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Tytuł artykułu

Simultaneous effects of thermal radiation and chemical reaction on hydromagnetic pulsatile flow of a Casson fluid in a porous space

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the present study, the hydromagnetic pulsating flow of Casson fluid between two parallel plates in a porous space, thermal radiation and chemical reaction are investigated. The analytical solutions for flow variables are obtained by using a perturbation technique. The effects of pertinent parameters on velocity, temperature, concentration, Nusselt number and Sherwood number distributions are studied in detail.
Rocznik
Strony
461--481
Opis fizyczny
Bibliogr. 36 poz., wykr.
Twórcy
autor
  • Department of Mathematics Narayana Engineering College Gudur, SPSR Nellore-524 101, India
autor
  • Department of Mathematics VIT-AP University, Inavolu Village Near AP Govt. Secretariat Amaravati – 522237, India
Bibliografia
  • 1. Eldabe N.T.M., Moatimid G.M., Ali H.S., Magnetohydrodynamic flow of nonNewtonian viscoelastic fluid through a porous medium near an accelerated plate, Canadian Journal of Physics, 81(11): 1249–1269, 2003.
  • 2. Hameed M., Nadeem S., Unsteady MHD flow of a non-Newtonian fluid on a porous plate, Journal of Mathematical Analysis and Applications, 325(1): 724–733, 2007.
  • 3. Nadeem S., Ul-Haq R., Akbar N.S., Khan Z.H., MHD three-dimensional Casson fluid flow past a porous linearly stretching sheet, Alexandria Engineering Journal, 52(4): 577–582, 2013.
  • 4. Misra J.C., Shit G.C., Chandra S., Kundu P.K., Hydromagnetic flow and heat transfer of a second-grade viscoelastic fluid in a channel with oscillatory stretching walls: application to the dynamics of blood flow, Journal of Engineering Mathematics, 69(1): 91–100, 2011.
  • 5. Rosca A.V., Pop I., Flow and heat transfer of Powell-Eyring fluid over a shrinking surface in a parallel free stream, International Journal of Heat and Mass Transfer, 71: 321–327, 2014.
  • 6. Wenchang T., Wenxiao P., Mingyu X., A note on unsteady flows of a viscoelastic fluid with the fractional Maxwell model between two parallel plates, International Journal of Non-Linear Mechanics, 38(5): 645–650, 2003.
  • 7. Khan U., Ahmed N., Khan S.I., Bano S., Mohyud-Din S.T., Unsteady squeezing flow of a Casson fluid between parallel plates, World Journal of Modelling and Simulation, 10(4): 308–319, 2014.
  • 8. Attia H.A., Sayed-Ahmed M.E., Transient MHD Couette flow of a Casson fluid between parallel plates with heat transfer, Italian Journal of Pure and Applied Mathematics, 27: 19–38, 2010, http://ijpam.uniud.it/online issue/201027/02-Attia2.pdf.
  • 9. Chiu-On Ng, Combined pressure-driven and electroosmotic flow of Casson fluid through a slit microchannel, Journal of Non-Newtonian Fluid Mechanics, 198: 1–9, 2013.
  • 10. Hayat T., Farooq M., Iqbal Z., Stretched flow of Casson fluid with variable thermal conductivity, Walailak Journal of Science and Technology, 10(2): 181–190, 2013.
  • 11. Nadeem S., Haq R., Lee C., MHD flow of a Casson fluid over an exponentially shrinking sheet, Scientia Iranica B, 19(6): 1550–1553, 2012.
  • 12. Srinivas S., Malathy T., Sachdev P.L., On pulsatile hydromagnetic flow of an Oldroyd fluid with heat transfer, Engineering Transactions, 55(1): 79–94, 2007.
  • 13. Malathy T., Srinivas S., Pulsating flow of hydromagnetic fluid between permeable beds, International Communications in Heat and Mass Transfer, 35(5): 681–688, 2008.
  • 14. Wang C.Y., Pulsatile flow in a porous channel, Journal of Applied Mechanics, 38(2): 553–555, 1971.
  • 15. Radhakrishnamacharya G., Maiti M.K., Heat transfer to pulsatile flow in a porous channel, International Journal of Heat and Mass Transfer, 20(2): 171–173, 1977.
  • 16. Siddiqui S.U., Gupta R.S., Verma N.K., Mishra S., Mathematical modelling of pulsatile flow of Casson’s fluid in arterial stenosis, Applied Mathematics and Computations, 210: 1–10, 2009.
  • 17. Shit G.C., Roy M., Pulsatile flow and heat transfer of magneto-micropolar fluid through a stenosed artery under the influence of body acceleration, Journal of Mechanics in Medicine and Biology, 11(3): 643–661, 2011.
  • 18. Shawky H.M., Pulsatile flow with heat transfer of dusty magnetohydrodynamic ReeEyring fluid through channel, Heat and Mass Transfer, 45(10): 1261–1269, 2009.
  • 19. Brewster M.Q., Thermal radiative transfer and properties, Wiley, New York, 1992.
  • 20. Hayat T., Sajjad R., Abbas Z., Sajjad M., Hendi A.A., Radiation effects on MHD flow of Maxwell fluid in a channel with porous medium, International Journal of Heat and Mass Transfer, 54(4): 854–862, 2011.
  • 21. Srinivas S., Shukla A.K., Ramamohan T.R., Reddy A.S., Influence of thermal radiation on unsteady flow over an expanding or contracting cylinder with thermal-diffusion and diffusion-thermo effects, Journal of Aerospace Engineering, 28(5): 04014134–10, 2015.
  • 22. Pal D., Vajravelu K., Mandal G., Convective-radiation effects on stagnation point flow of nanofluids over a stretching/shrinking surface with viscous dissipation, Journal of Mechanics, 30(3): 289–297, 2014.
  • 23. Mustafa M., Mushtaq A., Hayat T., Alsaedi A., Radiation effects in three-dimensional flow over a bi-directional exponentially stretching sheet, Journal of the Taiwan Institute of Chemical Engineers, 47: 43–49, 2015.
  • 24. Hossain M.A., Alim M.A., Rees D.A.S., The effect of radiation on free convection from a porous vertical plate, International Journal of Heat and Mass Transfer, 42(1): 181–191, 1999.
  • 25. Raptis A., Perdikis C., Takhar H.S., Effect of thermal radiation on MHD flow, Applied Mathematics and Computation, 153(3): 645–649, 2004.
  • 26. Mukhopadhyay S., Effects of thermal radiation on Casson fluid flow and heat transfer over an unsteady stretching surface subjected to suction/blowing, Chinese Physics B, 22(11): 114702–7, 2013.
  • 27. Makanda G., Shaw S., Sibanda P., Effects of radiation on MHD free convection of a Casson fluid from a horizontal circular cylinder with partial slip in non-Darcy porous medium with viscous dissipation, Boundary Value Problems, 2015, doi: 10.1186/s13661- 015-0333-5.
  • 28. Muthuraj R., Srinivas S., A note on heat transfer to MHD oscillatory flow in an asymmetric wavy channel, International Communications in Heat and Mass Transfer, 37(9): 1255–1260, 2010.
  • 29. Bridges C., Rajagopal K.R., Pulsatile flow of a chemically-reacting nonlinear fluid, Computers & Mathematics with Applications, 52(6–7): 1131–1144, 2006.
  • 30. Hayat T., Abbas Z., Channel flow of a Maxwell fluid with chemical reaction, Zeitschrift f¨ur Angewandte Mathematik und Physik, 59(1): 124–144, 2008.
  • 31. Hayat T., Mustafa M., Asghar S., Unsteady flow with heat and mass transfer of a third grade fluid over a stretching surface in the presence of chemical reaction, Nonlinear Analysis: Real World Applications, 11(4): 3186–3197, 2010.
  • 32. Vajravelu K., Prasad K.V., Prasanna Rao N.S., Diffusion of a chemically reactive species of a power-law fluid past a stretching surface, Computers & Mathematics with Applications, 62(1): 93–108, 2011.
  • 33. Das U.N., Deka R.K., Soundalgekar V.M., Effects of mass transfer on flow past an impulsively started infinite vertical plate with constant heat flux and chemical reaction, Forschung im Ingenieurwesen, 60(10): 284–287, 1994.
  • 34. Nabil E.T.M., Elsaka A.G., Radwan A.E., Magdy A.M.E., Effects of chemical reaction and heat radiation on the MHD flow of vicoelastic fluid through a porous medium over a horizontal stretching flat plate, Journal of American Science, 6(9): 126–136, 2010.
  • 35. Shehzad S.A., Hayat T., Qasim M., Asghar S., Effects of mass transfer on MHD flow of Casson fluid with chemical reaction and suction, Brazilian Journal of Chemical Engineering, 30(1): 187–195, 2013.
  • 36. Srinivas S., Malathy T., Reddy A.S., A note on thermal-diffusion and chemical reaction effects on MHD pulsating flow in a porous channel with slip and convective boundary conditions, Journal of King Saud University – Engineering Sciences, 28(2): 213–221, 2016.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4c0a7847-25b7-4c19-92cd-67dcb9ee9611
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