Numerical investigation on pulsating hydromagnetic flow of chemically reactive micropolar nanofluid in a channel with Brownian motion, thermophoresis and Ohmic heating
DOI10.1007/s40819-022-01313-5zbMath1498.76111OpenAlexW4293237153MaRDI QIDQ2149323
Publication date: 28 June 2022
Published in: International Journal of Applied and Computational Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s40819-022-01313-5
Finite difference methods applied to problems in fluid mechanics (76M20) Asymptotic methods, singular perturbations applied to problems in fluid mechanics (76M45) Suspensions (76T20) Magnetohydrodynamics and electrohydrodynamics (76W05) Reaction effects in flows (76V05) Diffusive and convective heat and mass transfer, heat flow (80A19)
Cites Work
- Unnamed Item
- Theory of thermo-microstretch fluids and bubbly liquids
- Pulsatile flow in heated porous channel
- Heat transfer to pulsatile flow in a porous channel
- An efficient approach to study the pulsatile blood flow in femoral and coronary arteries by differential quadrature method
- MHD flow and radiation heat transfer of nanofluids in porous media with variable surface heat flux and chemical reaction
- Pulsating flow of an incompressible micropolar fluid between permeable beds with an inclined uniform magnetic field
- Pulsatile flow and heat transfer of blood in an overlapping vibrating atherosclerotic artery: a numerical study
- Numerical investigation on convective flow of two-phase MHD dusty nanofluids over a wavy surface with Brownian motion and thermophoresis effects
- Attribution of multi-slips and bioconvection for micropolar nanofluids transpiration through porous medium over an extending sheet with PST and PHF conditions
- Pulsating flow of Casson fluid in a porous channel with thermal radiation, chemical reaction and applied magnetic field
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