UFR 3-34 References: Difference between revisions
Jump to navigation
Jump to search
m (Dave.Ellacott moved page Lib:UFR 3-34 References to UFR 3-34 References over redirect) |
|||
(25 intermediate revisions by 2 users not shown) | |||
Line 4: | Line 4: | ||
}} | }} | ||
__NOTOC__ | __NOTOC__ | ||
== Semi-Confined Flows == | |||
=== Underlying Flow Regime 3-34 === | |||
= References = | = References = | ||
# <div id="1">'''Greenblatt D, Paschal KB, Yao C-S, Harris J, Schaeffler NW and Washburn AE''' (2006) Experimental Investigation of Separation Control Part 1: Baseline and Steady Suction. AIAA Journal 44(12): 2820-2830.</div> | |||
Experimental Investigation of Separation Control Part 1: Baseline and Steady Suction. AIAA Journal | # <div id="2">'''Naughton JW, Viken S, Greenblatt D''' (2006) Skin-Friction Measurements on NASA Hump Model. AIAA Journal 44(6): 1255-1265.</div> | ||
44(12): 2820-2830.< | # <div id="3">Langley Research Center Workshop on CFD Validation of Synthetic Jets and Turbulent Separation Control, USA, March 29-31 (2004): https://cfdval2004.larc.nasa.gov/case3expdata.html</div> | ||
# <div id="4">ATAAC: Advanced Turbulence Simulation for Aerodynamic Application Challenges. A Seventh Framework EU Project: http://cfd.mace.manchester.ac.uk/twiki/bin/view/ATAAC/WebHome</div> | |||
AIAA Journal 44(6): 1255-1265. | # <div id="5">Go4Hybrid: Grey Area Mitigation for Hybrid RANS-LES Methods. A Seventh Framework EU Project: http://go4hybrid.mace.manchester.ac.uk/go4hybrid/bin/view/Main/WebHome</div> | ||
# <div id="6">'''Uzun A, Malik MR''' (2015) Wall-Resolves Large-Eddy Simulation of Flow Separation over NASA Wall-Mounted Hump. AIAA Paper 2017-0538.</div> | |||
3 | # <div id="7">NASA Langley Turbulence Modeling Resource: https://turbmodels.larc.nasa.gov/nasahump_val.html</div> | ||
Control, USA, March 29-31 (2004): https://cfdval2004.larc.nasa.gov/case3expdata.html | # <div id="8">'''Garbaruk A, Guseva E, Shur M, Strelets M, Travin A''' (2018) 2D Wall-Mounted Hump. (2018). In: '''Mockett C, Haase W, Schwamborn D (eds)''' Notes on Numerical Fluid Mechanics and Multidisciplinary Design (Results of a Seventh Framework EU Project) 134: 173-187.</div> | ||
4 | # <div id="9">'''Probst A, Schwamborn D, Garbaruk A, Guseva E, Shur M, Strelets M, Travin A''' (2017) Evaluation of Grey Area Mitigation Tools within Zonal and Non-Zonal RANS-LES Approaches in Flows with Pressure Induced Separation. Int. J. Heat and Fluid Flow 68: 237–247.</div> | ||
Framework EU Project: http://cfd.mace.manchester.ac.uk/twiki/bin/view/ATAAC/WebHome | # <div id="10">'''Spalart PR, Deck S, Shur ML, Squires KD, Strelets MKh, Travin AK''' (2006) New version of Detached-eddy Simulation, resistant to ambiguous grid densities. Theoretical and Computational Fluid Dynamics 20(3): 181–195.</div> | ||
