Effect of slip condition on vertical channel flow in the presence of radiation

• Autorzy: Guria M.

Identyfikatory

DOI

10.1515/ijame-2016-0021

• Języki publikacji: EN

Abstrakty

EN

An analysis is made on the three dimensional flow of a viscous incompressible fluid through a vertical channel in the presence of radiation in slip flow regime. The right plate is subjected to an uniform injection and the left plate to a periodic suction velocity distribution. The velocity and temperature fields have been derived using the perturbation technique. It is found that the velocity decreases with the increase of the slip parameter. It is also found that the velocity decreases with the increase of the radiation parameter but near the right plate it increases. For cooling of the plate, the velocity increases with the increase of the Grashoff number and decreases near the right plate but the reverse effect is observed for heating the plate.

Słowa kluczowe

EN

three-dimensional; injection; suction; buoyancy; transpiration cooling; free convection

PL

wtrysk; odsysanie pływalności; płyn nienewtonowski

• Wydawca: Oficyna Wydawnicza Uniwersytetu Zielonogórskiego
• Czasopismo: International Journal of Applied Mechanics and Engineering
• Rocznik: 2016
• Tom: Vol. 21, no. 2
• Strony: 341--358
• Opis fizyczny: Bibliogr. 19 poz., tab., wykr.

Twórcy

autor

Guria M.

• Department of Mathematics, Ghatal R.S. Mahavidyalaya Ghatal, Paschim Medinipur 721212, West Bengal, INDIA

Bibliografia

• [1] Aung W. (1972): Fully developed laminar free convection between vertical plates heated asymmetrically. – Int. J. Heat Mass Transfer, vol.15, pp.1577.
• [2] Sparrow E.M., Chrysler G.M. and Azevedo L.F. (1984): Observed flow reversals and measured predicted Nusselt number for natural convection in a one sided heated vertical channel. – ASME Journal of Heat Transfer, vol.106, pp.325.
• [3] Aung W. and Worku G. (1986): Theory of fully developed combined convection including flow reversal. – Journal of Heat Transfer, vol.108, pp.485.
• [4] Kettleborough C.F. (1972): Transient laminar free convection between heated vertical plates including entrance effects. – Int. J. Heat Mass Transfer, vol.15, pp.883.
• [5] Wang C.Y. and Skalak F. (1974): Fluid injection through one side of a long vertical channel. – AIChE J., vol.20, pp.603.
• [6] Sharma P.R. and Chaudhary R.C. (1982): Fluid injection of a Rivlin-Ericksen fluid through one side of a long vertical channel. – Bull. Tech. Univ. Istanbul, vol.35, pp.175.
• [7] Baris S. (2001): Injection of a non-Newtonian fluid through one side of a long vertical channel. – Acta Mech., vol.151, pp.163.
• [8] Baris S. (2002): Steady three-dimensional flow of a Walter's B' fluid in a vertical channel. – Turkish J. Eng. Env. Sci., vol.26, pp.385.
• [9] Singh P., Sharma V.P. and Misra U.N. (1978): Three dimensional free convection flow and heat transfer along a porous vertical wall. – App. Sci. Res., vol.34, pp.105.
• [10] Takhar H.S., Gorla R.S.R. and Soundalgekar V.M. (1996): Radiation effect on MHD free convection flow of a gas past a semi-infinite vertical plate. – Int. J. Num. Methods for Heat and Fluid Flow, vol.2, No.6, pp.77.
• [11] Pathak G., Maheshwari C.H. and Gupta S.P. (2006): Effect of radiation on unsteady free convection flow bounded by an oscillating plate with variable wall temperature. – Int. J. of Applied Mechanics and Engineering, vol.11, No.2, pp.371.
• [12] Perdikis C. and Raptis E. (2006): Unsteady MHD flow in the presence of radiation. – Int. J. Applied Mechanics and Engineering, vol.11, No.2, pp.385.
• [13] Sharma B.K., Agarwal M. and Chaudhary R.C. (2007): Radiation effect on temperature distribution in threedimensional Couette flow with suction or injection. – Applied Mathematics and Mechanics, vol.28, No.2, pp.309.
• [14] Guria M. and Jana R.N. (2006): Three dimensional free convection flow and heat transfer past a vertical channel. – International Journal of Fluid Mechanics Research, vol.33, No.4, pp.320.
• [15] Guria M., Ghara N. and Jana R.N. (2010): Radiation effect on three dimensional vertical channel flow. – Int. J. Applied Mechanics and Engineering, vol.15, No.4, pp.1065-1081.
• [16] Gupta M. and Goyal A. (1995): MHD unsteady flow of a viscous stratified fluid through a porous medium between two parallel plates in slip flow regime. – Acta Ciencia Indica, vol.21, No.4, pp.488-494.
• [17] Jothimani S. and Anjali Devi S.P. (2001): MHD Couette flow with heat transfer and slip effects in an inclined channel. – Journal of Mathematics, vol.43, No.1, pp.47-62.
• [18] Jain N.C. and Taneja R. (2002): Unsteady MHD flow with radiation through porous medium in slip flow regime. – Modelling, Measurement and Control B, vol.71, No.8, pp.23-26.
• [19] Jain N.C. and Gupta P. (2006): Three dimensional free convection Couette flow with transpiration cooling. – J. Zhejjang Univ SCIENCE A, vol.7, No.3, pp.340-346.

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę