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Krishna Agrawal
Krishna Agrawal
Research Scholar, Poornima University
Email verificata su poornima.edu.in
Titolo
Citata da
Citata da
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Second law analysis for MHD slip flow for Williamson fluid over a vertical plate with Cattaneo-Christov heat flux
A Dadheech, A Parmar, K Agrawal, Q Al-Mdallal, S Sharma
Case Studies in Thermal Engineering 33, 101931, 2022
422022
Zero Mass Flux Dependent on Radiative Magnetohydrodynamics Carreau Nanofluid Over a Radially Surface with Temperature Jump and Slip Flow: A Hybrid Nanofluid Analysis
A Parmar, R Choudhary, K Agrawal
Journal of Nanofluids 10 (1), 118-127, 2021
12021
The Interplay of Microorganisms and Magnetohydrodynamics: Effects on Williamson Fluid Flow Across Different Boundary Conditions
K Agrawal, RS Baghel, A Parmar
International Journal of Applied and Computational Mathematics 11 (1), 1-32, 2025
2025
Magnetohydrodynamics Williamson Fluid Comprising Gyrotactic Microorganisms Flows Through a Permeable Stretching Layer with Variable Fluid Properties
A Parmar, R Choudhary, K Agarwal
Journal of Nanofluids 9 (4), 375-387, 2020
2020
Magnetic Dipole Impact Involvement on Ferromagnetic Non-Newtonian Radiative MHD Blood Flow, Boundary Conditions Involving Applications, Biotechnology and Medical Sciences
K Agrawal, A Parmar
Critical Reviews™ in Biomedical Engineering, 0
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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