A mathematical investigation is undertaken to explore the implications of multiple slip boundary conditions on the radiative flow of a Williamson fluid through a Riga plate. A modified heat flux model is used instead of the standard Fourier model to more accurately represent thermal transport behavior. Through the application of suitable transformations, the controlling PDEs are simplified to a system of ODEs. The modified equations are resolved to get convergent solutions. The impact of many flow characteristics is meticulously examined and deliberated. An upsurge in the modified Hartmann number amplifies fluid velocity while lessening thermal energy. Moreover, this characteristic enhances surface drag and augments heat and mass transference rates.

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Williamson Fluid Flow Over an Electromagnetic Actuator with Multiple Slip Effects and Chemical Reaction

  • M. Sekhar,
  • P. Muniyappan,
  • S. Eswaramoorthi,
  • K. Loganathan,
  • P. Sakthivel

摘要

A mathematical investigation is undertaken to explore the implications of multiple slip boundary conditions on the radiative flow of a Williamson fluid through a Riga plate. A modified heat flux model is used instead of the standard Fourier model to more accurately represent thermal transport behavior. Through the application of suitable transformations, the controlling PDEs are simplified to a system of ODEs. The modified equations are resolved to get convergent solutions. The impact of many flow characteristics is meticulously examined and deliberated. An upsurge in the modified Hartmann number amplifies fluid velocity while lessening thermal energy. Moreover, this characteristic enhances surface drag and augments heat and mass transference rates.