Publication Cover
Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 59, 2011 - Issue 11
556
Views
10
CrossRef citations to date
0
Altmetric
Original Articles

Numerical Investigation of Vortex Shedding Past a Finite Circular Cylinder Mounted on a Flat Plate

, , &
Pages 882-909 | Received 22 Nov 2010, Accepted 18 Mar 2011, Published online: 08 Jun 2011

REFERENCES

  • K. Velusamy , P. Chellapandi , S. C. Chetal , and B. Raj , Overview of Pool Hydraulic Design of Indian Prototype Fast Breeder Reactor , Sādhāna , vol. 35 , pp. 97 – 128 , 2010 .
  • C. W. Park and S. J. Lee , Free End Effects on the Near Wake Flow Structure behind a Finite Circular Cylinder , J. Wind Eng Ind. Aero , vol. 88 , pp. 231 – 246 , 2000 .
  • A. Slaouti and J. H. Gerrard , An Experimental Investigation of the End Effects on the Wake of a Circular Cylinder Towed through Water at Low Reynolds Numbers , J. Fluid Mech. , vol. 112 , pp. 297 – 314 , 1981 .
  • H. Eisenlohr and H. Eckelmann , Vortex Splitting and its Consequences in the Vortex Street Wake of Cylinders at Low Reynolds Number , Phys. of Fluids A , vol. 1 , pp. 189 – 192 , 1989 .
  • S. Szepessy and P. W. Bearman , Aspect Ratio and End Plate Effects on Vortex Shedding from a Circular Cylinder , J. Fluid Mech. , vol. 234 , pp. 191 – 217 , 1992 .
  • C. Norberg , An Experimental Investigation of the Flow around a Circular Cylinder: Influence of Aspect Ratio , J. Fluid Mech. , vol. 258 , pp. 287 – 316 , 1994 .
  • S. Okamoto and Y. Sunabashiri , Vortex Shedding from a Circular Cylinder of Finite Length Placed on a Ground Plane , Trans ASME, J. Fluid Eng. , vol. 114 , pp. 512 , 1992 .
  • J. Fröhlich and W. Rodi , LES of the Flow around a Circular Cylinder of Finite Height , Int. J. Heat and Fluid Flow , vol. 25 , pp. 537 – 548 , 2004 .
  • R. Balachandar , M. F. Tachie , and V. H. Chu , Concentration Profiles in Shallow Turbulent Wakes , Trans ASME, J. Fluid Eng. , vol. 121 , pp. 34 – 43 , 1999 .
  • V. H. Chu , J. H. Wu , and R. E. Khayat , Stability of Transverse Shear Flows in Shallow Open Channels , J. Hydr. Eng. , vol. 117 , no. 10 , pp. 1370 – 1388 , 1991 .
  • P. A. Monkewitz , The Absolute and Convective Nature of Instability in Two-Dimensional Wakes at Low Reynolds Numbers , Phys. Fluids , vol. 31 , pp. 999 – 1006 , 1988 .
  • P. Hurre and P. A. Monkewitz , Local and Global Instabilities in Spatially Developing Flows , Ann. Rev. Fluid Mech. , vol. 22 , pp. 473 – 537 , 1990 .
  • H. Oertel , Wakes Behind Bluff Bodies , Ann. Rev. Fluid Mech. , vol. 22 , pp. 539 – 564 , 1990 .
  • H. Akilli and D. Rockwell , Vortex Formation from a Cylinder in Shallow Water , Phys. Fluids , vol. 14 , pp. 2957 – 2967 , 2002 .
  • C. H. K. Williamson , Vortex Dynamics in the Cylinder Wake , Ann. Rev. Fluid Mech. , vol. 28 , pp. 477 – 539 , 1996 .
  • C. V. Seal , C. R. Smith , O. Akin , and D. Rockwell , Quantitative Characteristics of a Laminar , Unsteady Necklace Vortex System at a Rectangular Block-Flat Plate Juncture , J. Fluid Mech. , vol. 286 , pp. 117 – 135 , 1995 .
  • R. L. Simpson , Junction Flows , Ann. Rev. Fluid Mech. , vol. 33 , pp. 415 – 443 , 2001 .
  • C. J. Baker , The Laminar Horseshoe Vortex , J. Fluid Mech. , vol. 95 , pp. 347 – 367 , 1979 .
