Advanced search
Publication Cover
Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 66, 2014 - Issue 5
Submit an article Journal homepage
229
Views
5
CrossRef citations to date
0
Altmetric
Original Articles

Numerical Simulation of Turbulent Flow and Wall Mass Transfer in a Rectangular Channel Roughened by V-Shaped Grooves

Yubo Zhang Department of Technical Supervision, Xi'an Thermal Power Research Institute, Xi'an, P. R. China; State Key Laboratory of Multiphase Flow in Power Engineering, School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an, P. R. China
&
Defu Che State Key Laboratory of Multiphase Flow in Power Engineering, School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an, P. R. ChinaCorrespondence[email protected]
Pages 551-581 | Received 20 Aug 2013, Accepted 18 Sep 2013, Published online: 04 Jun 2014

REFERENCES

  • E. M. Sparrow and W. Q. Tao , Enhanced Heat Transfer in a Flat Rectangular Duct with Streamwise-Periodic Disturbances at One Principal Wall , J. Heat Transfer , vol. 105 , pp. 851 – 861 , 1983 .
  • R. T. Kukreja , S. C. Lau , and R. D. McMillin , Local Heat/Mass Transfer Distribution in a Square Channel with Full and V-Shaped Ribs , Int. J. Heat Mass Transfer , vol. 36 , pp. 2013 – 2020 , 1993 .
  • S. C. Lau , J. Cervantes , J. C. Han , R. J. Rudolph , and K. Flannery , Measurements of Wall Heat (Mass) Transfer for Flow through Blockages with Round and Square Holes in a Wide Rectangular Channel , Int. J. Heat Mass Transfer , vol. 46 , pp. 3991 – 4001 , 2003 .
  • D. A. Dawson and O. Trass , Mass Transfer at Rough Surfaces , Int. J. Heat Mass Transfer , vol. 15 , pp. 1317 – 1336 , 1972 .
  • S. Tantirige and O. Trass , Mass Transfer at Geometrically Dissimilar Rough Surfaces , Can. J. Chem. Eng. , vol. 62 , pp. 490 – 496 , 1984 .
  • W. Zhao and O. Trass , Electrochemical Mass Transfer Measurements in Rough Surface Pipe Flow: Geometrically Similar V-Shaped Grooves , Int. J. Heat Mass Transfer , vol. 40 , pp. 2785 – 2797 , 1997 .
  • A. A. Mobarak , H. A. Farag , and G. H. Sedahmed , Mass Transfer in Smooth and Rough Annular Ducts under Developing Flow Conditions , J. Appl. Electrochem. , vol. 27 , pp. 201 – 207 , 1997 .
  • J. C. Han and J. S. Park , Developing Heat Transfer in Rectangular Channels with Rib Turbulators , Int. J. Heat Mass Transfer , vol. 31 , pp. 183 – 195 , 1988 .
  • M. H. Hosni , H. W. Coleman , J. W. Garner , and R. P. Taylor , Roughness Element Shape Effects on Heat Transfer and Skin Friction in Rough-Wall Turbulent Boundary Layers , Int. J. Heat Mass Transfer , vol. 36 , pp. 147 – 153 , 1993 .
  • T.-M. Liou and J.-J. Hwang , Effect of Ridge Shapes on Turbulent Heat Transfer and Friction in a Rectangular Channel , Int. J. Heat Mass Transfer , vol. 36 , pp. 931 – 940 , 1993 .
  • Y. M. Zhang , W. Z. Gu , and J. C. Han , Heat Transfer and Friction in Rectangular Channels with Ribbed or Ribbed-Grooved Walls , J. Heat Transfer , vol. 116 , pp. 58 – 65 , 1994 .
  • X. F. Gao and B. Sunden , Heat Transfer and Pressure Drop Measurements in Rib-Roughened Rectangular Ducts , Exp. Therm. Fluid Sci. , vol. 24 , pp. 25 – 34 , 2001 .
  • R. Karwa , Experimental Studies of Augmented Heat Transfer and Friction in Asymmetrically Heated Rectangular Ducts with Ribs on the Heated Wall in Transverse, Inclined, V-Continuous and V-Discrete Pattern , Int. Commun. Heat Mass Transfer , vol. 30 , pp. 241 – 250 , 2003 .
  • G. Tanda , Heat Transfer in Rectangular Channels with Transverse and V-Shaped Broken Ribs, Int. J. Heat Mass Transfer , vol. 47, pp. 229–243, 2004.