# <div id="11">'''Shur ML, Spalart PR, Strelets MKh, Travin AK''' (2015) An Enhanced Version of DES with Rapid Transition from RANS to LES in Separated Flows. Flow Turbulence and Combustion 95: 709-737.</div> | |||
# <div id="12">'''Shur ML, Spalart PR, Strelets MKh, Travin AK''' (2008) A Hybrid RANS-LES Approach with Delayed-DES and Wall-Modelled LES Capabilities. Int. J. Heat and Fluid Flow (29): 1638-1649.</div> | |||
Project: http://go4hybrid.mace.manchester.ac.uk/go4hybrid/bin/view/Main/WebHome | # <div id="13">'''Shur, ML, Spalart PR, Strelets MKh, Travin AK''' (2014) Synthetic Turbulence Generators for RANS-LES Interfaces in Zonal Simulations of Aerodynamic and Aeroacoustic Problems. Flow Turbulence and Combustion (93): 63-92.</div> | ||
6 | # <div id="14">'''Jarrin N, Prosser R, Uribe, J, Benhamadouche S, Laurence D''' (2009) Reconstruction of turbulent fluctuations for hybrid RANS/LES Simulations Using a Synthetic-Eddy method. Int. J. Heat and Fluid Flow 30: 435–442.</div> | ||
Wall-Mounted Hump. AIAA Paper 2017-0538. | # <div id="15">'''Probst A''' (2016) Implementation and Assessment of the Synthetic-Eddy Method in an Unstructured Compressible Flow Solver. 6th Symposium on Hybrid RANS-LES Methods, Strasbourg, France, 2628 September 2016.</div> | ||
7 | # <div id="16">'''Probst A, Löwe J, Reuß S, Knopp T, Kessler R''' (2016) Scale-Resolving Simulations with a LowDissipation Low-Dispersion Second-Order Scheme for Unstructured Flow Solvers. AIAA Journal 54(10): 2972-2987.</div> | ||
8 | # <div id="17">'''Shur M, Strelets M, Travin A''' (2004) High-order implicit multi-block Navier-Stokes code: Ten-year experience of application to RANS/DES/LES /DNS of turbulent flows. 7th Symposium on Overset Composite Grids & Solution Technology, Huntington Beach, CA: http://cfd.spbstu.ru/agarbaruk/c/document_library/DLFE-42505.pdf.</div> | ||
In: Mockett C, Haase W, Schwamborn D (eds) Notes on Numerical Fluid Mechanics and | # <div id="18">'''Rogers SE and Kwak D''' (1988) An Upwind Differencing Scheme for the Time-Accurate Incompressible Navier–Stokes Equations. AIAA Paper 1988-2583.</div> | ||
Multidisciplinary Design (Results of a Seventh Framework EU Project) 134: 173-187. | # <div id="19">'''Travin A, Shur M, Strelets M, Spalart PR''' (2000) Physical and numerical upgrades in the detached-eddy simulation of complex turbulent flows. In: '''Friedrich R, Rodi W (eds)''' Advances in LES of Complex Flows, Kluwer Acad., New York.</div> | ||
9 | # <div id="20">'''Uzun A, Hussaini MY, Streett CL''' (2006) Large-Eddy Simulation of a Wing Tip Vortex on Overset Grids. AIAA Journal 44(6): 1229–1242.</div> | ||
Evaluation of Grey Area Mitigation Tools within Zonal and Non-Zonal RANS-LES Approaches in | # <div id="21">'''Uzun, A, Hussaini MY''' (2010) Simulations of Vortex Formation around a Blunt Wing Tip. AIAA Journal 48(6): 1221–1234.</div> | ||
Flows with Pressure Induced Separation. Int. J. Heat and Fluid Flow. | # <div id="22">'''Uzun, A, Hussaini MY''' (2012) An Application of Delayed Detached Eddy Simulation to Tandem Cylinder Flow Field Prediction. Computers and Fluids 60: 71–85.</div> | ||
10 | # <div id="23">'''Vreman AW''' (2004) An Eddy-Viscosity Subgrid-Scale Model for Turbulent Shear Flow: Algebraic Theory and Applications. Physics of Fluids 16(10): 3670–3681.</div> | ||
Detached-eddy Simulation, resistant to ambiguous grid densities. Theoretical and Computational | # <div id="24">'''Ashcroft G, Zhang X''' (2003) Optimized Prefactored Compact Schemes. Journal of Computational Physics 190(2): 459–457.</div> | ||
Fluid Dynamics 20(3): 181–195. | # <div id="25">'''Gaitonde DV, Visbal MR''' (2000) Pad´e-Type Higher-Order Boundary Filters for the Navier-Stokes Equations. AIAA Journal 38(11): 2103–2112.</div> | ||
11 | # <div id="26">'''Visbal MR, Gaitonde DV''' (2001) Very High-Order Spatially Implicit Schemes for Computational Acoustics on Curvilinear Meshes. Journal of Computational Acoustics 9(4): 1259–1286.</div> | ||
Transition from RANS to LES in Separated Flows. Flow Turbulence and Combustion 95: 709-737. | # <div id="27">'''Sherer SE, Scott JN''' (2010) High-Order Compact Finite-Difference Methods on General Overset Grids. Journal of Computational Physics 210(2): 459–496.</div> | ||
12 | # <div id="28">'''Uzun, A, Hussaini MY''' (2007) Investigation of High Frequency Noise Generation in the Near-Nozzle Region of a Jet Using Large Eddy Simulation. Theoretical and Computational Fluid Dynamics 21(4): 291–321.</div> | ||
Delayed-DES and Wall-Modelled LES Capabilities. Int. J. Heat and Fluid Flow (29): 1638-1649. | # <div id="29">'''Uzun A, Hussaini MY''' (2009) Simulation of Noise Generation in Near-Nozzle Region of a Chevron Nozzle Jet. AIAA Journal 47(8): pp. 1793–1810.</div> | ||
13 | # <div id="30">'''Pirozzoli S, Colonius T''' (2013) Generalized Characteristic Relaxation Boundary Conditions for Unsteady Compressible Flow Simulations. Journal of Computational Physics 248: 109–126.</div> | ||
RANS-LES Interfaces in Zonal Simulations of Aerodynamic and Aeroacoustic Problems. Flow | # <div id="31">'''Spalart PR, Allmaras SR''' (1992) A one-equation turbulence model for aerodynamic flows. AIAA Paper 1992-0439.</div> | ||
Turbulence and Combustion (93): 63-92. | # <div id="32">'''Spalart PR, Shur M''' (1997) On the sensitization of turbulence models to rotation and curvature. Aerospace Science and Technology l(5): 297–302.</div> | ||
14 | # <div id="33">'''Menter FR''' (1994) Two-equation eddy-viscosity turbulence models for engineering applications. AIAA Journal 32(8): 1598-1605.</div> | ||
fluctuations for hybrid RANS/LES Simulations Using a Synthetic-Eddy method. Int. J. Heat and | # <div id="34">'''Abdol-Hamid KS, Carlson J-R, Rumsey CL''' (2015) Verification and Validation of the k-kL Turbulence Model in FUN3D and CFL3D Codes. NASA/TM-2015-218968.</div> | ||
Fluid Flow 30: 435–442. | # <div id="35">'''Eisfeld B, Rumsey CL, Togiti V''' (2016) Verification and Validation of a Second-Moment-Closure Model. AIAA Journal 54(5): 1524--1541.</div> | ||
15 | # <div id="36">'''Speziale CG., Sarkar S, Gatski TB''' (1991) Modeling the Pressure-Strain Correlation of Turbulence: an Invariant Dynamical Systems Approach, J. of Fluid Mechanics 227: 245-272.</div> | ||
Compressible Flow Solver. 6th Symposium on Hybrid RANS-LES Methods, Strasbourg, France, 2628 September 2016. | # <div id="37">'''Launder BE, Reece GJ, and Rodi W''' (1975) Progress in the Development of a Reynolds-Stress Turbulent Closure, J. of Fluid Mechanics 68(3): 537-566.</div> | ||
