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M. Malik, S. Wilkinson, S. Orszag (1981)
Instability and transition in rotating disk flowAIAA Journal, 19
D. Chin, M. Litt (1972)
An electrochemical study of flow instability on a rotating diskJournal of Fluid Mechanics, 54
Mohammad Rashidi, T. Hayat, Esmaeel Erfani, S. Pour, A. Hendi (2011)
Simultaneous effects of partial slip and thermal-diffusion and diffusion-thermo on steady MHD convective flow due to a rotating diskCommunications in Nonlinear Science and Numerical Simulation, 16
E. Osalusi, J. Side, R. Harris (2008)
Thermal-diffusion and diffusion-thermo effects on combined heat and mass transfer of a steady MHD convective and slip flow due to a rotating disk with viscous dissipation and Ohmic heating☆International Communications in Heat and Mass Transfer, 35
C. RamReddy, T. Pradeepa, D. Srinivasacharya (2015)
Numerical Solution for Mixed Convection in a Darcy Porous Medium Saturated with a Micropolar Fluid Under Convective Boundary Condition Using Spectral Quasi-Linearization MethodAdvanced Science, Engineering and Medicine, 7
S. Devi, R. Devi (2011)
Soret and Dufour effects on MHD slip flow with thermal radiation over a porous rotating infinite diskCommunications in Nonlinear Science and Numerical Simulation, 16
Mohan Singh, S. Rajvanshi (1983)
Heat Transfer Between Two Parallel Rotating Porous Disks with Different PermeabilityDefence Science Journal, 33
Physics Letters A, 228
H. Attia (1998)
Unsteady MHD flow near a rotating porous disk with uniform suction or injectionFluid Dynamics Research, 23
Y. Kohama (1984)
Study on boundary layer transition of a rotating diskActa Mechanica, 50
K. Maleque, M. Sattar (2005)
The effects of variable properties and hall current on steady MHD laminar convective fluid flow due to a porous rotating diskInternational Journal of Heat and Mass Transfer, 48
C. Wang, L. Watson (1979)
Viscous flow between rotating discs with injection on the porous discZeitschrift für angewandte Mathematik und Physik ZAMP, 30
S. Roberts, J. Shipman (1976)
Computation of the flow between a rotating and a stationary diskJournal of Fluid Mechanics, 73
Entropy, 18
A. Golmankhaneh, D. Baleanu (2015)
New Derivatives on the Fractal Subset of Real-LineEntropy, 18
AbstractA steady incompressible chemically reacting fluid between two disks under the influence of cross-diffusion, Hall and ion-slip effects is studied by assuming the lower disk is rotating and the upper disk is stationary. The system of nonlinear differential equations representing velocity, temperature and concentration is solved numerically using spectral quasi-linearisation method. The effects of chemical reaction, Hall current and ion-slip, Dufour and Soret on velocity, temperature and concentration distributions are studied. The stress, rate of heat and mass transfers are discussed for various parameters and the results are displayed in the tabular form. It is found that increasing Hall parameter decreases the temperature and concentration, and the opposite trend observed when ion-slip parameter increased. The concentration reduces with the enhance of the chemical reaction parameter and Soret number.
Nonlinear Engineering – de Gruyter
Published: Mar 26, 2018
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