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* | * Acarlar, M.S., Smith, C.R.: A study of hairpin vortices in a laminar boundary layer. {P}art 1. {H}airpin vortices generated by a hemisphere protuberance. Journal of Fluid Mechanics \textbf{175}, 1--41 (1987) | ||
* | |||
* Adrian, R.J., Yao, C.S.: Power spectra of fluid velocities measured by laser-{D}oppler velocimetry. Experiments in Fluids \textbf{5}(1), 17--28 (1986) | |||
* Baker, C.J.: The turbulent horseshoe vortex. Journal of Wind Engineering and Industrial Aerodynamics \textbf{6}(1), 9--23 (1980) | |||
* Benedict, L.H., Nobach, H., Tropea, C.: Estimation of turbulent velocity spectra from laser-{D}oppler data. Measurement Science and Technology \textbf{11}(8), 1089--1104 (2000) | |||
* Bennington, J.L.: \ch{Effects of various shaped roughness elements in two-dimensional high Reynolds number turbulent boundary layers}. Master thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA (2004) | |||
* Breuer, M., De~Nayer, G., M\"unsch, M., Gallinger, T., W\"uchner, R.: Fluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation. Journal of Fluids and Structures \textbf{29}, 107--130 (2012) | |||
* Broersen, P.M.T., de~Waele, S., Bos, R.: The accuracy of time series analysis for laser-{D}oppler velocimetry. In: Proceedings of the 10th International Symposium on Application of Laser Techniques to Fluid Mechanics. Lisbon, Portugal (2000) | |||
* Byun, G., Simpson, R.L.: Structure of three-dimensional separated flow on an axisymmetric bump. AIAA {J}ournal \textbf{44}(5), 999--1008 (2006) | |||
* Byun, G., Simpson, R.L.: Surface-pressure fluctuations from separated flow over an axisymmetric bump. AIAA {J}ournal \textbf{48}(10), 2397--2405 (2010) | |||
* Cheng, C.M., Fu, C.L.: Characteristic of wind loads on a hemispherical dome in smooth flow and turbulent boundary layer flow. Journal of Wind Engineering and Industrial Aerodynamics \textbf{98}(6), 328--344 (2010) | |||
* Counihan, J.: An improved method of simulating an atmospheric boundary layer in a wind tunnel. Atmospheric Environment (1967) \textbf{3}(2), 197--214 (1969) | |||
* Counihan, J.: Adiabatic atmospheric boundary layers: {A} review and analysis of data from the period 1880--1972. Atmospheric Environment (1967) \textbf{9}(10), 871--905 (1975) | |||
* Durst, F., Sch\"afer, M.: A parallel block-structured multigrid method for the prediction of incompressible flows. Int. Journal for Numerical Methods in Fluids \textbf{22}(6), 549--565 (1996) | |||
* Durst, F., Sch\"afer, M., Wechsler, K.: Efficient simulation of incompressible viscous flows on parallel computers. In: E.H. Hirschel (ed.) Flow Simulation with High-Performance Computers II, Notes on Numerical Fluid Mechanics, vol. 52(1), pp. 87--101. Vieweg (1996) | |||
* Ferziger, J.H., Peri{\'c}, M.: Computational Methods for Fluid Dynamics, third edn. Springer Berlin (2002) | |||
* Garc\'ia-Villalba, M., Li, N., Rodi, W., Leschziner, M.A.: Large-eddy simulation of separated flow over a three-dimensional axisymmetric hill. Journal of Fluid Mechanics \textbf{627}, 55--96 (2009) | |||
* Germano, M., Piomelli, U., Moin, P., Cabot, W.H.: A dynamic subgrid-scale eddy viscosity model. Physics of Fluids A \textbf{3}, 1760--1765 (1991) | |||
* Jacobs, W.: Str{\"o}mung hinter einem einzelnen {R}auhigkeitselement. Ingenieur-Archiv \textbf{9}(5), 343--355 (1938) | |||
* Kharoua, N., Khezzar, L.: Large-eddy simulation study of turbulent flow around smooth and rough domes. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science \textbf{227}(12), 2686--2700 (2013) | |||