16 | # <div id="38">'''Rumsey CL''' (2015) Application of Reynolds Stress Models to Separated Aerodynamic Flows. In: '''Eisfeld B. (ed)''' Differential Reynolds Stress Modeling for Separating Flows in Industrial Aerodynamics, pp.19-37.</div> | ||
54(10): 2972-2987. | # <div id="39">'''Spalart PR, Belyaev KV, Garbaruk AV, Shur ML, Strelets MKh, Travin AK''' (2017) Large-Eddy and Direct Numerical Simulations of the Bachalo-Johnson Flow with Shock-Induced Separation. Flow Turbulence and Combustion. In press.</div> | ||
17 | |||
Ten-year experience of application to RANS/DES/LES /DNS of turbulent flows. 7th Symposium on | |||
Overset | |||
Composite | |||
Grids | |||
& | |||
Solution | |||
Technology, | |||
Huntington | |||
Beach, | |||
CA: | |||
http://cfd.spbstu.ru/agarbaruk/c/document_library/DLFE-42505.pdf. | |||
18 | |||
Incompressible Navier–Stokes Equations. AIAA Paper 1988-2583. | |||
19 | |||
detached-eddy simulation of complex turbulent flows. In: Friedrich R, Rodi W (eds) Advances in | |||
LES of Complex Flows, Kluwer Acad., New York. | |||
20 | |||
Grids. AIAA Journal 44(6): 1229–1242. | |||
21 | |||
Journal 48(6): 1221–1234. | |||
22 | |||
Cylinder Flow Field Prediction. Computers and Fluids 60: 71–85. | |||
23 | |||
Theory and Applications. Physics of Fluids 16(10): 3670–3681. | |||
24 | |||
Physics 190(2): 459–457. | |||
25 | |||
Equations. AIAA Journal 38(11): 2103–2112. | |||
26 | |||
Acoustics on Curvilinear Meshes. Journal of Computational Acoustics 9(4): 1259–1286. | |||
Grids. Journal of Computational Physics 210(2): 459–496. | |||
28 | |||
Dynamics 21(4): 291–321. | |||
29 | |||
Nozzle Jet. AIAA Journal 47(8): pp. 1793–1810. | |||
30 | |||
Unsteady Compressible Flow Simulations. Journal of Computational Physics 248: 109–126. | |||
31 | |||
Paper 1992-0439. | |||
32 | |||
Aerospace Science and Technology l(5): 297–302. | |||
33 | |||
AIAA Journal 32(8): 1598-1605. | |||
34 | |||
k-kL Turbulence Model in FUN3D and CFL3D Codes. NASA/TM-2015-218968. | |||
35 | |||
Model. AIAA Journal 54(5): 1524--1541. | |||
36 | |||
an Invariant Dynamical Systems Approach, J. of Fluid Mechanics 227: 245-272. | |||
37 | |||
38 | |||
Flows. In: Eisfeld B. (ed) Differential Reynolds Stress Modeling for Separating Flows in | |||
Industrial Aerodynamics, pp.19-37. | |||
39 | |||
and Direct Numerical Simulations of the Bachalo-Johnson Flow with Shock-Induced Separation. | |||
Flow Turbulence and Combustion. In press. | |||
< | |||
---- | ---- | ||
{{ACContribs | {{ACContribs |
Latest revision as of 11:10, 15 March 2018
Semi-Confined Flows
Underlying Flow Regime 3-34
References
- Greenblatt D, Paschal KB, Yao C-S, Harris J, Schaeffler NW and Washburn AE (2006) Experimental Investigation of Separation Control Part 1: Baseline and Steady Suction. AIAA Journal 44(12): 2820-2830.
- Naughton JW, Viken S, Greenblatt D (2006) Skin-Friction Measurements on NASA Hump Model. AIAA Journal 44(6): 1255-1265.