  • A. R. Jaurker , J. S. Saini , and B. K. Gandhi , Heat Transfer and Friction Characteristics of Rectangular Solar Air Heater Duct Using Rib-Grooved Artificial Roughness , Sol. Energy , vol. 80 , pp. 895 – 907 , 2006 .
  • L. Wang and B. Sunden , Experimental Investigation of Local Heat Transfer in a Square Duct with Various-Shaped Ribs , Heat Mass Transfer , vol. 43 , pp. 759 – 766 , 2007 .
  • S. Acharya , S. Dutta , T. A. Myrum , and R. S. Baker , Periodically Developed Flow and Heat Transfer in a Ribbed Duct , Int. J. Heat Mass Transfer , vol. 36 , pp. 2069 – 2082 , 1993 .
  • T.-M. Liou , J.-J. Hwang , and S.-H. Chen , Simulation and Measurement of Enhanced Turbulent Heat Transfer in a Channel with Periodic Ribs on One Principal Wall , Int. J. Heat Mass Transfer , vol. 36 , pp. 507 – 517 , 1993 .
  • H. H. Cho , S. J. Wu , and H. J. Kwon , Local Heat/Mass Transfer Measurements in a Rectangular Duct with Discrete Ribs , J.Turbomach. , vol. 122 , pp. 579 – 586 , 2000 .
  • S.-J. Lee and T.-H. Song , Application of Grooved Fins to Enhance Forced Convection to Transverse Flow , Numer. Heat Transfer A , vol. 38 , pp. 491 – 512 , 2000 .
  • T. M. Liou , S. H. Chen , and K. C. Shih , Numerical Simulation of Turbulent Flow Field and Heat Transfer in a Two-Dimensional Channel with Periodic Slit Ribs , Int. J. Heat Mass Transfer , vol. 45 , pp. 4493 – 4505 , 2002 .
  • D. D. Luo , C. W. Leung , T. L. Chan , and W. O. Wong , Flow and Forced-Convection Characteristics of Turbulent Flow through Parallel Plates with Periodic Transverse Ribs , Numer. Heat Transfer A , vol. 48 , pp. 43 – 58 , 2005 .
  • K.-Y. Kim and J.-Y. Choi , Shape Optimization of a Dimpled Channel to Enhance Turbulent Heat Transfer , Numer. Heat Transfer A , vol. 48 , pp. 901 – 915 , 2005 .
  • A. Chaube , P. K. Sahoo , and S. C. Solanki , Analysis of Heat Transfer Augmentation and Flow Characteristics Due to Rib Roughness over Absorber Plate of a Solar Air Heater , Renew. Energy , vol. 31 , pp. 317 – 331 , 2006 .
  • A. K. Saha and S. Acharya , Turbulent Heat Transfer in Ribbed Coolant Passages of Different Aspect Ratios: Parametric Effects , J. Heat Transfer , vol. 129 , pp. 449 – 463 , 2007 .
  • S. Eiamsa-ard and P. Promvonge , Numerical Study on Heat Transfer of Turbulent Channel Flow over Periodic Grooves , Int. Commun. Heat Mass Transfer , vol. 35 , pp. 844 – 852 , 2008 .
  • S. Nesic , J. Postlethwaite , and D. J. Bergstrom , Calculation of Wall-Mass Transfer Rates in Separated Aqueous Flow Using a Low Reynolds Number k-ϵ Model , Int. J. Heat Mass Transfer , vol. 35 , pp. 1977 – 1985 , 1992 .
  • Y. Wang and J. Postlethwaite , The Application of Low Reynolds Number k-ϵ Turbulence Model to Corrosion Modelling in the Mass Transfer Entrance Region , Corros. Sci. , vol. 39 , pp. 1265 – 1283 , 1997 .
  • J. E. Duran , F. Taghipour , and M. Mohseni , CFD Modeling of Mass Transfer in Annular Reactors , Int. J. Heat Mass Transfer , vol. 52 , pp. 5390 – 5401 , 2009 .
  • M. El-Gammal , W. H. Ahmed , and C. Y. Ching , Investigation of Wall Mass Transfer Characteristics Downstream of an Orifice , Nucl. Eng. Des. , vol. 242 , pp. 353 – 360 , 2012 .
  • B. E. Launder , Numerical Computation of Convective Heat Transfer in Complex Turbulent Flows: Time to Abandon Wall Functions? , Int. J. Heat Mass Transfer , vol. 27 , pp. 1485 – 1491 , 1984 .
  • A. Ooi , G. Iaccarino , P. A. Durbin , and M. Behnia , Reynolds Averaged Simulation of Flow and Heat Transfer in Ribbed Ducts , Int. J. Heat Fluid Flow , vol. 23 , pp. 750 – 757 , 2002 .
  • R. G. Jia and B. Sunden , Prediction of Turbulent Heat Transfer and Fluid Flow in 2D Channels Roughened by Square and Deformed Ribs , ASME Conference Proceedings , pp. 143 – 152 , 2003 .
  • K. Abe , T. Kondoh , and Y. Nagano , A New Turbulence Model for Predicting Fluid Flow and Heat Transfer in Separating and Reattaching Flows—I. Flow Field Calculations, Int. J. Heat Mass Transfer , vol. 37, pp. 139–151, 1994.
  • S. M. Hosseinalipour and A. S. Mujumdar , Comparative Evaluation of Different Turbulence Models for Confined Impinging and Opposing Jet Flows , Numer. Heat Transfer A , vol. 28 , pp. 647 – 666 , 1995 .
  • W. D. Hsieh and K. C. Chang , Calculation of Wall Heat Transfer in Pipe Expansion Turbulent Flows , Int. J. Heat Mass Transfer , vol. 39 , pp. 3813 – 3822 , 1996 .
  • A. Saidi and B. Sunden , Numerical Simulation of Turbulent Convective Heat Transfer in Square Ribbed Ducts , Numer. Heat Transfer A , vol. 38 , pp. 67 – 88 , 2000 .
  • S. J. Wang and A. S. Mujumdar , A Comparative Study of Five Low Reynolds Number k-ϵ Models for Impingement Heat Transfer , Appl. Therm. Eng. , vol. 25 , pp. 31 – 44 , 2005 .
  • Y. Wang , J. Postlethwaite , and D. J. Bergstrom , Modelling Mass Transfer Entrance Lengths in Turbulent Pipe-Flow with Applications to Small Cathodes for Measuring Local Mass Transfer Rates , J. Appl. Electrochem. , vol. 26 , pp. 471 – 479 , 1996 .
  • Fluent Inc. , Fluent 6.0 User's Guide , 2001 .
  • Y. B. Zhang and D. F. Che , Effects of Two-Dimensional V-Shaped Grooves on Turbulent Channel Flow , Exp. Fluids , vol. 52 , pp. 315 – 328 , 2012 .
  • M. Eisenberg , T. C. W , and C. R. Wilke , Selected Physical Properties of Ternary Electrolytes Employed in Ionic Mass Transfer Studies , J. Electrochem. Soc. , vol. 103 , pp. 413 – 416 , 1956 .
  • F. P. Berger and K. F. Hau , Mass Transfer in Turbulent Pipe Flow Measured by the Electrochemical Method , Int. J. Heat Mass Transfer , vol. 20 , pp. 1185 – 1194 , 1977 .
  • R. H. Notter and C. A. Sleicher , The Eddy Diffusivity in the Turbulent Boundary Layer near a Wall , Chem. Eng. Sci. , vol. 26 , pp. 161 – 171 , 1971 .
  • J. S. Son and T. J. Hanratty , Limiting Relation for the Eddy Diffusivity Close to a Wall , AIChE Journal , vol. 13 , pp. 689 – 696 , 1967 .
  • F. P. Berger and K. F. Hau , Local Mass/Heat Transfer Distribution on Surfaces Roughened with Small Square Ribs , Int. J. Heat Mass Transfer , vol. 22 , pp. 1645 – 1656 , 1979 .
  • S. Lorenz , D. Mukomilow , and W. Leiner , Distribution of the Heat Transfer Coefficient in a Channel with Periodic Transverse Grooves , Exp. Therm. Fluid Sci. , vol. 11 , pp. 234 – 242 , 1995 .
  • S. C. Tantirige , A. P. Iribarne , M. Ojha , and O. Trass , The Turbulent Boundary Layer over Single V-Shaped Grooves , Int. J. Heat Mass Transfer , vol. 37 , pp. 2261 – 2271 , 1994 .
  • Sutardi and C. Y. Ching , The Response of a Turbulent Boundary Layer to Different Shaped Transverse Grooves , Exp. Fluids , vol. 35 , pp. 325 – 337 , 2003 .
  • Color versions of one or more of the figures in the article can be found online at www.tandfonline.com/unht.

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:

Order Reprints Request Corporate Permissions

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:

Request Academic Permissions

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.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.