  • T. Kawamura , M. Hiwada , T. Hibino , I. Mabuchi , and M. Kamuda , Flow around a Finite Circular Cylinder on a Flat Plate , Bull. of JSME , vol. 27 , no. 232 , pp. 2142 – 2151 , 1984 .
  • U. Ghia , K. N. Ghia , and C. T. Shin , High-Resolutions for Incompressible Flow using the Navier–Stokes Equations and a Multigrid Method , J. Comp. Physics , vol. 48 , pp. 387 – 411 , 1982 .
  • P. N. Shankar and M. D. Deshpande , Fluid Mechanics of the Driven Cavity , Ann. Rev. Fluid Mech. , vol. 32 , pp. 93 – 136 , 2000 .
  • B. F. Armaly , F. Durst , J. C. F. Pereira , and B. Schoung , Experimental and Theoretical investigation of Backward Facing Step Flow , J. Fluid Mech. , vol. 127 , pp. 473 – 496 , 1983 .
  • G. De Vahl Davis , Natural Convection of Air in a Square Cavity—A Benchmark Solution , Int. J. Numer. Meth. Fluids , vol. 3 , pp. 249 – 264 , 1983 .
  • D. C. Wan , B. S. V. Patnaik , and G. W. Wei , A New Benchmark Quality Solution for the Buoyancy-Driven Cavity by discrete Singular Convolution, Numer. Heat Transfer B , vol. 40, pp. 199–228, 2001.
  • Y. C. Zhou , B. S. V. Patnaik , D. C. Wan , and G. W. Wei , DSC Solution for Flow in a Staggered Double Lid-Driven Cavity , Int. J. Numer. Meth. in Eng. , vol. 57 , pp. 211 – 234 , 2003 .
  • J. C. Kalita and R. K. Ray , A Transformation-Free HOC Scheme for Compressible Viscous Flows Past an Impulsively Started Circular Cylinder , J. Comp. Physics. , vol. 228 , pp. 5207 – 5236 , 2009 .
  • T. Ayyappan and S. Vengadesan , Three-Dimensional Simulation of Flow Past a Circular Cylinder by Nonlinear Turbulence Model , Numer. Heat Transfer A , vol. 54 , no. 2 , pp. 221 – 234 , 2008 .
  • A. Sharma and V. Eswaran , Heat and Fluid Flow across a Square Cylinder in the Two-Dimensional Laminar Flow Regime , Numer. Heat Transfer A , vol. 45 , no. 3 , pp. 247 – 269 , 2004 .
  • A. K. Sahu , R. P. Chhabra , and V. Eswaran , Forced Convection Heat Transfer from a Heated Square Cylinder to Power Law Fluids in the Unsteady Flow Regime , Numer. Heat Transfer A , vol. 56 , no. 2 , pp. 109 – 131 , 2009 .
  • A. K. Sahu , R. P. Chhabra , and V. Eswaran , The Effect of Blockage on Forced Convection Heat Transfer from a Heated Square Cylinder to Power Law Fluids , Numer. Heat Transfer A , vol. 58 , no. 8 , pp. 641 – 659 , 2010 .
  • G. Gandikota , S. Amiroudine , D. Chatterjee , and G. Biswas , The Effect of Aiding/Opposing Buoyancy on Two-Dimensional Laminar Flow across a Circular Cylinder , Numer. Heat Transfer A , vol. 58, no 5 , pp. 385 – 402 , 2010 .
  • B. Çuhadaroğlu and O. Turan , Numerical Simulation of Turbulent Flow around a Square Cylinder with Uniform Injection or Suction and Heat Transfer , Numer. Heat Transfer A , vol. 55 , no. 2 , pp. 163 – 184 , 2009 .
  • Y. T. K. Gowda , P. A. Aswatha Narayan , and K. N. Seetharamu , Mixed Convection Heat Transfer Past In-Line Cylinder in a Vertical Duct , Numer. Heat Transfer A , vol. 31 , no. 5 , pp. 551 – 562 , 1997 .
  • S. Tiwari , G. Biswas , P. L. N. Prasad , and S. Basu , Numerical Prediction of Flow and Heat Transfer in a Rectangular Channel with a Built–in Circular Tube , Trans ASME, J. Heat Transfer , vol. 125 , pp. 413 – 421 , 2003 .