- Langley Research Center Workshop on CFD Validation of Synthetic Jets and Turbulent Separation Control, USA, March 29-31 (2004): https://cfdval2004.larc.nasa.gov/case3expdata.html
- ATAAC: Advanced Turbulence Simulation for Aerodynamic Application Challenges. A Seventh Framework EU Project: http://cfd.mace.manchester.ac.uk/twiki/bin/view/ATAAC/WebHome
- Go4Hybrid: Grey Area Mitigation for Hybrid RANS-LES Methods. A Seventh Framework EU Project: http://go4hybrid.mace.manchester.ac.uk/go4hybrid/bin/view/Main/WebHome
- Uzun A, Malik MR (2015) Wall-Resolves Large-Eddy Simulation of Flow Separation over NASA Wall-Mounted Hump. AIAA Paper 2017-0538.
- NASA Langley Turbulence Modeling Resource: https://turbmodels.larc.nasa.gov/nasahump_val.html
- Garbaruk A, Guseva E, Shur M, Strelets M, Travin A (2018) 2D Wall-Mounted Hump. (2018). In: Mockett C, Haase W, Schwamborn D (eds) Notes on Numerical Fluid Mechanics and Multidisciplinary Design (Results of a Seventh Framework EU Project) 134: 173-187.
- Probst A, Schwamborn D, Garbaruk A, Guseva E, Shur M, Strelets M, Travin A (2017) Evaluation of Grey Area Mitigation Tools within Zonal and Non-Zonal RANS-LES Approaches in Flows with Pressure Induced Separation. Int. J. Heat and Fluid Flow 68: 237–247.
- Spalart PR, Deck S, Shur ML, Squires KD, Strelets MKh, Travin AK (2006) New version of Detached-eddy Simulation, resistant to ambiguous grid densities. Theoretical and Computational Fluid Dynamics 20(3): 181–195.
- Shur ML, Spalart PR, Strelets MKh, Travin AK (2015) An Enhanced Version of DES with Rapid Transition from RANS to LES in Separated Flows. Flow Turbulence and Combustion 95: 709-737.
- Shur ML, Spalart PR, Strelets MKh, Travin AK (2008) A Hybrid RANS-LES Approach with Delayed-DES and Wall-Modelled LES Capabilities. Int. J. Heat and Fluid Flow (29): 1638-1649.
- Shur, ML, Spalart PR, Strelets MKh, Travin AK (2014) Synthetic Turbulence Generators for RANS-LES Interfaces in Zonal Simulations of Aerodynamic and Aeroacoustic Problems. Flow Turbulence and Combustion (93): 63-92.
- Jarrin N, Prosser R, Uribe, J, Benhamadouche S, Laurence D (2009) Reconstruction of turbulent fluctuations for hybrid RANS/LES Simulations Using a Synthetic-Eddy method. Int. J. Heat and Fluid Flow 30: 435–442.
- Probst A (2016) Implementation and Assessment of the Synthetic-Eddy Method in an Unstructured Compressible Flow Solver. 6th Symposium on Hybrid RANS-LES Methods, Strasbourg, France, 2628 September 2016.
- Probst A, Löwe J, Reuß S, Knopp T, Kessler R (2016) Scale-Resolving Simulations with a LowDissipation Low-Dispersion Second-Order Scheme for Unstructured Flow Solvers. AIAA Journal 54(10): 2972-2987.
- Shur M, Strelets M, Travin A (2004) High-order implicit multi-block Navier-Stokes code: Ten-year experience of application to RANS/DES/LES /DNS of turbulent flows. 7th Symposium on Overset Composite Grids & Solution Technology, Huntington Beach, CA: http://cfd.spbstu.ru/agarbaruk/c/document_library/DLFE-42505.pdf.
- Rogers SE and Kwak D (1988) An Upwind Differencing Scheme for the Time-Accurate Incompressible Navier–Stokes Equations. AIAA Paper 1988-2583.
- Travin A, Shur M, Strelets M, Spalart PR (2000) Physical and numerical upgrades in the detached-eddy simulation of complex turbulent flows. In: Friedrich R, Rodi W (eds) Advances in LES of Complex Flows, Kluwer Acad., New York.
- Uzun A, Hussaini MY, Streett CL (2006) Large-Eddy Simulation of a Wing Tip Vortex on Overset Grids. AIAA Journal 44(6): 1229–1242.
- Uzun, A, Hussaini MY (2010) Simulations of Vortex Formation around a Blunt Wing Tip. AIAA Journal 48(6): 1221–1234.
- Uzun, A, Hussaini MY (2012) An Application of Delayed Detached Eddy Simulation to Tandem Cylinder Flow Field Prediction. Computers and Fluids 60: 71–85.
- Vreman AW (2004) An Eddy-Viscosity Subgrid-Scale Model for Turbulent Shear Flow: Algebraic Theory and Applications. Physics of Fluids 16(10): 3670–3681.
- Ashcroft G, Zhang X (2003) Optimized Prefactored Compact Schemes. Journal of Computational Physics 190(2): 459–457.
- Gaitonde DV, Visbal MR (2000) Pad´e-Type Higher-Order Boundary Filters for the Navier-Stokes Equations. AIAA Journal 38(11): 2103–2112.
- Visbal MR, Gaitonde DV (2001) Very High-Order Spatially Implicit Schemes for Computational Acoustics on Curvilinear Meshes. Journal of Computational Acoustics 9(4): 1259–1286.
- Sherer SE, Scott JN (2010) High-Order Compact Finite-Difference Methods on General Overset Grids. Journal of Computational Physics 210(2): 459–496.
- Uzun, A, Hussaini MY (2007) Investigation of High Frequency Noise Generation in the Near-Nozzle Region of a Jet Using Large Eddy Simulation. Theoretical and Computational Fluid Dynamics 21(4): 291–321.
- Uzun A, Hussaini MY (2009) Simulation of Noise Generation in Near-Nozzle Region of a Chevron Nozzle Jet. AIAA Journal 47(8): pp. 1793–1810.
- Pirozzoli S, Colonius T (2013) Generalized Characteristic Relaxation Boundary Conditions for Unsteady Compressible Flow Simulations. Journal of Computational Physics 248: 109–126.
- Spalart PR, Allmaras SR (1992) A one-equation turbulence model for aerodynamic flows. AIAA Paper 1992-0439.
- Spalart PR, Shur M (1997) On the sensitization of turbulence models to rotation and curvature. Aerospace Science and Technology l(5): 297–302.
- Menter FR (1994) Two-equation eddy-viscosity turbulence models for engineering applications. AIAA Journal 32(8): 1598-1605.
- Abdol-Hamid KS, Carlson J-R, Rumsey CL (2015) Verification and Validation of the k-kL Turbulence Model in FUN3D and CFL3D Codes. NASA/TM-2015-218968.
- Eisfeld B, Rumsey CL, Togiti V (2016) Verification and Validation of a Second-Moment-Closure Model. AIAA Journal 54(5): 1524--1541.
- Speziale CG., Sarkar S, Gatski TB (1991) Modeling the Pressure-Strain Correlation of Turbulence: an Invariant Dynamical Systems Approach, J. of Fluid Mechanics 227: 245-272.
- Launder BE, Reece GJ, and Rodi W (1975) Progress in the Development of a Reynolds-Stress Turbulent Closure, J. of Fluid Mechanics 68(3): 537-566.
- Rumsey CL (2015) Application of Reynolds Stress Models to Separated Aerodynamic Flows. In: Eisfeld B. (ed) Differential Reynolds Stress Modeling for Separating Flows in Industrial Aerodynamics, pp.19-37.
- Spalart PR, Belyaev KV, Garbaruk AV, Shur ML, Strelets MKh, Travin AK (2017) Large-Eddy and Direct Numerical Simulations of the Bachalo-Johnson Flow with Shock-Induced Separation. Flow Turbulence and Combustion. In press.
Contributed by: E. Guseva, M. Strelets — Peter the Great St. Petersburg Polytechnic University (SPbPU)
© copyright ERCOFTAC 2024