Volume 11 (2021)
Volume 10 (2020)
Volume 9 (2019)
Volume 8 (2018)
Volume 7 (2017)
Volume 6 (2016)
Volume 5 (2015)
Volume 4 (2014)
Volume 3 (2013)
Volume 2 (2012)
Volume 1 (2011)
1. Analysis of chemical reaction and thermophoresis on MHD flow near the accelerated vertical plate in a rotating system with variable temperature

mohammad shareef; mohammad shareef

Volume 10, Issue 2 , Winter and Spring 2021, , Pages 449-460

http://dx.doi.org/10.22061/jcarme.2020.2883.1301

Abstract
  This study analyses the combined effect of chemical reaction and Soret number on MHD flow of a viscous and incompressible fluid near the exponentially accelerated infinite vertical plate in a rotating system. The fluid under consideration is electrically conducting and the medium is porous. A set of ...  Read More

Heat and Mass Transfer
2. Unsteady convective flow for MHD powell-eyring fluid over inclined permeable surface

Amit Parmar; Shalini Jain

Volume 9, Issue 2 , Winter and Spring 2020, , Pages 297-312

http://dx.doi.org/10.22061/jcarme.2019.3423.1388

Abstract
  The current article has investigated unsteady convective flow for MHD non-Newtonian Powell-Eyring fluid embedded porous medium over inclined permeable stretching sheet. We have pondered the thermophoresis parameter, chemical reaction, variable thermal conductivity, Brownian motion, variable heat source ...  Read More

Computational Fluid Dynamics (CFD)
3. Mixed convection on radiative unsteady Casson ferrofluid flow due to cone with Brownian motion and thermophoresis: A numerical study

chakravarthula S K Raju; P DurgaPrasad; S.V.K. Varma

Volume 7, Issue 2 , Winter and Spring 2018, , Pages 137-150

http://dx.doi.org/10.22061/jcarme.2017.1474.1117

Abstract
  In this study, the Brownian motion and thermophoresis effects on the MHD ferrofluid flow over a cone with thermal radiation were discussed. Kerosene with the magnetic nanoparticles (Fe3O4) was considered. A set of transformed governing nonlinear coupled ordinary differential equations were solved numerically ...  Read More