TitleEffect of hall currents on thermal instability of dusty couple stress fluid
Journal titleArchives of Thermodynamics
Keywordscouple-stress fluid ; dust particles ; hall currents ; stationary convection ; oscillatory modes ; magnetic field
Divisions of PASNauki Techniczne
PublisherThe Committee on Thermodynamics and Combustion of the Polish Academy of Sciences
TypeArtykuły / Articles
IdentifierISSN 1231-0956 ; eISSN 2083-6023
ReferencesAggarwalA (2011), Combined effect of magnetic field and rotation on couple - stress fluid heated from below in the presence of suspended particles, Int J Appl Mech Engg, 16, 931. ; StokesV (1966), Couple - stresses in fluids, Phys Fluids, 9, 1709, doi.org/10.1063/1.1761925 ; SharmaR (2001), On electrically conducting couple stress fluid heated from below in porous medium in presence of uniform horizontal magnetic field, Int J Appl Mech Engg, 6, 251. ; SharmaR (2000), On couple stress fluid heated from below in porous medium in hydromagnetics, Czech J Phys, 50, 753, doi.org/10.1023/A:1022886903213 ; AggarwalA (2012), Effect of suspended particles , magnetic field and rotation on the thermal stability of a ferromagnetic fluid, Int J Appl Mech Engg, 17, 1109. ; PostrzednikS (2004), Influence of the heat transfer on the specific thermal capacity of the flowing compressible fluid, Arch Thermodyn, 25, 95. ; WalickiE (1999), Inertia effecting the squeeze film of a couple - stress fluid in biological bearings, Int J Appl Mech Engg, 4, 363. ; RupK (2015), Unsteady natural convection in micropolar nanofluids, Arch Thermodyn, 35, 155, doi.org/10.2478/aoter-2014-0027 ; RathodV (1999), Gravity flow of pulsatile blood through closed rectangular inclined channel with micro - organisms, Math Educ, 33, 40. ; GuptaA (1967), Hall effects on thermal instability, Rev Roum Math Pure Appl, 12, 665. ; SharmaR (2006), Effect of compressibility and suspended particles on thermal convection in a Walters B elastico - viscous fluid in hydromagnetics, Int J Appl Mech Engg, 11, 391. ; ChandraK (1938), Instability of fluid heated from below, Proc Roy Soc London, 164. ; KumarV (2010), On a couple stress fluid heated from below in hydromagnetics, Appl Appl Math Inter J, 5, 1529. ; ScanlonJ (1973), Some effects of suspended particles on the onset of Bénard convection, Phys Fluids, 16, 573. ; Sunil (2004), Effect of suspended particles on couple stress fluid heated and soluted from below in porous medium, J Porous Media, 7, 9, doi.org/10.1615/JPorMedia.v7.i1.20 ; SharmaR (2004), Effect of suspended particles on couple stress fluid heated from below in the presence of rotation and magnetic field Pure, Indian Appl Math, 35, 973. ; SharmaR (1977), Thermal instability in compressible fluids in the presence of rotation and magnetic field, J Math Anal Appl, 60, 227, doi.org/10.1016/0022-247X(77)90061-0 ; GoelA (1999), Hydromagnetic stability of an unbounded couple - stress binary fluid mixture having temperature and concentration gradients with rotation Pure, Indian Appl Math, 30, 991. ; SinghV (2012), Hall effect on thermal instability of compressible couple stress fluid in presence of suspended particles, Int J Math Arch, 3, 1701. ; SharmaR (2001), On couple stress fluid heated from below in porous medium, Indian J Phys, 59.