EFFECTS OF HEAT AND MASS TRANSFER FLOW OF A JEFFREY FLUID THROUGH A VERTICAL DEFORMABLE POROUS STRATUM

Similar documents
VISCOUS FLUID FLOW IN AN INCLINED CHANNEL WITH DEFORMABLE POROUS MEDIUM

HYDROMAGNETIC FLOW OF CASSON FLUID THROUGH A VERTICAL DEFORMABLE POROUS STRATUM WITH VISCOUS DISSIPATION AND CHEMICAL REACTION

Chemical Reaction, Radiation and Dufour Effects on Casson Magneto Hydro Dynamics Fluid Flow over A Vertical Plate with Heat Source/Sink

CHAPTER-III CONVECTION IN A POROUS MEDIUM WITH EFFECT OF MAGNETIC FIELD, VARIABLE FLUID PROPERTIES AND VARYING WALL TEMPERATURE

Mathematical Modeling on MHD Free Convective Couette Flow between Two Vertical Porous Plates with Chemical Reaction and Soret Effect

Magnetic Field and Chemical Reaction Effects on Convective Flow of

HEAT AND MASS TRANSFER OF UNSTEADY MHD FLOW OF KUVSHINSKI FLUID WITH HEAT SOURCE/SINK AND SORET EFFECTS

Rotating Flow of Magnetite-Water Nanofluid over a Stretching Surface Inspired By Non-Linear Thermal Radiation and Mass Transfer

Heat and Mass Transfer Flow of MHD Viscous Dissipative Fluid in a Channel with a Stretching and Porous Plate

Effects of wall properties and heat transfer on the peristaltic transport of a jeffrey fluid in a channel

Available online at ScienceDirect. Procedia Engineering 90 (2014 )

K.Kumara Swamy Naidu. E. Sudhakara

VISCO-ELASTIC FLUID FLOW WITH HEAT AND MASS TRASNFER IN A VERTICAL CHANNEL THROUGH A POROUS MEDIUM

Joule Heating Effects on MHD Natural Convection Flows in Presence of Pressure Stress Work and Viscous Dissipation from a Horizontal Circular Cylinder

MHD Free convection flow of couple stress fluid in a vertical porous layer

Radiation Effects on MHD Free Convective Heat and Mass Transfer Flow Past a Vertical Porous Flat Plate with Suction

MHD peristaltic transport of a micropolar fluid in an asymmetric channel with porous medium

Chemical Reaction and Viscous Dissipation Effects on an Unsteady MHD Flow of Heat and Mass Transfer along a Porous Flat Plate

International Journal of Scientific Research and Reviews

Viscous Dissipation and Mass Transfer Effects on MHD Oscillatory Flow in a Vertical Channel with Porous Medium

G. C. Hazarika 2 Department of Mathematics Dibrugarh University, Dibrugarh

IOSR Journal of Mathematics (IOSR-JM) e-issn: , p-issn: X.Volume12,Issue 1 Ver. III (Jan.-Feb.2016)PP

Heat and Mass Transfer on Unsteady M.H.D Oscillatory Flow of Non-Newtonian Fluid through Porous Medium in Parallel Plate Channel

BOUNDARY LAYER ANALYSIS ALONG A STRETCHING WEDGE SURFACE WITH MAGNETIC FIELD IN A NANOFLUID

NUMERICAL SOLUTION OF MHD FLOW OVER A MOVING VERTICAL POROUS PLATE WITH HEAT AND MASS TRANSFER

Department of Mathematics, Usmanu Danfodiyo University, Sokoto, Nigeria. DOI: / Page

Numerical Analysis of Heat Transfer in the Unsteady Flow of a non- Newtonian Fluid over a Rotating cylinder

1. INTRODUCTION. V.Srihari Babu 1 and K. Jaya Rami Reddy 2. India Department of Mathematics, K L University, Vaddeswaram, India

P. Roja a, T. Sankar Reddy b, & N. Bhaskar Reddy c. Y.S.R.(Dt) , A.P, INDIA. Sciences, Bangalore Road, Kadapa, Y.S.R. (Dt) , A.P, INDIA.