* Khosla, P.K., Rubin, S.G.: A diagonally dominant second-order accurate implicit scheme. Computers \& Fluids \textbf{2}(2), 207--209 (1974) | |||
* Kim, W.W., Menon, S.: Application of the localized dynamic subgrid-scale model to turbulent wall-bounded flows. AIAA Paper No. AIAA-97-0210 (1997) | |||
* Klein, M., Sadiki, A., Janicka, J.: A digital filter based generation of inflow data for spatially--developing direct numerical or large--eddy simulations. Journal of Computational Physics \textbf{186}, 652--665 (2003) | |||
* Lawson, T.V.: Methods of producing velocity profiles in wind tunnels. Atmospheric Environment (1967) \textbf{2}(1), 73--76 (1968) | |||
* Lilly, D.K.: A proposed modification of the {G}ermano subgrid-scale closure method. Physics of Fluids A \textbf{4}, 633--635 (1992) | |||
* Lund, T.S., Wu, X., Squires, K.D.: Generation of turbulent inflow data for spatially--developing boundary layer simulations. Journal of Computational Physics \textbf{140}, 223--258 (1998) | |||
* Maher, F.J.: Wind loads on basic dome shapes. Journal of the Structural Division \textbf{91}(3), 219--228 (1965) | |||
* Manhart, M.: Vortex shedding from a hemisphere in a turbulent boundary layer. Theoretical and {C}omputational {F}luid {D}ynamics \textbf{12}(1), 1--28 (1998) | |||
* Martinuzzi, R., Tropea, C.: \ch{The flow around surface-mounted, prismatic obstacles placed in a fully developed channel flow}. Journal of Fluids Engineering \textbf{115}(1), 85--92 (1993) | |||
* Meroney, R.N., Letchford, C.W., Sarkar, P.P.: Comparison of numerical and wind tunnel simulation of wind loads on smooth, rough and dual domes immersed in a boundary layer. Wind and Structures \textbf{5}(2--4), 347--358 (2002) | |||
* Nicoud, F., Ducros, F.: Subgrid-scale stress modelling based on the square of the velocity gradient tensor. Flow, Turbulence and Combustion \textbf{62}(3), 183--200 (1999) | |||
* Okamoto, S., Sunabashiri, Y.: Vortex shedding from a circular cylinder of finite length placed on a ground plane. Journal of Fluids Engineering \textbf{114}(4), 512--521 (1992) | |||
* Pattenden, R.J., Turnock, S.R., Zhang, X.: Measurements of the flow over a low-aspect-ratio cylinder mounted on a ground plane. Experiments in Fluids \textbf{39}(1), 10--21 (2005) | |||
* Piomelli, U., Chasnov, J.R.: Large--eddy simulations: Theory and applications. In: M.~Hallb\"ack, D.~Henningson, A.~Johansson, P.~Alfredson (eds.) | |||
Turbulence and Transition Modeling, pp. 269--331. Kluwer (1996) | |||
\bibitem{rhie83} | |||
Rhie, C.M., Chow, W.L.: Numerical study of the turbulent flow past an airfoil | |||
with trailing-edge separation. | |||
\newblock AIAA Journal \textbf{21}(11), 1525--1532 (1983) | |||
\bibitem{sakamoto1983} | |||
Sakamoto, H., Arie, M.: Vortex shedding from a rectangular prism and a circular | |||
cylinder placed vertically in a turbulent boundary layer. | |||
\newblock Journal of Fluid Mechanics \textbf{126}, 147--165 (1983) | |||
\bibitem{sargison2004} | |||
Sargison, J.E., Walker, G.J., Bond, V., Chevalier, G.: Experimental review of | |||
devices to artificially thicken wind tunnel boundary layers. | |||
\newblock In: M.~Behnia, W.~Lin, G.D. McBain (eds.) Proceedings of the | |||
Fifteenth Australasian Fluid Mechanics Conference (CD-ROM). The University of | |||
Sydney, Sydney, Australia (2004). | |||
\newblock {AFMC00091} | |||
\bibitem{savory1986} | |||
Savory, E., Toy, N.: Hemisphere and hemisphere-cylinders in turbulent boundary | |||
layers. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics \textbf{23}, | |||
345--364 (1986) | |||
\bibitem{savory1988} | |||
