Suscripción a Biblioteca: Guest
Computational Thermal Sciences: An International Journal

Publicado 6 números por año

ISSN Imprimir: 1940-2503

ISSN En Línea: 1940-2554

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 1.5 To calculate the five year Impact Factor, citations are counted in 2017 to the previous five years and divided by the source items published in the previous five years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) 5-Year IF: 1 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.3 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00017 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.28 SJR: 0.279 SNIP: 0.544 CiteScore™:: 2.5 H-Index: 22

Indexed in

INFLUENCE OF VARIABLE LIQUID PROPERTIES ON MAGNETOHYDRODYNAMIC FLOW AND HEAT TRANSFER OF A CASSON LIQUID OVER A SLENDER ROTATING DISK: NUMERICAL AND OPTIMAL SOLUTION

Volumen 12, Edición 1, 2020, pp. 21-39
DOI: 10.1615/ComputThermalScien.2019029098
Get accessGet access

SINOPSIS

The present work deals with magnetohydrodynamic (MHD) flow and heat transfer of a Casson liquid over a rotating disk with variable thickness. The effects of velocity slip, convective boundary condition, viscous dissipation, and internal heat generation/absorption are considered. The transport properties of the fluid, for example, viscosity dissipation and thermal conductivity, vary with temperature. The governing nonlinear partial differential equations of the problem are reduced to a system of nonlinear ordinary differential equations by the von Karman approach and are solved numerically as well as semi-analytically. The numerical results are compared with previous studies for a special case and found to be in excellent agreement. Impacts of the pertinent parameters on the velocity components and the temperature field are graphically presented and analyzed in detail. The temperature distribution gets augmented for raising the values of viscous dissipation; variable thermal conductivity, and heat source/sink parameter.

REFERENCIAS
  1. Ackroyd, J.A.D., On the Steady Flow Produced by a Rotating Disc with Either Surface Suction or Injection, J. Eng. Math., vol. 12, pp. 467-485,1978.

  2. Andersson, H.I., deKorte, E., andMeland, R., Flow of a Power-Law Fluid over a Rotating Disk Revisited, Fluid Dyn. Res., vol. 28, pp. 75-88,2001.

  3. Batchelor, G.K., Note on a Class of Solutions of the Navier-Stokes Equations Representing Steady Rotationally-Symmetric Flow, Q. J. Mech. Appl. Math, vol. 4, p. 29,1951.

  4. Cochran, W.G., The Flow due to a Rotating Disc, Math. Proc. Philos. Soc, vol. 30, pp. 365-375,1934.

  5. Das, K., Acharya, N., and Kundu, P.K., The Onset of Nanofluid Flow past a Convectively Heated Shrinking Sheet in Presence of Heat Source/Sink: A Lie Group Approach, Appl. Therm. Eng., vol. 103, pp. 38-46,2016.

  6. Eshetu, H. and Shankar, B., Effects of Radiation, Viscous Dissipation and Magnetic Field on Nanofluid Flow in a Saturated Porous Media with Convective Boundary Condition, Comput. Therm. Sci, Int. J., vol. 8, pp. 177-191, 2016. DOI: 10.1615/Comput-ThermalScien.2016012982.

  7. Fang, T., Zhang, J., and Zhong, Y., Boundary Layer Flow over a Stretching Sheet with Variable Thickness, Appl. Math. Comput, vol. 218, pp. 7241-7252,2012.

  8. Gurah, G.S. and Anwar, M., Steady Flow ofaMicropolar Fluid due to a Rotating Disc, J. Eng. Math., vol. 13, pp. 223-234,1979.

  9. Hayat, T., Qayyum, S., Imtiaz, M., and Alsaedi, A., MHD Flow and Heat Transfer between Coaxial Rotating Stretchable Disks in a Thermally Stratified Medium, PLOS One, vol. 11, no. 5, pp. 1-23,2016a.

  10. Hayat, T., Khan, M.I., Farooq, M., Alsaedi, A., Waqas, M., and Yasmeen, T., Impact of Cattaneo-Christov Heat Flux Model in Flow of Variable Thermal Conductivity Fluid over a Variable Thickness Surface, Int. J. Heat Mass Transf, vol. 99, pp. 702-710, 2016b.

  11. Hayat, T., Qayyum, S., Alsaedi, A., and Shafiq, A., Inclined Magnetic Field and Heat Source/Sink Aspects in Flow of Nanofluid with Nonlinear Thermal Radiation, Int. J. Heat Mass Transf., vol. 103, pp. 99-107,2016c.

  12. Hayat, T., Qayyum, S., Imtiaz, M., and Alsaedi, A., Radiative Flow due to Stretchable Rotating Disk with Variable Thickness, Results Phys, vol. 7, pp. 156-165,2017.

  13. Karman, T.V., Uber Laminare and Turbulente Reibung, J. Appl. Math. Mech. Zeitschrift fur Angewandte Mathematik Mechanik, vol. 1,pp. 233-252,1921.

  14. Imtiaz, M., Tasawar, H., Ahmed, A., and Saleem, A., Slip Flow by a Variable Thickness Rotating Disk Subject to Magnetohydrodynamics, Results Phys., vol. 7, pp. 503-509,2017.

  15. Lee, A., Guan, H.Y., Timchenko, V., and Reizes, J., Effect of Variable Properties on Heat Transfer in a Micro-Channel with a Synthetic Jet, Comput. Therm. Sci, Int. J, vol. 5, pp. 369-388,2013. DOI: 10.1615/ComputThermalScien.2013004094.

  16. Liao, S., An Optimal Homotopy-Analysis Approach for Strongly Nonlinear Differential Equations, Commun. Nonlinear Sci. Numer. Simul., vol. 15, no. 8, pp. 2003-2016,2010.

  17. Ming, C.Y., Zheng, L.C., and Zhang, X.X., Steady Flow and Heat Transfer of the Power Law Fluid over a Rotating Disk, Int. Commun. Heat Mass Transf., vol. 38, pp. 280-284,2011.

  18. Prasad, K.V., Vajravelu, K., and Hanumesh, V., Hall Effect on MHD Flow and Heat Transfer over a Stretching Sheet with Variable Thickness, Int. J. Comput. Methods Eng. Sci. Mech., vol. 17, pp. 288-297,2016.

  19. Prasad, K.V., Vaidya, H., Vajravelu, K., and Rashidi, M., Effects of Variable Fluid Properties on MHD Flow and Heat Transfer over a Stretching Sheet with Variable Thickness, J. Mech., vol. 33, no. 4, pp. 501-512,2017a.

  20. Prasad, K.V., Vajravelu, K., Hanumesh V., and Van Gorder, R.A., MHD Flow and Heat Transfer in a Nanofluid over a Slender Elastic Sheet with Variable Thickness, Results Phys, vol. 7, pp. 1462-1474,2017b.

  21. Raju, C.S.K. and Sandeep, N., MHD Slip Flow of a Dissipative Casson Fluid over a Moving Geometry with Heat Source/Sink: A Numerical Study, Acta Astronaut., vol. 133, pp. 436-443,2017.

  22. Shufrin, I. and Eisenberger, M., Stability of Variable Thickness Shear Deformable Plates-First Order and High Order Analyses, Thin-Walled Struct, vol. 43, pp. 189-207,2005.

  23. Sibanda, P. and Makinde, O.D., On Steady MHD Flow and Heat Transfer past a Rotating Disk in a Porous Medium with Ohmic Heating and Viscous Dissipation, Int. J. Numer. Methods Heat Fluid Flow, vol. 20, pp. 269-285,2010.

  24. Soares, A.A., Ferreira, J.M., and Chhabra, R.P., Flow and Forced Convection Heat Transfer in Crossflow of Non-Newtonian Fluids over a Circular Cylinder, Ind. Eng. Chem. Res., vol. 44, pp. 5815-5827,2005.