Comments on Magnetohydrodynamic Unsteady Flow of A Non- Newtonian Fluid Through A Porous Medium

Flow of a Casson Fluid Through an Inclined Tube of Non-uniform Cross Section with Multiple Stenoses

Chapter 2 Basic Conservation Equations for Laminar Convection

LAMINAR MHD MIXED CONVECTION FLOW OF A NANOFLUID ALONG A STRETCHING PERMEABLE SURFACE IN THE PRESENCE OF HEAT GENERATION

International Journal of Applied Mathematics and Physics, 3(2), July-December 2011, pp Global Research Publications, India

A Semi-Analytical Solution for a Porous Channel Flow of a Non-Newtonian Fluid

Buoyancy Effects on Unsteady MHD Flow of a Reactive Third-Grade Fluid with Asymmetric Convective Cooling

Magnetohydrodynamic Fluid Flow Between Two Parallel Infinite Plates Subjected To An Inclined Magnetic Field Under Pressure Gradient

Keywords Free Convection, Boundary Layer, Circular Cylinder, Viscoelastic Fluid, Heat Generation I. INTRODUCTION. with previous publication.

EFFECTS OF THERMAL RADIATION AND HEAT TRANSFER OVER AN UNSTEADY STRETCHING SURFACE EMBEDDED IN A POROUS MEDIUM IN THE PRESENCE OF HEAT SOURCE OR SINK

Effect of Thermal Radiation on the Casson Thin Liquid Film Flow over a Stretching Sheet

Entropy ISSN

Chemical Reaction Effects on a Three Dimensional MHD Mass Transfer Flow past a Vertical Plate

Unsteady free MHD convection flow past a vertical porous plate in slip-flow regime under fluctuating thermal and mass diffusion *

EFFECTS OF CHEMICAL REACTION ON MHD BOUNDARY LAYER FLOW OVER AN EXPONENTIALLY STRETCHING SHEET WITH JOULE HEATING AND THERMAL RADIATION

Effects of Magnetic Field and Slip on a Two-Fluid Model for Couple Stress Fluid Flow through a Porous Medium

Heat and Mass Transfer Effects on Flow past an Oscillating Infinite Vertical Plate with Variable Temperature through Porous Media

Influence of velocity slip conditions on MHD peristaltic flow of a Prandtl fluid in a non-uniform channel

Journal of Advances in Applied Mathematics, Vol. 1, No. 1, January

Numerical Solution of Non-Darcian Effects on Natural Convection in a Rectangular Porous Enclosure with Heated Walls

Module 1 : The equation of continuity. Lecture 4: Fourier s Law of Heat Conduction

Adv. Theor. Appl. Mech., Vol. 7, 2014, no. 1, 1-20 HIKARI Ltd,

On Heat Transfer in case of a Viscous Flow over a Plane Wall with Periodic Suction by Artificial Neural Network U. K. Tripathy #1, S. M.

Buoyancy Driven Heat Transfer of Water-Based CuO Nanofluids in a Tilted Enclosure with a Heat Conducting Solid Cylinder on its Center

Radiation and Soret Effects to MHD Flow in Vertical Surface with Chemical reaction and Heat generation through a Porous Medium

2015 American Journal of Engineering Research (AJER)

Hydromagnetic oscillatory flow through a porous medium bounded by two vertical porous plates with heat source and soret effect

Unsteady MHD Free Convection Flow past an Accelerated Vertical Plate with Chemical Reaction and Ohmic Heating

Available online at ScienceDirect. Procedia Engineering 127 (2015 )

Peristaltic flow of a Williamson fluid in an inclined planar channel under the effect of a magnetic field

*Corresponding Author: Surajit Dutta, Department of Mathematics, C N B College, Bokakhat, Golaghat, Assam, India

Parash Moni Thakur. Gopal Ch. Hazarika

NUMERICAL SOLUTION ON MHD FLOW AND HEAT TRANSFER FOR THE UPPER-CONVECTED MAXWELL FLUID OVER A STRETCHING/SHRINKING SHEET

HYDROMAGNETIC DIVERGENT CHANNEL FLOW OF A VISCO- ELASTIC ELECTRICALLY CONDUCTING FLUID

Oscillatory flow of a jeffrey fluid in an elastic tube of variable cross-section

Chemical reaction and radiation effects on MHD free convection flow along a streching surface with viscous dissipation and heat generation

International Journal of Mathematical Engineering and Science ISSN : Volume 1 Issue 2

Heat and Mass Transfer through a Porous Medium in a Vertical Channel with Chemical Reaction and Heat Source

Heat absorption and chemical reaction effects on peristaltic motion of micropolar fluid through a porous medium in the presence of magnetic field

Mechanical Engineering Research Journal BUOYANT FLOW OF NANOFLUID FOR HEAT-MASS TRANSFER THROUGH A THIN LAYER

[Sreenadh, 3(2): February, 2014] ISSN: Impact Factor: 1.852

MAGNETOHYDRODYNAMIC GO-WATER NANOFLUID FLOW AND HEAT TRANSFER BETWEEN TWO PARALLEL MOVING DISKS

Unsteady Flow of a Viscoelastic Fluid through a Porous Media between Two Impermeable Parallel Plates

EFFECT OF RADIATION ON MHD MIXED CONVECTION FLOW PAST A SEMI INFINITE VERTICAL PLATE

Transient Flow and Mass Transfer of a Third Grade Fluid Past a Vertical Porous Plate in the Presence of Chemical Reaction

Boundary-Layer Flow over a Porous Medium of a Nanofluid Past from a Vertical Cone

MHD Boundary Layer Flow of a Rotating Fluid Past A Vertical Porous Plate

Numerical Study of Steady MHD Plane Poiseuille Flow and Heat Transfer in an Inclined Channel

Chemical Reaction and Thermal Radiation Effects on MHD Mixed Convective Oscillatory Flow Through a Porous Medium Bounded by Two Vertical Porous Plates

A new numerical approach for Soret effect on mixed convective boundary layer flow of a nanofluid over vertical frustum of a cone

Numerical solution of MHD free convection of heat and mass transfer flow over an inclined hot plate with viscous dissipation and Hall current

Peristaltic Transport of a Magneto Non-Newtonian Fluid through A porous medium in a horizontal finite channel

Numerical Solution of Mass Transfer Effects on Unsteady Flow Past an Accelerated Vertical Porous Plate with Suction

Flow and Natural Convection Heat Transfer in a Power Law Fluid Past a Vertical Plate with Heat Generation

Effect of variable viscosity on the peristaltic flow of a Jeffrey fluid in a uniform tube

Transport Properties: Momentum Transport, Viscosity

Available online at (Elixir International Journal) Applied Mathematics. Elixir Appl. Math. 51 (2012)

CONSERVATION LAWS AND CONSERVED QUANTITIES FOR LAMINAR RADIAL JETS WITH SWIRL

CONVECTIVE HEAT TRANSFER CHARACTERISTICS OF NANOFLUIDS. Convective heat transfer analysis of nanofluid flowing inside a

Steady hydro magnetic rotating flow of a viscous incompressible fluid through a porous medium in a Parallel plate channel with Radiative Heat Transfer

Stagnation Point Flow of Non-Newtonian Fluid and Heat Transfer over a Stretching/Shrinking Sheet in a Porous Medium

Fluid Dynamics: MHD Flows Through or Past a Porous Media

Numerical Analysis of Laminar flow of Viscous Fluid Between Two Porous Bounding walls

INFLUENCE OF HEAT TRANSFER ON PERISTALTIC FLOW OF JEFFREY FLUID THROUGH A POROUS MEDIUM IN AN INCLINED ASYMMETRIC CHANNEL

Transient free convective MHD flow through porous medium in slip flow regime

Unsteady Flow of a Newtonian Fluid in a Contracting and Expanding Pipe

INFLUENCE OF POROSITY AND RADIATION IN A VISCO ELASTIC FLUID OF SECOND ORDER FLUID WITHIN A CHANNEL WITH PERMEABLE WALLS

Analysis of Non-Thermal Equilibrium in Porous Media

Effect of Magnetic Field on Blood Flow (Elastico- Viscous) Under Periodic Body Acceleration in Porous Medium

STABILIZED FEM SOLUTIONS OF MHD EQUATIONS AROUND A SOLID AND INSIDE A CONDUCTING MEDIUM

Peristaltic transport of a conducting fluid through a porous medium in an asymmetric vertical channel

Transcription:

International Journal o Mechanical Engineering and Technolog (IJMET) Volume 9, Issue, October 8, pp. 8 35, Article ID: IJMET_9 Available online at http://www.iaeme.com/ijmet/issues.asp?jtpe=ijmet&vtpe=9&itpe= ISSN Print: 976-634 and ISSN Online: 976-6359 IAEME Publication Scopus Indexed EFFECTS OF HEAT AND MASS TRANSFER FLOW OF A JEFFREY FLUID THROUGH A VERTICAL DEFORMABLE POROUS STRATUM M. Eswara Rao Department o Mathematics, Saveetha Institute o Medical and Technical Sciences, Chennai, Tamil Nadu, India R.L.V. Renuka Devi Department o Mathematics, Sri Venkateswara Universit, Tirupati, A.P., India N. Mahesh Babu Department o H & S, R S R Engineering College, Kadanuthala, SPSR Nellor, A.P., India M. Krishna Murth Department o Mathematics, GITAM Deemed to be Universit, Bengaluru, Karnataka, India ABSTRACT Eects o heat and mass transer low o Jere luid through a vertical deormable porous stratum are studied. The luid velocit, the displacement, the temperature and the concentration are solved numericall using ourth order Runge- Kutta method along with shooting technique. The eects o governing parameters on luid velocit, displacement, temperature and concentration are shown in graphs while the skin riction coeicient is shown in numericall. The present results have been good agreement with the existing results under some special cases. Kewords: deormable porous stratum, heat transer, Jere parameter, mass transer. Cite this Article: M. Eswara Rao, R.L.V. Renuka Devi, N. Mahesh Babu and M. Krishna Murth, Eects o Heat and Mass Transer Flow o a Jere Fluid Through a Vertical Deormable Porous Stratum, International Journal o Mechanical Engineering and Technolog, 9(), 8, pp. 8 35. http://www.iaeme.com/ijmet/issues.asp?jtpe=ijmet&vtpe=9&itpe=. INTRODUCTION Heat and mass transer analsis o non-newtonian luid lows are used in engineering and industrial applications such as binar gas diusion, ablation cooling, modeling o air and blood circulation in a respirator sstem. Barr et al. [] studied luid low over a thin deormable porous laer. Krishna Murth [] developed MHD Poiseuille low o a Jere luid over a deormable laer. Eect o deormable porous surace laers on the motion o a http://www.iaeme.com/ijmet/index.asp 8 editor@iaeme.com

Eects o Heat and Mass Transer Flow o a Jere Fluid Through a Vertical Deormable Porous Stratum sphere in a narrow clindrical tube was developed b Wen Wang et al. [3]. Free convection low o a Jere luid through a vertical deormable porous stratum was studied b Sreenadh et al. [4]. Viscous luid low in an inclined channel with deormable porous medium was reported b Sreenadh et al. [5]. Injection o luid into a laer o deormable porous medium was discussed b Barr et al. [6]. Sreenadh et al. [7] studied viscous low o Jere luid in an inclined channel through deormable porous media. MHD Couette low o a Jere luid over a deormable porous laer was investigated b Sreenadh et al. [8]. Rudraiah et al. [9] discussed Natural convection through vertical porous stratum. The present stud reveals that the eects o heat and mass transer low o a Jere luid over a deormable permeable bed. The governing equations o the luid velocit, the displacement, the heat transer and the mass transer are solved using shooting technique. While the skin riction coeicient is calculated numericall. The present results have been good agreement with the existing results under some special cases.. MATHEMATICAL FORMULATION OF THE PROBLEM Consider the stead ull developed heat and mass transer low o a Jere luid though a vertical deormable porous stratum. x - axis is taken as mid wa in the channel and - axis is taken as perpendicular to it. The walls are placed at distance b and maintained constant temperaturet, concentration C is shown in Figure. Figure The phsical model o the problem The governing equations o the velocit luid low, the displacement, the temperature and the concentration are as ollows Kv g T T a v p x () u p Kv x () T a v K v K (3) http://www.iaeme.com/ijmet/index.asp 9 editor@iaeme.com

M. Eswara Rao, R.L.V. Renuka Devi, N. Mahesh Babu and M. Krishna Murth C DB R C C (4) The boundar conditions on the velocit, the displacement, the temperature and the concentration are v u T T C C at b,,, dv du dt dc,,, at d d d d (5) Where a the apparent viscosit o the luid in the porous material, is the Jere parameter, is the volume raction component o the luid phase, p is the pressure, K drag coeicient, is the luid densit, g is the acceleration due to gravit, is the coeicient o linear thermal expansion o the luid, T is the temperature, T is the constant temperature at the walls, T is the ambient temperature, is lame constant, u is the solid displacement, v is the luid velocit, K is the thermal conductivit, the concentration, Cis the constant concentration at the walls, the chemical reaction. The ollowing non-dimensional quantities are * * * *, a,, DB is the thermo diusion coeicient, C is C ambient concentration, R is u x v u x b g b T T g b T T b T T C C * p,, p T T C C gbt T (6) Using equation (6) in equations ()-(5) the ollowing non-dimensional equations are o the orm as d du dv Gv Gv d (7) (8) d N dv N v d d (9) d d Sc The ollowing boundar conditions are () v, u,, at dv du d d,,, at d d d d () http://www.iaeme.com/ijmet/index.asp 3 editor@iaeme.com

Eects o Heat and Mass Transer Flow o a Jere Fluid Through a Vertical Deormable Porous Stratum Kb Where is the viscous drag coeicient, is the bulk luid viscosit to the apparent luid viscosit in the porous laer, parameter, Sc D B a g b T T N 4 Ka dp is the Schmidt number, G is the pressure gradient, dx is the buoanc Rb is the chemical reaction parameter, is the Jere parameter and is the volume raction s component o the luid phase. The phsical quantities o interest are the skin riction coeicient, the rate o heat transer and the Sherwood number are as ollows dv d, d Nu d and d Sh d 3. RESULTS ANDDISCUSSION The present stud investigates eects o heat and mass transer low o Jere luid though a vertical deormable porous stratum. The governing equations o the luid velocit, the displacement, the temperature and the concentration are solved numericall using shooting technique. The eects o governing parameters on the luid velocit, the displacement, the temperature and the concentration are shown in graphicall while the skin riction coeicient and the rate o heat transer are calculated numericall it is shown in Table and Table. The inluence o non-newtonian Jere parameter on the velocit temperature distribution v and the is shown in Figures and 3. We observed that the velocit and the temperature decrease or higher values o Jere parameter. The impact o volume raction component on the solid displacement u and the velocit v is displaed in Figures 4 and 5. We have seen that the solid displacement velocit increases with increase in volume raction component and the opposite nature in the luid velocit. The variation o v, the displacement u and the temperature or dierent values o velocit pressure gradient G is presented in Figures 6, 7 and 8. We report that the velocit, displacement and the temperature decreases with increase in pressure gradient G. The inluences o viscous drag coeicient and the apparent viscosit on the luid velocit, the temperature and the solid displacement u are shown in Figures 9-4. We noticed that the luid velocit, the temperature reduces with increase in, and the opposite behaviors in the solid displacement are reported. This reduction causes or higher values o viscosit parameter gives rise to increasing in velocit and temperature. The variation o the temperature distribution or distinct values o buoanc parameter N is displaed in Figure 5. We reveal that the temperature reduces or enhancing in buoanc parameter N. From Figure 6 and 7 that the inluence o Schmidt number Sc and Chemical reaction parameter on the concentration distribution is displaed. We noticed that the concentration reduces or higher values o Schmidt number Sc and Chemical reaction. The magnitude o skin riction coeicient at the wall is calculated numericall or distinct values o buoanc parameter N and is shown in Table. We noticed that the skin riction coeicient increases with increasing N the same nature we observed that or undeormable vertical http://www.iaeme.com/ijmet/index.asp 3 editor@iaeme.com

M. Eswara Rao, R.L.V. Renuka Devi, N. Mahesh Babu and M. Krishna Murth porous channel Rudraiah et al. [9]. The skin riction coeicient is more or non-newtonian luid when comparing with Newtonian luid and is represented in Table. The present results have been good agreement with the existing result Sreenadh et al. [4]..45.5.4.35 =.,.,.,.3 =.,.,.,.3.3. v ().5..5 ().5..5 =.5, G =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure The Velocit or distinct values o =.5, =, G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 3 The temperature or distinct values o.6.4.4 =.5,.6,.7,.8.35 =.4,.5,.6,.7..3..5 u ().8 v()..6.5.4.. G =., =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 4 The displacement or distinct values o.5 =., G =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 5 The Velocit or distinct values o.4.4.35 G =.,.,.3,.4..3.5 v ()..5...8 u ().6.4 G =.,.,.3,.4.5 =.5, =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 6 The velocit or distinct values o G. =.5, =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 7 The displacement or distinct values o G http://www.iaeme.com/ijmet/index.asp 3 editor@iaeme.com

