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- Title
Transient electromagnetohydrodynamic radiative squeezing flow between two parallel Riga plates using a spectral local linearization approach.
- Authors
Thumma, Thirupathi; Magagula, Vusi Mpendulo
- Abstract
This article addresses transient electromagnetohydrodynamic radiative squeezing flow due to convectively heated electromagnetic actuator. The transport analysis of heat and mass is explored considering the heat generation/absorption and destructive species homogeneous reaction. Suitable transformations are applied on the mathematical model developed to convert governing partial differential equations to ordinary differential equations (ODEs). Spectral local linearization method (SLLM) is employed on the resultant nonlinear coupled ODEs to compute the numerical results. Influence of sundry physical quantities on heat mass transfer of squeezing flow characteristics are determined using graphs and tabular results. SLLM results exhibit that momentum and temperature improved with rise in squeezing and heat source parameters correspondingly. Momentum enhances at lower plate and detracts with rise in modified Hartmann number. For improved heat source parameter, the rate of heat transfer diminishes and is more significant for higher Prandtl number values. This investigation has relevance in disk style magnetic clutches, rolling elements, food processing, bearings, squeezing film pressure sensors, and flow rheostats.
- Subjects
RADIATIVE flow; ORDINARY differential equations; ROLLING contact; PARTIAL differential equations; DIFFERENTIAL equations; ELECTROMAGNETIC actuators; PRANDTL number
- Publication
Heat Transfer, 2020, Vol 49, Issue 1, p67
- ISSN
2688-4534
- Publication type
Article
- DOI
10.1002/htj.21599