  • D. Chatterjee , Mixed Convection Heat Transfer from Tandem Square Cylinders in a Vertical Channel at Low Reylonds Numbers , Numer. Heat Transfer A , vol. 58 , no. 9 , pp. 740 – 755 , 2010 .
  • J. N. Reddy and D. K. Gartling , The Finite Element Method in Heat Transfer and Fluid Dynamics, , 2nd ed. , CRC Press , Florida , 2001 .
  • Fluent 6.3, User's Guide, Fluent Inc., Canonsburg , 2006 .
  • H. K. Versteeg and W. Malalasekara , An Introduction to Computational Fluid Dynamics, The Finite Volume Method , Longman Scientific & Technical, Esesex , 1995 .
  • S. V. Patankar , Numerical Heat Transfer and Fluid Flow , Hemisphere Publishing Corporation , Washington , DC , 1980 .
  • C. A. J. Fletcher , Computational Techniques for Fluid Dynamics—2: Specific Techniques for Different Flow Categories , Springer-Verlag , Berlin , 1987 .
  • V. Prabhakar , J. P. Pontaza , and J. N. Reddy , A Collocation Penalty Least-Squares Finite Element Formulation for Incompressible Flows , Comput. Methods Appl. Mech. Eng. , vol. 197 , pp. 449 – 463 , 2008 .
  • B. S. V. Patnaik , P. A. A. Narayana , and K. N. Seetharamu , Finite Element Simulation of Transient Laminar Flow Past a Circular Cylinder and Two Cylinders in Tandem&mdash Influence of Buoyancy , Int. J. Numer. Meth. for Heat & Fluid Flow , vol. 10 , no. 6 , pp. 560 – 580 , 2000 .
  • G. Bosch and W. Rodi , Simulation of Vortex Shedding past a Square Cylinder with Different Turbulence Models, Int. J. Numer. Meth. in Fluids , vol. 28, pp. 601–616, 1998.
  • M. R. Flynn and A. D. Eisner , Verification and Validation Studies of the Time-Averaged Velocity Field in the Very Near-Wake of a Finite Elliptical Cylinder , Fluid Dyn. Res. , vol. 34 , pp. 273 – 288 , 2004 .
  • B. Dargahi , The Turbulent Flow Field around a Circular Cylinder , Exp. in Fluids , vol. 8 , pp. 1 – 12 , 1989 .
  • B. M. Sumer and J. Fredsøe , The Mechanics of Scour in the Marine Environment , World Scientific , Singapore , 2005 .
  • R. J. Goldstein and J. Karni , The Effect of a Wall Boundary on Local Mass Transfer from a Circular Cylinder in Cross–Flow , Trans ASME, J. Heat Transfer , vol. 106 , pp. 260 – 267 , 1984 .
  • K. Marakkos and J. T. Turner , Vortex Generation in the Cross-Flow around a Cylinder Attached to an End–Wall , Optics and Laser Tech. , vol. 38 , pp. 277 – 285 , 2006 .
  • G. X. Wu and Z. Z. Hu , Numerical Simulation of Viscous flow around Unrestrained Cylinders , J. Fluids and Structures , vol. 22 , pp. 371 – 390 , 2006 .
  • P. A. Berthelsen and O. M. Faltinsen , A Local Directional Ghost Cell Approach for Incompressible Viscous Flow Problems with Irregular Boundaries , J. Comp. Physics , vol. 227 , pp. 4354 – 4397 , 2008 .
  • T. Farrant , M. Tan , and W. G. Price , A Cell Boundary Method Applied to Laminar Vortex Shedding from Circular Cylinders , Computer and Fluids , vol. 30, no 2 , pp. 211 – 236 , 2001 .
  • W. Bai , C. G. Mingham , D. M. Causon , and L. Qian , Finite Volume Simulation of Viscous Free Surface Waves using the Cartesian Cut Cell Approach , Int. J. Numer. Meth. in Fluids , vol. 63 , pp. 69 – 95 , 2010 .
  • Y. Lecointe and J. Piquet , On the Use of Several Compact Methods for the Study of Unsteady Incompressible Viscous Flow around a Circular Cylinder , Computer and Fluids , vol. 12 , no. 4 , pp. 255 – 280 , 1984 .
  • C. T. Chan and K. Anastasiou , Solution of Incompressible Flows with or without a Free Surface using the Finite Volume Method on Unstructured Triangular Meshes , Int. J. Numer. Meth. in Fluids , vol. 29 , pp. 35 – 57 , 1999 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.