Eects o Heat and Mass Transer Flow o a Jere Fluid Through a Vertical Deormable Porous Stratum.4.6..5. G =.,.,.3,.4.4 =.5,.,.5,. ().8.6.4 v ().3.. =.5, =., =, =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 8 The temperature or distinct values o G. =.5, =., G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 9 The velocit or distinct values o.4.5.. =.,.5,.,.5. =.,.5,.,.5 ().8.5 u ().6..4. =.5, =., G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9...3.4.5.6.7.8.9 Figure The temperature or distinct values o Figure The displacement or distinct values o.5 =.5, =., G =., =, N =, Sc =.6, =..4.4.35.3.5 v (). =.,.5,.,.5.. ().8 =.,.5,.,.5.5.6..4.5 =.5, =., G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure The velocit or distinct values o. =.5, =., G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 3 The temperature or distinct values o http://www.iaeme.com/ijmet/index.asp 33 editor@iaeme.com

M. Eswara Rao, R.L.V. Renuka Devi, N. Mahesh Babu and M. Krishna Murth.5.4. =.,.5,.,.5.35.3 N =.,.5,.,.5.5.5 u () ()...5.5 =.5, =., G =., =, N =, Sc =.6, =....3.4.5.6.7.8.9 Figure 4 The displacement or distinct values o..5 =.5, =., =, =, G =., Sc =.6, =....3.4.5.6.7.8.9 Figure 5 The temperature or distinct values o N.995 Sc =.,.6,.78,.96.98 =.,.,.3,.4.99.985.96.98 ().975 ().94.97.9.965.96.955 =.5, =, G =., =. =, N =, =..95...3.4.5.6.7.8.9 Figure 6 The Concentration or distinct values o Sc.9 =.5, =, G =.,Sc =.6 =, N =, Sc =.6, =..88...3.4.5.6.7.8.9 Figure 7 The Concentration or distinct values o Table The Skin riction coeicient or distinct values o N S. No. N N N 3 Rudraiah et al. [9] (undeormable porous laer).856.8497.8937 Sreenadh et al.[4].75.768.785 (deormable porous laer with ) 3 Present results (deormable porous laer with ).7534.769.7857 Table The Skin riction coeicient or distinct values o...4.6.8. Sreenadh et al.[4].75.66.37.474.659.73 Present results.754.659.369.4745.6576.745 http://www.iaeme.com/ijmet/index.asp 34 editor@iaeme.com

Eects o Heat and Mass Transer Flow o a Jere Fluid Through a Vertical Deormable Porous Stratum REFERENCES [] Barr SI, Parker K H, Aldis GK, Fluid low over a thin deormable Porous laer, J. Appl.Maths. Phs 99; 4: 633-648. [] Krishna Murth M, MHD Poiseuille low o a Jere luid over a deormable laer, Chem. Proc. Eng. Res 5; 38: 8-4. [3] Wen Wang Kimh. Parker, Eect o deormable porous surace laers on the motion o a sphere in a narrow clindrical tube, J. Appl. Fluid. Mech 995; 83: 87-35. [4] Sreenadh S, Rashidi MM, Kumara swam naidu K, Parandhama A, Free convection low o a Jere luid through a vertical deormable porous stratum, J. Appl. Fuid Mech 6; 9: 39-4. [5] Sreenadh S, Gopi krishna G,Manoj kumar uppuluri V, Srinivas ANS, Viscous luid low in an inclined channel with deormable porous medium, Int. J. Mech. Engg. Tech 8; 9: 97-979. [6] Barr S, Aldis G, Mercer G, Injection o luid into a laer o deormable porous medium, Appl. Mech. Reviews 995; 48: 7-76. [7] Selvi PD, Sreenadh S, Kesava redd E, Gopi krishna G, Viscous low o Jere luid in an inclined channel through deormable porous media, W. Appl. Sci. J 7; 35: 669-677. [8] Sreenadh S, Prasad KV, Vaida H, Sudhakara E, Gopi krishna G, Krishna Murth M, MHD Couette low o a Jere luid over a deormable porous laer, Int. J. Appl. Comp. Math 7; 3: 5-38. [9] Rudraiah N, Nagaraj ST, Natural convection through vertical porous stratum, Int. J. Eng. Sci. 977; 5: 589-6. http://www.iaeme.com/ijmet/index.asp 35 editor@iaeme.com

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback