UFR 2-15 References

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Benchmark on the Aerodynamics of a Rectangular 5:1 Cylinder (BARC)

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Flows Around Bodies

Underlying Flow Regime 2-15

References

  1. Arslan, T., Pettersen B., Andersson H.I., 2011. Calculations of the flow around rectangular shaped floating structures, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  2. Bartoli, G., Bruno, L., Buresti, G., Ricciarelli, F., Salvetti, M.V., Zasso, A., 2008a. BARC Overview Document. http://www.aniv-iawe.org/barc.
  3. Bartoli, G., Bruno, L., Buresti, G., Ricciarelli, F., Salvetti, M.V., Zasso, A., 2008b. Requests for Computational Simulations. http://www.aniv-iawe.org/barc.
  4. Bartoli, G., Bruno, L., Buresti, G., Ricciarelli, F., Salvetti, M.V., Zasso, A., 2008c. Requests for Wind Tunnel Tests. http://www.aniv-iawe.org/barc.
  5. Bartoli, G., Borsani, A., Mannini, C., Marra, A.M., Procino, L., Ricciardelli, F., 2011. Wind tunnel study on the aerodynamics of a 5:1 rectangular cylinder in smooth flow, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  6. Bearman, P.W., 1969. On vortex shedding from a circular cylinder in the critical Reynolds number regime. Journal of Fluid Mechanics 37, 577 – 585.
  7. Bronkhorst, A.J., Geurts, C.P.W., van Bentum, C.A., 2011. Unsteady pressure measurements on a 5:1 rectangular cylinder, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  8. Bruno, L., Fransos, D., Coste, N., Bosco, A., 2010. 3D flow around a rectangular cylinder: a computational study. Journal of Wind Engineering and Industrial Aerodynamics 98, 263 – 276.
  9. Bruno, L., Fransos, D., 2011. Probabilistic evaluation of the aerodynamic properties of a bridge deck. Journal of Wind Engineering and Industrial Aerodynamics 99, 718 – 728.
  10. Bruno, L., Coste, N., Fransos, D., 2011. Effect of the spanwise features of the computational domain on the simulated flow around a rectangular 5:1 cylinder, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  11. Bruno, L., Coste, N., Fransos, D., 2012. Simulated flow around a rectangular 5:1 cylinder: Spanwise discretisation effects and emerging flow features. Journal of Wind Engineering and Industrial Aerodynamics 104 – 106, 203 – 215.
  12. Bruno, L., Salvetti, M.V., Ricciardelli, F., 2014. Benchmark on the Aerodynamics of a Rectangular 5:1 Cylinder: an overview after the first four years of activity. Journal of Wind Engineering and Industrial Aerodynamics, in press (DOI: 10.1016/j.jweia.2014.01.005)
  13. Carassale, L., 2008. Flow-induced actions on cylinders in statistically-symmetric cross flow. Probabilistic Engineering Mechanics 24(3), 323 – 339.
  14. De Grenet, E.T., Ricciardelli, F., 2005. The span-wise correlation of aerodynamic forces on a rectangular cylinder for different vibration regimes. In: Proceedings of the 6th European Conference on Structural Dynamics Eurodyn 2005, Paris, France.
  15. Ercoftac test case LES2, Ercoftac database case 43. http://ercoftac.mech.surrey.ac.uk/LESig/les2/homepage.html
  16. Ercoftac QNET-CFD Knowledge Base Wiki, Underlying Flow Regime UFR2-02
  17. Grozescu, A.N., Salvetti, M.V., Camarri, S., Buresti, G., 2011. Variational multiscale large-eddy simulations of the BARC flow configuration. In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  18. Grozescu, A.N., Bruno, L., Fransos, D., Salvetti, M.V., 2011. Large-eddy simulations of of a Benchmark on the Aerodynamics of a Rectangular 5:1 Cylinder. In: Proceedings of the 20th Italian Conference on Theoretical and Applied Mechanics, Bologna, Italy.
  19. Han F.L., Kareem A., 2009. Anatomy of Turbulence Effects on the Aerodynamics of an Oscillating Prism. Journal of Engineering Mechanics, ASCE, 135, 987 – 999.
  20. Han X., Pierre Sagaut P., Lucor D., 2012. On sensitivity of RANS simulations to uncertain turbulent inflow conditions. Computers & Fluids 61, 2 – 5.
  21. Hourigan, K., Thompson, M. C., Tan, B. T., 2001. Self-sustained oscillations in flows around long blunt plates. Journal Fluid and Structures 15, 387 398.
  22. Knisely, C.W., 1990. Strouhal numbers of rectangular cylinders at incidence: a review and new data. Journal of Fluids and Structures 4(4), 371 – 393.
  23. Le, T., Matsumoto, M., Shirato H., 2009. Spanwise coherent structure of wind turbulence and induced pressure on rectangular cylinders. Wind & Structures 2(5), 441 – 455.
  24. Lyn, D.A., Einav, S., Rodi, W., Park, J.H., 1995. A laser-Doppler velocimetry study of ensemble-averaged characteristics of the turbulent wake of a square cylinder. Journal of Fluid Mechanics 304, 285 – 319.
  25. Mannini, C., Weinman, K., Šoda, A., Schewe, G., 2009. Three-dimensional numerical simulation of flow around a 1:5 rectangular cylinder. In: Proceedings of EACWE 5, Florence, Italy.
  26. Mannini, C., Šoda, A., Schewe, G., 2010. Unsteady RANS modelling of flow past a rectangular cylinder: Investigation of Reynolds number effects. Computational Fluids 39(9), 1609 – 1624.
  27. Mannini, C., Šoda, A., Schewe, G., 2011. Numerical investigation on the three-dimensional unsteady flow past a 5:1 rectangular cylinder. Journal of Wind Engineering and Industrial Aerodynamics 99, 469 – 482.
  28. Mannini, Schewe, G., 2011. Numerical study on the three-dimensional unsteady flow past a 5:1 rectangular cylinder using the DES approach, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  29. Matsumoto, M., Shirato, H., Aaraki, K., Haramura, T., Hashimoto, T., 2003. Spanwise coherence characteristic of surface pressure field on 2D bluff bodies. Journal of Wind Engineering and Industrial Aerodynamics 91, 155 – 163.
  30. Matsumoto, M., Yagi, T., Hashimoto, M., Nakase, T., Maeta, K., Hori, K., Kawasima, Y., 2008. Steady Galloping / Unsteady Galloping and Vortex-induced Vibration of Bluff Bodies associated with Mitigation of Karman Vortex Shedding. In: Proceedings of the 6th International Colloquium on Bluff Body Aerodynamics and Applications, Milan, Italy.
  31. McLean, I., Gartshore, I., 1992. Spanwise correlations of pressure on a rigid square section cylinder. Journal of Wind Engineering and Industrial Aerodynamics 41, 797 – 808.
  32. Nakaguchi, H., Hashimoto, K., Muto, S., 1968. An experimental study on aerodynamic drag of rectangular cylinders. Journal of the Japan Society of Aeronautical and Space Sciences 16, 1 – 5
  33. Nakamura, Y., Mizota, T., 1975. Torsional flutter of rectangular prisms. Journal of the Engineering Mechanics Division 101(EM2), 125 – 142.
  34. Nakamura, Y., Yoshimura, T., 1982. Flutter and vortex excitation of rectangular prisms in pure torsion in smooth and turbulent flows. Journal of Sound and Vibration 84(3), 305 – 317.
  35. Nakamura, Y., Nakashima, M., 1986. Vortex excitation of prisms with elongated rectangular, H and L cross-sections. Journal of Fluid Mechanics 163, 149 – 169.
  36. Nakamura, Y., Ohya, Y., Tsuruta, H., 1991. Experiments on vortex shedding from flat plates with square leading and trailing edges. Journal of Fluid Mechanics 222, 437 – 447.
  37. Nakamura, Y., Ohya, Y., Ozono, S., Nakamaya, R., 1996. Experimental and numerical analysis of vortex shedding from elongated rectangular cylinders at low Reynolds numbers 200 – 1000. Journal of Wind Engineering and Industrial Aerodynamics 65, 301 – 308.
  38. Namiranian, F., Gartshore, I., 1988. Direct measurements of oscillating lift on a rigid square section cylinder in a turbulent stream. Journal of Wind Engineering and Industrial Aerodynamics 28, 209 – 218.
  39. Ohya, Y., Nakamura, Y., Ozono, S., Nakamaya, R., 1992. A numerical study of vortex shedding from flat plates with square lading and trailing edges. Journal of Fluid Mechanics 236, 445 – 460.
  40. Oka, S., Ishihara, T., 2009. Numerical study of aerodynamic characteristics of a square prism in a uniform flow, Journal of Wind Engineering and Industrial Aerodynamics 97, 548 – 559.
  41. Okajima, A., 1982. Strouhal numbers of rectangular cylinders. Journal of Fluid Mechanics 123, 379 – 398.
  42. Okajima, A., Sugitani, K., Mizota, T., 1983. Strouhal Number and Base Pressure Coefficient of Rectangular Cylinders : The Case of a Section of a Width/Height Ratio of 1-9. Transactions of the Japan Society of Mechanical Engineers Series B, 49(447), 2551 – 2558.
  43. Parker, R., Welsh, M.C., 1983. Effects of sound on flow separation from blunt flat plates. International Journal of Heat and Fluid Flow 4(2), 113 – 127.
  44. Posdziech, O., Grundmann, R., 2007. A systematic approach to the numerical calculation of fundamental quantities of the two-dimensional flow over a circular cylinder. Journal of Fluids and Structures 23, 479 – 499.
  45. Qu, L., Norberg, C., Davidson, L., Peng, S.H., Wang, F., 2013. Quantitative numerical analysis of flow past a circular cylinder at Reynolds number between 50 and 200. Journal of Fluids and Structures 39, 347 – 370.
  46. Ribeiro, A.F.P., 2011. Unsteady RANS modelling of flow past a rectangular 5:1 cylinder: investigation of edge sharpness effects, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.
  47. Ricciardelli, F., Marra, A.M., 2008. Sectional aerodynamic forces and their longitudinal correlation on a vibrating 5:1 rectangular cylinder. In: Proceedings of the 6th International Colloquium on Bluff Body Aerodynamics and Applications, Milan, Italy.
  48. Ricciardelli, F., 2010. Effects of the vibration regime on the spanwise correlation of the aerodynamic forces on a 5:1 rectangular cylinder, Journal of Wind Engineering and Industrial Aerodynamics 98, 215 – 225.
  49. Rodi, W., 1997. Comparison of LES and RANS calculations of the flow around bluff bodies, Journal of Wind Engineering and Industrial Aerodynamics 69 – 71, 55 – 75.
  50. Rodi, W., 2002. Large-Eddy Simulations of the Flow Past Bluff Bodies. In: Launder, B.E., Sandham, N.D. (Eds.), Closure strategies for turbulent and transitional flows. Cambridge University Press, 361 – 391.
  51. Schewe, G., 1983. On the Force Fluctuations Acting on a Circular Cylinder in Cross Flow From Subcritical up to Transcritical Reynolds Numbers, Journal of Fluid Mechanics 153, 265 – 285.
  52. Schewe, G. 1989. Nonlinear Flow induced Resonances of an H shaped Section. Journal of Fluids and Structures 3, 327 – 348.
  53. Schewe, G., 2006. Influence of the Reynolds-number on flow-induced vibrations of generic bridge sections. In:Radič J. (Ed.), Proceedings of the International Conference on Bridges, Dubrovnik, Croatia, 351 – 358.
  54. Schewe, G., 2009. Reynolds-number-effects in flow around a rectangular cylinder with aspect ratio1:5. In: Proceedings of the Fifth European and African Conference on Wind Engineering, Florence, Italy.
  55. Shimada, K. Ishihara, T., 2002. Application of a modified k – ε model to the prediction of aerodynamic characteristics

of rectangular cross-section cylinders. Journal of Fluids and Structures 16 (4), 465 – 485.

\bibitem[{Shirato et~al.(2010)}]{shirato2010} Shirato, H., Yuichi, S., Sasaki, O., Van Baod, D., 2010. Coherent structure of surface pressures on 2-D rectangular cylinders, In: Proceedings of the fifth International Symposium on Computational Wind Engineering, Chapel Hill, North Carolina, USA.

\bibitem[{Shirato et~al.(2011)}]{shirato} Shirato, H., Yuichi, S., Sasaki, O., 2011. Surface pressure correlation and buffeting force evaluation, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.

%\bibitem[{Smagorinsky(1963)}]{smag} %%Smagorinsky, J., 1963. General circulation experiments with the primitive equations. I. The basic experiment. %Monthly Weather Review 91, 99--164.

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\bibitem[{Stokes and Welsh(1986)}]{stokes1986} Stokes, A.N., Welsh, M.C., 1986. Flow-resonant sound interaction in a duct containing a plate, II:square leading edge. Journal of Sound and Vibration 104(1), 55-–73.

\bibitem[{Tamura et~al.(1993)}]{tamura1993} Tamura, T., Ito, Y., Kuwahara, K., 1993. Computational separated-reattaching flows around a rectangular cylinder, Journal of Wind Engineering and Industrial Aerodynamics 50, 9--18.

\bibitem[{Tamura et~al.(1995)}]{tamura1995} Tamura, T., Ito, Y., Wada, A., Kuwahara, K., 1995. Numerical study of pressure fluctuations on a rectangular cylinder in aerodynamic oscillations, Journal of Wind Engineering and Industrial Aerodynamics 54/55, 239--250.

\bibitem[{Tamura and Ito(1996)}]{tamura1996} Tamura, T., Ito, Y., 1996. Aerodynamic characteristics and flow structures around a rectangular cylinder with a section of various depth/breadth ratios. Journal of Structural and Construction Engineering 486, 153-–162 (in Japanese).

\bibitem[{Tamura et~al.(1998)Tamura, Miyagi, and Kitagishi}]{tamura1998} Tamura, T., Miyagi, T., Kitagishi, T., 1998. Numerical prediction of unsteady pressures on a square cylinder with various corner shapes. Journal of Wind Engineering and Industrial Aerodynamics 74-76, 531--542.

\bibitem[{Tan et~al.(2004)}]{tan2004} Tan, B.T., Thompson, M.C., Hourigan, F., 2004. Flow past rectangular cylinders: receptivity to transverse forcing. Journal of Fluid Mechanics 515, 33--62.

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\bibitem[{Vickery(1966)}]{vickery} Vickery, B.J., 1996. Fluctuating lift and drag on a long cylinder of square cross-section in a smooth and in a turbulent stream. Journal of Fluid Mechanics 25, 481--494.

\bibitem[{Voke(1997)}]{voke1997} Voke, P.R., 1997. Flow past a square cylinder: test LES2, In: Direct and Large- Eddy Simulation II, J.P. Chollet et al. (eds.), ERCOFTAC Series, vol. 5, Kluwer Academic Publishers, 355--373.

{ \bibitem[{Yu et~al.(2013)}]{yu_2013} Yu, D., Butler K., Kareem, A., Glimm J., Sun J., 2013. Simulation of the Influence of Aspect ratios on the Aerodynamics of rectangular Prisms. Journal of Engineering Mechanics, ASCE, 139, 429--438. }

\bibitem[{Yu and Kareem(1998)}]{yu2} Yu, D., Kareem, A., 1998. Parametric study of flow around rectangular prisms using LES. Journal of Wind Engineering and Industrial Aerodynamics 77-78, 653--662.

\bibitem[{Wei and Kareem(2011)}]{wei} Wei, Z., Kareem, A., 2011. A benchmark study of flow around a rectangular cylinder with aspect ratio 1:5 at Reynolds number 1.E5, In: Proceedings of the thirteenth International Conference on Wind Engineering, Amsterdam, The Netherlands.




Contributed by: Luca Bruno, Maria Vittoria Salvetti — Politecnico di Torino, Università di Pisa

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