  25. Stewartson, K., On the Flow between Two Rotating Coaxial Disks, Math. Proc. Philos. Soc., vol. 49, pp. 333-341,1953.

  26. Stuart, J.T., On the Effects of Uniform Suction on the Steady Flow due to a Rotating Disk, Q. J. Mech. Appl. Math., vol. 7, pp. 446-457,1954.

  27. Vajravelu, K. and Prasad, K.V., Keller-Box Method and Its Application, Berlin/Boston: HEP and Walter de Gruyter GmbH, 2014.

  28. Vajravelu, K., Prasad, K.V., Ng, C.O., and Hanumesh, V., MHD Flow and Heat Transfer over a Slender Elastic Permeable Sheet in a Rotating Fluid with Hall Current, Int. J. Appl. Comput. Math., vol. 3, pp. 3175-3200,2017.

  29. Vishwanath, B., Awati, M.O.D., and Manjunath, J., Computer-Extended Series Solution for Laminar Flow between a Fixed Im-permeable Disk and a Porous Rotating Disk, Eng. Comput., vol. 35, pp. 1655-1674,2018.

  30. Wakif, A., Boulahia, Z., and Sehaqui, R., Numerical Analysis of the Onset of Longitudinal Convective Rolls in a Porous Medium Saturated by an Electrically Conducting Nanofluid in the Presence of an External Magnetic Field, Results Phys., vol. 7, pp. 2134-2152,2017a.

  31. Wakif, A., Boulahia, Z., and Sehaqui, R., Numerical Study of the Onset of Convection in a Newtonian Nanofluid Layer with Spatially Uniform and Non Uniform Internal Heating, J. Nanofluid, vol. 6, pp. 136-148,2017b.

  32. Wakif, A., Boulahia, Z., Ali, F., Eid, M.R., and Sehaqui, R., Numerical Analysis of the Unsteady Natural Convection MHD Couette Nanofluid Flow in the Presence of Thermal Radiation Using Single and Two-Phase Nanofluid Models for Cu-Water Nanofluids, Int. J. Appl. Comput. Math., 2018a. DOI: 10.1007/s40819-018-0513-y.

  33. Wakif, A., Boulahia, Z., Mishra, S.R., Rashidi, M.M., and Sehaqui, R., Influence of a Uniform Transverse Magnetic Field on the Thermo-Hydrodynamic Stability in Water-Based Nanofluids with Metallic Nanoparticles Using the Generalized Boungiorno's Mathematical Model, Eur. Phys. J Plus, 2018b. DOI: 10.1140/epjp/i2018-12037-7.

  34. Wakif, A., Boulahia, Z., and Sehaqui, R., A Semi-Analytical Analysis of Electro-Thermo-Hydrodynamic Stability in Dielectric Nanofluids Using Buongiorno's Mathematical Model Together with More Realistic Boundary Conditions, Results Phys., vol. 9, pp. 1438-1454,2018c.

  35. Xun, S., Zhao, J., Zheng, L., Chen, X., and Zhang, X., Flow and Heat Transfer of Ostwald-de Waele Fluid over a Variable Thickness Rotating Disk with Index Decreasing, Int. J. Heat Mass Transf, vol. 103, pp. 1214-1224,2016.

  36. Zeeshan, A., Shehzad, N., and Ellahi, R., Analysis of Activation Energy in Couette-Poiseuille Flow of Nanofluid in the Presence of Chemical Reaction and Convective Boundary Conditions, Results Phys., vol. 8, pp. 502-512,2018.

  37. Zoubair, B., Wakif, A., and Sehaqui, R., Numerical Study of Mixed Convection of the Nanofluids in Two-Sided Lid-Driven Square Cavity with a Pair of Triangular Heating Cylinders, J. Eng., 2016. DOI: 10.1155/2016/8962091.

  38. Zoubair, B., Wakif, A., Chamkha, A.J., and Sehaqui, R., Numerical Study of Natural and Mixed Convection in a Square Cavity Filled by a Cu-Water Nanofluid with Circular Heating and Cooling Cylinders, Mech. Ind., vol. 18, p. 502,2017.

