UFR 3-32 References: Difference between revisions

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===Underlying Flow Regime 3-32===
===Underlying Flow Regime 3-32===
= References =
= References =
<div id="1">'''Doerffer, P. (ed.)''', 2009 , UFAST Experiments Data Bank, Wydawnictwo IMP PAN, Gdansk, Poland.</div>


Doerffer, P. (ed.), 2009 , UFAST Experiments Data Bank, Wydawnictwo IMP
<div id="2">'''Doerffer, P., Hirsh, C., Dussauge, J.-P., Babinsky, H. and Barakos, G.N. (eds)'''  2010, Unsteady Effects of Shock Wave Induced Separation. Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM) Vol 114, Springer.</div>
PAN, Gdansk, Poland.


Doerffer, P., Hirsh, C., Dussauge, J.-P., Babinsky, H. and Barakos, G.N.
<div id="3">'''Dolling D.S.''' 2001, Fifty years of shock wave boundary layer interactions: What next?, AIAA Journal, '''39''', 8, 1517-31</div>
(eds)  2010, Unsteady Effects of Shock Wave Induced Separation. Notes on
Numerical Fluid Mechanics and Multidisciplinary Design (NNFM) Vol 114,
Springer.


Dolling D.S. 2001, Fifty years of shock wave boundary layer interactions:
<div id="4">'''Dupont P., Haddad C., Debiève J.F.''', 2006, Space and time organization in a shock induced separated boundary layer, J. Fluid Mech. '''559''', 255-277.</div>
What next?, AIAA Journal, *39*, 8, 1517-31


Dupont P., Haddad C., Debiève J.F., 2006, Space and time organization in a
<div id="5">'''Dupont P., Debiève J.F., Dussauge J.P.''', 2011 Shock wave unsteadiness in turbulent shock boundary layer interactions, in Shock wave boundary layer interactions, H. Babinsky, J.K. Harvey, Ed., Cambridge University Press, 372-394.</div>
shock induced separated boundary layer, J. Fluid Mech. *559*, 255-277.


Dupont P., Debiève J.F., Dussauge J.P., 2011 Shock wave unsteadiness in
<div id="6">'''Dussauge J.P., Piponniau S.''' 2008 Shock boundary layer interactions: possible sources of unsteadiness, Jurnal of Fluids and Structures, '''24''',&nbsp;8,&nbsp;1166-75.</div>
turbulent shock boundary layer interactions, in Shock wave boundary layer
interactions, H. Babinsky, J.K. Harvey, Ed., Cambridge University Press,
372-394.


Dussauge J.P., Piponniau S. 2008 Shock boundary layer interactions:
<div id="7">'''Dussauge J.P., Debiève J.F., Dupont P., Piponniau S., Souverein L.J.''', 2009, Final report on the measurements of shock reflection at M=2.25, UFAST Deliverable N°3.3.5.</div>
possible sources of unsteadiness, Jurnal of Fluids and Structures, *24*, 8,
1166-75.


Dussauge J.P., Debiève J.F., Dupont P., Piponniau S., Souverein L.J., 2009,
<div id="8">'''Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S.''' 2007 Effects of upstream boundary layer on the unsteadiness of shock-induced separation. J. Fluid Mech. '''585''',&nbsp;369-394.</div>
Final report on the measurements of shock reflection at M=2.25, UFAST
Deliverable N°3.3.5.


Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S. 2007 Effects of
<div id="9">'''Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S.''' 2009 Low-frequency dynamics of shock-induced separation in a compression ramp interaction. J. Fluid Mech. '''585''',&nbsp;397-425.</div>
upstream boundary
layer on the unsteadiness of shock-induced separation. J. Fluid Mech. *585*,
369-394.


Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S. 2009 Low-frequency
<div id="10">'''Garnier, E.''' 2009 Stimulated detached eddy simulation of three-dimensional shock/boundary layer interaction. Shock Waves '''19'''&nbsp;(6),&nbsp;479-486.</div>
dynamics of
shock-induced separation in a compression ramp interaction. J. Fluid Mech.
*585*, 397-425.


Garnier, E. 2009 Stimulated detached eddy simulation of three-dimensional
<div id="11">'''Klebanoff P.S.''', Characteristics of turbulence in a boundary layer with zero pressure gradient, Tech. Notes, N.A.C.A., N°3178.</div>
shock/boundary layer
interaction. Shock Waves *19* (6), 479-486.


Klebanoff P.S., Characteristics of turbulence in a boundary layer with zero
<div id="12">'''Péchier, M. Guillen, P.,  Cayzac, R.''', 2001, Magnus effect over finned projectiles, J.&nbsp;Spacecr.&nbsp;Rockets 38,&nbsp;542-549</div>
pressure gradient, Tech. Notes, N.A.C.A., N°3178.


Péchier, M. Guillen, P., Cayzac, R., 2001, Magnus effect over finned
<div id="13">'''Piponniau, S., Dussauge, J.-P., Debiève, J.-F. & Dupont, P.''' 2009 A simple model for low-frequency unsteadiness in shock-induced separation. J. Fluid Mech. '''629''', 87-108.</div>
projectiles, J. Spacecr. Rockets 38, 542-549


Piponniau, S., Dussauge, J.-P., Debiève, J.-F. & Dupont, P. 2009 A simple
<div id="14">'''Smits A.J., Dussauge J.P.''' 2006 Turbulent shear layers in supersonic flow, Second edition, Springer Verlag, New York, NY, USA.</div>
model for low-frequency
unsteadiness in shock-induced separation. J. Fluid Mech. *629*, 87-108.


Smits A.J., Dussauge J.P. 2006 Turbulent shear layers in supersonic flow,
<div id="15">'''Touber, E.''' 2010 Unsteadiness in shock-wave/boundary-layer interactions. PhD thesis, University of Southampton (available from  http://www.eprints.soton.ac.uk).</div>
Second edition, Springer Verlag, New York, NY, USA.


Touber, E. 2010 Unsteadiness in shock-wave/boundary-layer interactions. PhD
<div id="16">'''Touber, E and Sandham, N.D.''' 2009 Large-eddy simulation of low-frequency unsteadiness in a turbulent shock-induced separation bubble. Theoretical and Computational Fluid Dynamics, Vol. '''23'''&nbsp;(2), 79-107.</div>
thesis, University of Southampton (available from www.eprints.soton.ac.uk
).


Touber, E and Sandham, N.D. 2009 Large-eddy simulation of low-frequency
<div id="17">'''Touber, E. and  Sandham, N.D.''' 2011 Low-order stochastic modelling of low-frequency motions in reflected shock-wave/boundary-layer interactions, J.&nbsp;Fluid&nbsp;Mech. '''671''',&nbsp;417-465.</div>
unsteadiness in a turbulent shock-induced separation bubble. Theoretical
and Computational Fluid Dynamics, Vol. *23*(2), 79-107.
 
Touber, E. and  Sandham, N.D. 2011 Low-order stochastic modelling of low-
frequency motions in reflected shock-wave/boundary-layer interactions, J.
Fluid Mech. *671*, 417-465.
<br/>
<br/>
----
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{{ACContribs
{{ACContribs
|authors=Jean-Paul Dussauge
|authors=Jean-Paul Dussauge (*), P. Dupont (*) , N. Sandham (**), E. Garnier (***)
|organisation=Orange
|organisation= (*)&nbsp;Aix-Marseille Université, and Centre National de la Recherche Scientifique UM 7343, (**)&nbsp;University of Southampton, (***)&nbsp;ONERA/DAAP, Meudon, France
}}
}}
{{UFRHeader
{{UFRHeader

Latest revision as of 13:46, 12 February 2017

Planar shock-wave boundary-layer interaction

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References

Semi-confined Flows

Underlying Flow Regime 3-32

References

Doerffer, P. (ed.), 2009 , UFAST Experiments Data Bank, Wydawnictwo IMP PAN, Gdansk, Poland.
Doerffer, P., Hirsh, C., Dussauge, J.-P., Babinsky, H. and Barakos, G.N. (eds) 2010, Unsteady Effects of Shock Wave Induced Separation. Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM) Vol 114, Springer.
Dolling D.S. 2001, Fifty years of shock wave boundary layer interactions: What next?, AIAA Journal, 39, 8, 1517-31
Dupont P., Haddad C., Debiève J.F., 2006, Space and time organization in a shock induced separated boundary layer, J. Fluid Mech. 559, 255-277.
Dupont P., Debiève J.F., Dussauge J.P., 2011 Shock wave unsteadiness in turbulent shock boundary layer interactions, in Shock wave boundary layer interactions, H. Babinsky, J.K. Harvey, Ed., Cambridge University Press, 372-394.
Dussauge J.P., Piponniau S. 2008 Shock boundary layer interactions: possible sources of unsteadiness, Jurnal of Fluids and Structures, 24, 8, 1166-75.
Dussauge J.P., Debiève J.F., Dupont P., Piponniau S., Souverein L.J., 2009, Final report on the measurements of shock reflection at M=2.25, UFAST Deliverable N°3.3.5.
Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S. 2007 Effects of upstream boundary layer on the unsteadiness of shock-induced separation. J. Fluid Mech. 585, 369-394.
Ganapathisubramani, B., Clemens, N. T. & Dolling, D. S. 2009 Low-frequency dynamics of shock-induced separation in a compression ramp interaction. J. Fluid Mech. 585, 397-425.
Garnier, E. 2009 Stimulated detached eddy simulation of three-dimensional shock/boundary layer interaction. Shock Waves 19 (6), 479-486.
Klebanoff P.S., Characteristics of turbulence in a boundary layer with zero pressure gradient, Tech. Notes, N.A.C.A., N°3178.
Péchier, M. Guillen, P., Cayzac, R., 2001, Magnus effect over finned projectiles, J. Spacecr. Rockets 38, 542-549
Piponniau, S., Dussauge, J.-P., Debiève, J.-F. & Dupont, P. 2009 A simple model for low-frequency unsteadiness in shock-induced separation. J. Fluid Mech. 629, 87-108.
Smits A.J., Dussauge J.P. 2006 Turbulent shear layers in supersonic flow, Second edition, Springer Verlag, New York, NY, USA.
Touber, E. 2010 Unsteadiness in shock-wave/boundary-layer interactions. PhD thesis, University of Southampton (available from http://www.eprints.soton.ac.uk).
Touber, E and Sandham, N.D. 2009 Large-eddy simulation of low-frequency unsteadiness in a turbulent shock-induced separation bubble. Theoretical and Computational Fluid Dynamics, Vol. 23 (2), 79-107.
Touber, E. and Sandham, N.D. 2011 Low-order stochastic modelling of low-frequency motions in reflected shock-wave/boundary-layer interactions, J. Fluid Mech. 671, 417-465.




Contributed by: Jean-Paul Dussauge (*), P. Dupont (*) , N. Sandham (**), E. Garnier (***) — (*) Aix-Marseille Université, and Centre National de la Recherche Scientifique UM 7343, (**) University of Southampton, (***) ONERA/DAAP, Meudon, France

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References


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