality Review|bestp...)
 
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Wing/blade tip and tip clearance flow (D33)
Wing/blade tip and tip clearance flow (D33)


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'''INSTRUCTIONS TO THE REVIEWER'''
'''INSTRUCTIONS TO THE REVIEWER'''

Revision as of 16:17, 2 March 2009


Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References




Blade tip and tip clearance vortex flow 

Underlying Flow Regime 1-02               © copyright ERCOFTAC 2004


Quality Review

Wing/blade tip and tip clearance flow (D33)


INSTRUCTIONS TO THE REVIEWER

Please indicate your agreement or disagreement with the comments below, by ticking either the YES or NO box (using symbol þ). If you would like to comment on any of the questions, please also tick the CO (comment) box, and add your comments in the box provided at the end of each section. Please make sure that all questions are answered.

 

When you have completed the review, please indicate below your overall judgment of the UFR and its documentation:

 

 

Accept þ

 

 

Reject

 

 

 

Accept provided the following conditions are met

 

Typo errors:

 

Page 1, last point: “The marine_ industry”.

Page 4: The EU project is FLOMANIA.

Page 8, last line: “overpredicts the vortex”.

 

 

 


 


Underlying Flow Regime Title: Wing/blade tip and tip clearance flow

UFR Author and UFR number: M. Casey, UFR 1-02

Reviewer (Name/Organisation) : B. Tartinville/NINT

 

 

1

 

TOP LEVEL CHECK

 

YES
 
NO
 
CO
 

1. 1             

Is the selected test-case study a good representation of the assigned UFR?

þ
q
q

1. 2             

Does the test-case study include both flow measurements and CFD calculations?

þ
q
q

1. 3             

Does the document under review comply with the D32 template

þ
q
q

1. 4             

Should any parts be expanded, condensed or deleted?

q
þ
q

1. 5             

Are the illustrations and their captions clear and informative?

þ
q
q

1. 6             

Are the references adequate and complete?

þ
q
q

1. 7             

If any hyperlinks are used, do these function correctly?

q
þ
þ

 

 

 
 
 

Comments:

1.7 : The correct FLOMANIA internet address is “cfd.me.umist.ac.uk/flomania/” (to be changed page 4)

 

 

 

 

 

 

 

 

 


 

 

 
DETAILED CHECK

 

2

 

REVIEW OF UFR STUDIES AND CHOICE OF TEST CASE

 

YES
 

NO

 

CO
 

2. 1             

Have past studies of the UFR been reviewed adequately?

þ
q
q

2. 2             

Is the chosen test-case study selected from an established database or comparison exercise?

þ
q
q

2. 3             

Have the test-case experiments been devised for CFD validation?

þ
q
q

 

 

 
 
 

Comments:

 

 
 
 
 
 
 

 

 

3

 

DESCRIPTION OF THE STUDY TEST CASE

 

YES

 

NO

 

CO

 

3. 1             

Is the geometry described adequately, including an appropriate sketch?

þ
q
q

3. 2             

Are the flow parameters defining the flow regime specified?

þ
q
q

3. 3             

Are the principal measured quantities (i.e. those by which success or failure of CFD is to be judged) specified?

þ
q
q

3. 4             

Is the description fully self-contained and sufficiently detailed ? (the level of detail required depends on whether a hyperlink to a detailed database is provided)

þ
q
þ

 

 

 

 
 

Comments:

3.4 ) The use of the FLOMANIA data base is restricted to a Partners Area.

 
 
 
 
 
 


 

4

 

Test CASE EXPERIMENTS

YES
 

NO

 

CO
 

4. 1             

Is the test-case facility described adequately?

þ
q
q

4. 2             

Are the measurement techniques explained?

þ
q
q

4. 3             

Is the quality/accuracy of the measured data discussed?

þ
q
q

4. 4             

Are the following quality aspects addressed in this discussion :-

 
 
 

a)

Closeness of flow to target/design conditions?

þ
q
q

b)

Accuracy estimation of measured quantities?

þ
q
q

c)

Checks on global conservation of conserved quantities?

q
þ
q

d)

Consistency in the measurements of different quantities?

q
þ
q

e)

Other (briefly describe)

 

 

 

 

 
 
q

4. 5             

Is the evidence of data quality judged to be sufficient?

þ
q
q

4. 6             

Is the information provided at the flow boundaries sufficient to specify or estimate reasonably well the boundary conditions required for a CFD calculation?

q
þ
þ

4. 7             

Is the overall discussion self-contained and sufficiently detailed? (the level of detail required depends on whether a hyperlink to a detailed database is provided)

þ
q
q

 

 

 

 

 

Comments:

4.6 : Since the test case is not described in a public database, an enlarged description of the boundary conditions should be made.

 
 
 
 
 

 


 

5

 

CFD METHODS

YES
 

NO

 

CO
 

5. 1             

Is an overview given of the methods used?

þ
q
q

5. 2             

Have the following aspects of the methods used been explained adequately:-

 
 
 

a)

The codes employed?

þ
q
q

b)

The turbulence/physical models used?

þ
q
q

c)

The wall treatments applied?

þ
q
q

d)

The numerical boundary conditions?

q
þ
þ

5. 3             

Are comments made on how well the boundary conditions replicate conditions in the test rig?

þ
q
q

5. 4             

Is the quality of the calculations discussed?

þ
q
q

5. 5             

Are the following quality aspects addressed in this discussion?

 
 
q

a)

The discretisation scheme(s) and solver(s)?

þ
q
q

b)

The sufficiency of grid resolution(s) ?

þ
q
q

c)

Sensitivities to uncertainties in the boundary conditions

þ
q
þ

d)

Comparisons between separate calculations using the same physical model

q
þ
q

e)

Other (briefly describe)

 

 

 

 

 

 
 
q

5. 6             

Is the evidence of CFD quality judged to be sufficient in all cases?

þ
q
q

 

 

 
 
 

Comments:

5.2 d) : According to the “Best Practice Advice”, the CFD calculation is rather sensitive to the outlet boundary conditions. Therefore information should be added on the Boundary conditions used in the CFD calculation.

5.5 c) : The sensitivity of the CFD calculation to the outlet boundary condition is given in the “Best Practice Advice”.

 
 
 
 

 


 

6

 

COMPARISON OF CFD CALCULATIONS WITH EXPERIMENT

YES
 

NO

 

CO
 

6. 1             

Are key comparisons of CFD results with experiment presented in the form of tables or plots?

þ
q
q

6. 2             

Do these comparisons include the assessment quantities?

þ
q
q

6. 3             

Are further comparisons available via hyperlinks to a results database?

q
þ
q

6. 4             

Is the performance of the CFD calculations judged by comparison with experiments discussed and analysed in all cases?

q
þ
þ

 

 

 
 
 

Comments:

6.4 : The detailed comparison between CFD results and experiment is provided in a referenced paper.

 

 

 

 

 

 

 

7

BEST PRACTICE ADVICE FOR THE UFR

 

YES
 

NO

 

CO
 

7. 1             

Are model abilities for this test case discussed and analysed in sufficient detail?

þ
q
q

7. 2             

Are recommendations provided on which models should be used for this UFR?

þ
q
q

7. 3             

Are these recommendations supported by the evidence?

þ
q
q

 

 

 
 
 

Comments:

 
 
 
 
 
 
 

 

 

 

© copyright ERCOFTAC 2004



Contributors: Michael Casey - Sulzer Innotec AG


Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References