CITADO POR
  1. Basha Neelufer Z., Vajravelu Kuppalapalle, Mebarek‐Oudina Fateh, Sarris Ioannis, Vaidya Kanumesh, Prasad Kerehalli V., Rajashekhar Choudhari, MHD Carreau nanoliquid flow over a nonlinear stretching surface, Heat Transfer, 51, 6, 2022. Crossref

  2. Sharma Kushal, Kumar Sanjay, Vijay Neha, Insight into the motion of Water-Copper nanoparticles over a rotating disk moving upward/ downward with viscous dissipation, International Journal of Modern Physics B, 36, 29, 2022. Crossref

Próximos Artículos

A lattice Boltzmann study of nano-magneto-hydrodynamic flow with heat transfer and entropy generation over a porous backward facing-step channel Hassane NAJI, Hammouda Sihem, Hacen Dhahri A Commemorative Volume in Memory of Darrell Pepper David Carrington, Yogesh Jaluria, Akshai Runchal In Memoriam: Professor Darrell W. Pepper – A Tribute to an Exceptional Engineering Educator and Researcher Akshai K. Runchal, David Carrington, SA Sherif, Wilson K. S. Chiu, Jon P. Longtin, Francine Battaglia, Yongxin Tao, Yogesh Jaluria, Michael W. Plesniak, James F. Klausner, Vish Prasad, Alain J. Kassab, John R. Lloyd, Yelena Shafeyeva, Wayne Strasser, Lorenzo Cremaschi, Tom Shih, Tarek Abdel-Salam, Ryoichi S. Amano, Ashwani K. Gupta, Nesrin Ozalp, Ting Wang, Kevin R. Anderson, Suresh Aggarwal, Sumanta Acharya, Farzad Mashayek, Efstathios E. Michaelides, Bhupendra Khandelwal, Xiuling Wang, Shima Hajimirza, Kevin Dowding, Sandip Mazumder, Eduardo Divo, Rod Douglass, Roy E. Hogan, Glen Hansen, Steven Beale, Perumal Nithiarasu, Surya Pratap Vanka, Renato M. Cotta, John A. Reizes, Victoria Timchenko, Ashoke De, Keith A Woodbury, John Tencer, Aaron P. Wemhoff, G.F. ‘Jerry’ Jones, Leitao Chen, Timothy S. Fisher, Sandra K. S. Boetcher, Patrick H. Oosthuizen, Hamidreza Najafi, Brent W. Webb, Satwindar S. Sadhal, Amanie Abdelmessih Modeling of Two-Phase Gas-Liquid Slug Flows in Microchannels Ayyoub Mehdizadeh Momen, SA Sherif, William E. Lear Performance of two dimensional planar curved micronozzle used for gas separation Manu K Sukesan, Shine SR A Localized Meshless Method for Transient Heat Conduction with Applications Kyle Beggs, Eduardo Divo, Alain J. Kassab Non-nested Multilevel Acceleration of Meshless Solution of Heat Conduction in Complex Domains Anand Radhakrishnan, Michael Xu, Shantanu Shahane, Surya P Vanka Assessing the Viability of High-Capacity Photovoltaic Power Plants in Diverse Climatic Zones : A Technical, Economic, and Environmental Analysis Kadir Özbek, Kadir Gelis, Ömer Özyurt MACHINE LEARNING LOCAL WALL STEAM CONDENSATION MODEL IN PRESENCE OF NON-CONDENSABLE FROM TUBE DATA Pavan Sharma LES of Humid Air Natural Convection in Cavity with Conducting Walls Hadi Ahmadi moghaddam, Svetlana Tkachenko, John Reizes, Guan Heng Yeoh, Victoria Timchenko
Portal Digitalde Biblioteca Digital eLibros Revistas Referencias y Libros de Ponencias Colecciones Precios y Políticas de Suscripcione Begell House Contáctenos Language English 中文 Русский Português German French Spain