Savory, E., Toy, N.: The separated shear layers associated with hemispherical | |||
bodies in turbulent boundary layers. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics | |||
\textbf{28}(1), 291--300 (1988) | |||
\bibitem{nonblockingcomm2} | |||
Scheit, C., Nusser, K., Hager, G., Becker, S., Zeiser, T., Wellein, G.: | |||
Optimizing the {FASTEST-3D} {CFD} code for massive parallelism. | |||
\newblock In: 26th Int. Conf. on Comp. Fluid Dynamics, ParCFD 2014. Norway, | |||
Trondheim (2014) | |||
\bibitem{schlatter2009} | |||
Schlatter, P., Orlu, R., Li, Q., Brethouwer, G., Fransson, J.H.M., Johansson, | |||
A.V., Alfredsson, P.H., Henningson, D.S.: Turbulent boundary layers up to | |||
{Re}$_\theta= 2500$ studied through simulation and experiment. | |||
\newblock Physics of Fluids \textbf{21}(5), 51,702 (2009) | |||
\bibitem{Schmidt2015} | |||
Schmidt, S., Breuer, M.: Extended synthetic turbulence inflow generator within | |||
a hybrid {LES--URANS} methodology for the prediction of non--equilibrium | |||
wall--bounded flows. | |||
\newblock Flow, Turbulence and Combustion \textbf{95}(4), 669--707 (2015) | |||
\bibitem{Schmidt2016} | |||
Schmidt, S., Breuer, M.: \ch{Application and extension of a synthetic | |||
turbulence inflow generator within a hybrid {LES--URANS} methodology}. | |||
\newblock In: J.~Fr\"ohlich, H.~Kuerten, B.J. Geurts, V.~Armenio (eds.) | |||
ERCOFTAC Series, Direct and Large-Eddy Simulation X, 10th Int.\ {ERCOFTAC} | |||
Workshop on Direct and Large--Eddy Simulation: {DLES-10}, Limassol, Cyprus, | |||
May 27--29, 2015. Springer Science+Business Media B.V. (2016). | |||
\newblock To appear | |||
\bibitem{sergent2002vers} | |||
Sergent, E.: Vers une methodologie de couplage entre la simulation des grandes | |||
echelles et les modeles statistiques. | |||
\newblock Ph.D. thesis, Ecully, Ecole Centrale de Lyon (2002) | |||
\bibitem{simpson2002} | |||
Simpson, R.L., Long, C.H., Byun, G.: Study of vortical separation from an | |||
axisymmetric hill. | |||
\newblock International Journal of Heat and Fluid Flow \textbf{23}(5), 582--591 | |||
(2002) | |||
\bibitem{smagorinsky} | |||
Smagorinsky, J.: General circulation experiments with the primitive equations | |||
{I}: {T}he basic experiment. | |||
\newblock Monthly Weather Review \textbf{91}(3), 99--165 (1963) | |||
\bibitem{spalart1992} | |||
Spalart, P.R., Allmaras, S.R.: A one-equation turbulence model for aerodynamic | |||
flows. | |||
\newblock AIAA {J}ournal \textbf{94}, 92--439 (1992) | |||
\bibitem{tamai1987} | |||
Tamai, N., Asaeda, T., Tanaka, N.: Vortex structures around a hemispheric hump. | |||
\newblock Boundary-{L}ayer {M}eteorology \textbf{39}(3), 301--314 (1987) | |||
\bibitem{tamura1990} | |||
Tamura, T., Kuwahara, K., Suzuki, M.: Numerical study of wind pressures on a | |||
domed roof and near wake flows. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics \textbf{36}, | |||
1001--1010 (1990) | |||
\bibitem{taniguchi1982} | |||
Taniguchi, S., Sakamoto, H., Kiya, M., Arie, M.: Time-averaged aerodynamic | |||
forces acting on a hemisphere immersed in a turbulent boundary. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics | |||
\textbf{9}(3), 257--273 (1982) | |||
\bibitem{tavakol2014} | |||
Tavakol, M.M., Abouali, O., Yaghoubi, M.: Large eddy simulation of turbulent | |||
flow around a wall mounted hemisphere. | |||
\newblock Applied Mathematical Modelling \textbf{39}(13), 3596--3618 (2015) | |||
\bibitem{tavakol2010} | |||
Tavakol, M.M., Yaghoubi, M., Masoudi~Motlagh, M.: Air flow aerodynamic on a | |||
wall-mounted hemisphere for various turbulent boundary layers. | |||
\newblock Experimental Thermal and Fluid Science \textbf{34}(5), 538--553 | |||
(2010) | |||
\bibitem{taylor1992} | |||
Taylor, T.J.: Wind pressures on a hemispherical dome. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics | |||
\textbf{40}(2), 199--213 (1992) | |||
\bibitem{toy1983} | |||
Toy, N., Moss, W.D., Savory, E.: Wind tunnel studies on a dome in turbulent | |||
boundary layers. | |||
\newblock Journal of Wind Engineering and Industrial Aerodynamics | |||
\textbf{11}(1), 201--212 (1983) | |||
\bibitem{wilcox1998} | |||
Wilcox, D.C.: Turbulence Modeling for {CFD}, second edn. | |||
\newblock DCW {I}ndustries, Inc., La Ca\~nada CA (1998) | |||
\bibitem{yaghoubi1991} | |||
Yaghoubi, M.A.: Air flow patterns around domed roof buildings. | |||
\newblock Renewable {E}nergy \textbf{1}(3), 345--350 (1991) | |||
\bibitem{yakhot1992} | |||
Yakhot, V., Orszag, S.A., Thangam, S., Gatski, T.B., Speziale, C.G.: | |||
Development of turbulence models for shear flows by a double expansion | |||
technique. | |||
\newblock Physics of Fluids \textbf{4}(7), 1510--1520 (1992) | |||
<br/> | <br/> | ||
---- | ---- | ||
Revision as of 15:42, 19 January 2016
Turbulent flow past a smooth and rigid wall-mounted hemisphere
Semi-confined flows
Underlying Flow Regime 3-33
References
List references describing in detail the relevant measurements, turbulence models, numerical methods, CFD results etc.
- Acarlar, M.S., Smith, C.R.: A study of hairpin vortices in a laminar boundary layer. {P}art 1. {H}airpin vortices generated by a hemisphere protuberance. Journal of Fluid Mechanics \textbf{175}, 1--41 (1987)
- Adrian, R.J., Yao, C.S.: Power spectra of fluid velocities measured by laser-{D}oppler velocimetry. Experiments in Fluids \textbf{5}(1), 17--28 (1986)
- Baker, C.J.: The turbulent horseshoe vortex. Journal of Wind Engineering and Industrial Aerodynamics \textbf{6}(1), 9--23 (1980)
- Benedict, L.H., Nobach, H., Tropea, C.: Estimation of turbulent velocity spectra from laser-{D}oppler data. Measurement Science and Technology \textbf{11}(8), 1089--1104 (2000)
- Bennington, J.L.: \ch{Effects of various shaped roughness elements in two-dimensional high Reynolds number turbulent boundary layers}. Master thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA (2004)
- Breuer, M., De~Nayer, G., M\"unsch, M., Gallinger, T., W\"uchner, R.: Fluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation. Journal of Fluids and Structures \textbf{29}, 107--130 (2012)
- Broersen, P.M.T., de~Waele, S., Bos, R.: The accuracy of time series analysis for laser-{D}oppler velocimetry. In: Proceedings of the 10th International Symposium on Application of Laser Techniques to Fluid Mechanics. Lisbon, Portugal (2000)
- Byun, G., Simpson, R.L.: Structure of three-dimensional separated flow on an axisymmetric bump. AIAA {J}ournal \textbf{44}(5), 999--1008 (2006)
- Byun, G., Simpson, R.L.: Surface-pressure fluctuations from separated flow over an axisymmetric bump. AIAA {J}ournal \textbf{48}(10), 2397--2405 (2010)
- Cheng, C.M., Fu, C.L.: Characteristic of wind loads on a hemispherical dome in smooth flow and turbulent boundary layer flow. Journal of Wind Engineering and Industrial Aerodynamics \textbf{98}(6), 328--344 (2010)
- Counihan, J.: An improved method of simulating an atmospheric boundary layer in a wind tunnel. Atmospheric Environment (1967) \textbf{3}(2), 197--214 (1969)
- Counihan, J.: Adiabatic atmospheric boundary layers: {A} review and analysis of data from the period 1880--1972. Atmospheric Environment (1967) \textbf{9}(10), 871--905 (1975)
- Durst, F., Sch\"afer, M.: A parallel block-structured multigrid method for the prediction of incompressible flows. Int. Journal for Numerical Methods in Fluids \textbf{22}(6), 549--565 (1996)
- Durst, F., Sch\"afer, M., Wechsler, K.: Efficient simulation of incompressible viscous flows on parallel computers. In: E.H. Hirschel (ed.) Flow Simulation with High-Performance Computers II, Notes on Numerical Fluid Mechanics, vol. 52(1), pp. 87--101. Vieweg (1996)
- Ferziger, J.H., Peri{\'c}, M.: Computational Methods for Fluid Dynamics, third edn. Springer Berlin (2002)
- Garc\'ia-Villalba, M., Li, N., Rodi, W., Leschziner, M.A.: Large-eddy simulation of separated flow over a three-dimensional axisymmetric hill. Journal of Fluid Mechanics \textbf{627}, 55--96 (2009)
- Germano, M., Piomelli, U., Moin, P., Cabot, W.H.: A dynamic subgrid-scale eddy viscosity model. Physics of Fluids A \textbf{3}, 1760--1765 (1991)
- Jacobs, W.: Str{\"o}mung hinter einem einzelnen {R}auhigkeitselement. Ingenieur-Archiv \textbf{9}(5), 343--355 (1938)
- Kharoua, N., Khezzar, L.: Large-eddy simulation study of turbulent flow around smooth and rough domes. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science \textbf{227}(12), 2686--2700 (2013)
- Khosla, P.K., Rubin, S.G.: A diagonally dominant second-order accurate implicit scheme. Computers \& Fluids \textbf{2}(2), 207--209 (1974)
- Kim, W.W., Menon, S.: Application of the localized dynamic subgrid-scale model to turbulent wall-bounded flows. AIAA Paper No. AIAA-97-0210 (1997)
- Klein, M., Sadiki, A., Janicka, J.: A digital filter based generation of inflow data for spatially--developing direct numerical or large--eddy simulations. Journal of Computational Physics \textbf{186}, 652--665 (2003)
- Lawson, T.V.: Methods of producing velocity profiles in wind tunnels. Atmospheric Environment (1967) \textbf{2}(1), 73--76 (1968)
- Lilly, D.K.: A proposed modification of the {G}ermano subgrid-scale closure method. Physics of Fluids A \textbf{4}, 633--635 (1992)
- Lund, T.S., Wu, X., Squires, K.D.: Generation of turbulent inflow data for spatially--developing boundary layer simulations. Journal of Computational Physics \textbf{140}, 223--258 (1998)
- Maher, F.J.: Wind loads on basic dome shapes. Journal of the Structural Division \textbf{91}(3), 219--228 (1965)
- Manhart, M.: Vortex shedding from a hemisphere in a turbulent boundary layer. Theoretical and {C}omputational {F}luid {D}ynamics \textbf{12}(1), 1--28 (1998)
- Martinuzzi, R., Tropea, C.: \ch{The flow around surface-mounted, prismatic obstacles placed in a fully developed channel flow}. Journal of Fluids Engineering \textbf{115}(1), 85--92 (1993)
- Meroney, R.N., Letchford, C.W., Sarkar, P.P.: Comparison of numerical and wind tunnel simulation of wind loads on smooth, rough and dual domes immersed in a boundary layer. Wind and Structures \textbf{5}(2--4), 347--358 (2002)
- Nicoud, F., Ducros, F.: Subgrid-scale stress modelling based on the square of the velocity gradient tensor. Flow, Turbulence and Combustion \textbf{62}(3), 183--200 (1999)
- Okamoto, S., Sunabashiri, Y.: Vortex shedding from a circular cylinder of finite length placed on a ground plane. Journal of Fluids Engineering \textbf{114}(4), 512--521 (1992)
- Pattenden, R.J., Turnock, S.R., Zhang, X.: Measurements of the flow over a low-aspect-ratio cylinder mounted on a ground plane. Experiments in Fluids \textbf{39}(1), 10--21 (2005)
- Piomelli, U., Chasnov, J.R.: Large--eddy simulations: Theory and applications. In: M.~Hallb\"ack, D.~Henningson, A.~Johansson, P.~Alfredson (eds.)
Turbulence and Transition Modeling, pp. 269--331. Kluwer (1996)
\bibitem{rhie83} Rhie, C.M., Chow, W.L.: Numerical study of the turbulent flow past an airfoil
with trailing-edge separation.
\newblock AIAA Journal \textbf{21}(11), 1525--1532 (1983)
\bibitem{sakamoto1983} Sakamoto, H., Arie, M.: Vortex shedding from a rectangular prism and a circular
cylinder placed vertically in a turbulent boundary layer.
\newblock Journal of Fluid Mechanics \textbf{126}, 147--165 (1983)
\bibitem{sargison2004} Sargison, J.E., Walker, G.J., Bond, V., Chevalier, G.: Experimental review of
devices to artificially thicken wind tunnel boundary layers.
\newblock In: M.~Behnia, W.~Lin, G.D. McBain (eds.) Proceedings of the
Fifteenth Australasian Fluid Mechanics Conference (CD-ROM). The University of Sydney, Sydney, Australia (2004).
\newblock {AFMC00091}
\bibitem{savory1986} Savory, E., Toy, N.: Hemisphere and hemisphere-cylinders in turbulent boundary
layers.
\newblock Journal of Wind Engineering and Industrial Aerodynamics \textbf{23},
345--364 (1986)
\bibitem{savory1988} Savory, E., Toy, N.: The separated shear layers associated with hemispherical
bodies in turbulent boundary layers.
\newblock Journal of Wind Engineering and Industrial Aerodynamics
\textbf{28}(1), 291--300 (1988)
\bibitem{nonblockingcomm2} Scheit, C., Nusser, K., Hager, G., Becker, S., Zeiser, T., Wellein, G.:
Optimizing the {FASTEST-3D} {CFD} code for massive parallelism.
\newblock In: 26th Int. Conf. on Comp. Fluid Dynamics, ParCFD 2014. Norway,
Trondheim (2014)
\bibitem{schlatter2009} Schlatter, P., Orlu, R., Li, Q., Brethouwer, G., Fransson, J.H.M., Johansson,
A.V., Alfredsson, P.H., Henningson, D.S.: Turbulent boundary layers up to
{Re}$_\theta= 2500$ studied through simulation and experiment.
\newblock Physics of Fluids \textbf{21}(5), 51,702 (2009)
\bibitem{Schmidt2015} Schmidt, S., Breuer, M.: Extended synthetic turbulence inflow generator within
a hybrid {LES--URANS} methodology for the prediction of non--equilibrium
wall--bounded flows.
\newblock Flow, Turbulence and Combustion \textbf{95}(4), 669--707 (2015)
\bibitem{Schmidt2016} Schmidt, S., Breuer, M.: \ch{Application and extension of a synthetic
turbulence inflow generator within a hybrid {LES--URANS} methodology}.
\newblock In: J.~Fr\"ohlich, H.~Kuerten, B.J. Geurts, V.~Armenio (eds.)
ERCOFTAC Series, Direct and Large-Eddy Simulation X, 10th Int.\ {ERCOFTAC}
Workshop on Direct and Large--Eddy Simulation: {DLES-10}, Limassol, Cyprus,
May 27--29, 2015. Springer Science+Business Media B.V. (2016).
\newblock To appear
\bibitem{sergent2002vers} Sergent, E.: Vers une methodologie de couplage entre la simulation des grandes
echelles et les modeles statistiques.
\newblock Ph.D. thesis, Ecully, Ecole Centrale de Lyon (2002)
\bibitem{simpson2002} Simpson, R.L., Long, C.H., Byun, G.: Study of vortical separation from an
axisymmetric hill.
\newblock International Journal of Heat and Fluid Flow \textbf{23}(5), 582--591
(2002)
\bibitem{smagorinsky} Smagorinsky, J.: General circulation experiments with the primitive equations
{I}: {T}he basic experiment.
\newblock Monthly Weather Review \textbf{91}(3), 99--165 (1963)
\bibitem{spalart1992} Spalart, P.R., Allmaras, S.R.: A one-equation turbulence model for aerodynamic
flows.
\newblock AIAA {J}ournal \textbf{94}, 92--439 (1992)
\bibitem{tamai1987} Tamai, N., Asaeda, T., Tanaka, N.: Vortex structures around a hemispheric hump. \newblock Boundary-{L}ayer {M}eteorology \textbf{39}(3), 301--314 (1987)
\bibitem{tamura1990} Tamura, T., Kuwahara, K., Suzuki, M.: Numerical study of wind pressures on a
domed roof and near wake flows.
\newblock Journal of Wind Engineering and Industrial Aerodynamics \textbf{36},
1001--1010 (1990)
\bibitem{taniguchi1982} Taniguchi, S., Sakamoto, H., Kiya, M., Arie, M.: Time-averaged aerodynamic
forces acting on a hemisphere immersed in a turbulent boundary.
\newblock Journal of Wind Engineering and Industrial Aerodynamics
\textbf{9}(3), 257--273 (1982)
\bibitem{tavakol2014} Tavakol, M.M., Abouali, O., Yaghoubi, M.: Large eddy simulation of turbulent
flow around a wall mounted hemisphere.
\newblock Applied Mathematical Modelling \textbf{39}(13), 3596--3618 (2015)
\bibitem{tavakol2010} Tavakol, M.M., Yaghoubi, M., Masoudi~Motlagh, M.: Air flow aerodynamic on a
wall-mounted hemisphere for various turbulent boundary layers.
\newblock Experimental Thermal and Fluid Science \textbf{34}(5), 538--553
(2010)
\bibitem{taylor1992} Taylor, T.J.: Wind pressures on a hemispherical dome. \newblock Journal of Wind Engineering and Industrial Aerodynamics
\textbf{40}(2), 199--213 (1992)
\bibitem{toy1983} Toy, N., Moss, W.D., Savory, E.: Wind tunnel studies on a dome in turbulent
boundary layers.
\newblock Journal of Wind Engineering and Industrial Aerodynamics
\textbf{11}(1), 201--212 (1983)
\bibitem{wilcox1998} Wilcox, D.C.: Turbulence Modeling for {CFD}, second edn. \newblock DCW {I}ndustries, Inc., La Ca\~nada CA (1998)
\bibitem{yaghoubi1991} Yaghoubi, M.A.: Air flow patterns around domed roof buildings. \newblock Renewable {E}nergy \textbf{1}(3), 345--350 (1991)
\bibitem{yakhot1992} Yakhot, V., Orszag, S.A., Thangam, S., Gatski, T.B., Speziale, C.G.:
Development of turbulence models for shear flows by a double expansion technique.
\newblock Physics of Fluids \textbf{4}(7), 1510--1520 (1992)
Contributed by: Jens Nikolas Wood, Guillaume De Nayer, Stephan Schmidt, Michael Breuer — Helmut-Schmidt Universität Hamburg
© copyright ERCOFTAC 2024