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JOURNALS // Prikladnaya Mekhanika i Tekhnicheskaya Fizika
Prikl. Mekh. Tekh. Fiz., 2018, Volume 59, Issue 6, Pages 26–38 (Mi pmtf498)
Numerical study on an unsteady flow of an immiscible micropolar fluid sandwiched between Newtonian fluids through a channel
M. Devakar, A. Raje, Sh. Kumar

This publication is cited in the following articles:
  1. Xinru Yu, Xiaogang Chen, Jifeng Cui, Jiangyong Mu, Yuran Qiao, Zongxian Zhang, “Magnetofluid EOF of a class of non-compressible micropolar fluids in a parallel plate microchannel with a hydrophobic wall at high wall Zeta potential”, Chinese Journal of Physics, 2025  crossref
  2. Amit Kumar Verma, “Numerical investigation of unsteady magnetohydrodynamic flow of a Newtonian fluid with variable viscosity in an inclined channel”, Physics of Fluids, 37:1 (2025)  crossref
  3. Hafiz Shahzad, Zaheer Abbas, Muhammad Yousuf Rafiq, “Rheological impact of nanoparticles in two immiscible fluids through a heated curved pipe with continuous axial pressure gradient”, Z Angew Math Mech, 105:6 (2025)  crossref
  4. Vinay Kumar, Gurpreet Singh Bhatia, Shri Krishna Pandey, Rajesh Kumar Chandrawat, Asha Sunilkumar, “Comparative analysis of entropy generation in $TiO_{2}$ and $CuO$ diesel nanofluids with micropolar dusty flow using modified cubic B-spline method”, Multiscale and Multidiscip. Model. Exp. and Des., 8:9 (2025)  crossref
  5. Himanshu, Gurpreet Singh Bhatia, Rajesh Kumar Chandrawat, “Inclined channel flow of magnetohydrodynamic micropolar dusty fluids under rotation: An RBF‐pseudo‐spectral approach and pumping power computation”, Z Angew Math Mech, 105:10 (2025)  crossref
  6. Rajesh Kumar Chandrawat, Asha SunilKumar, “A study on two-layer immiscible flow of micropolar blood and dusty fluids with suction, injection, and thermal effects”, Multiscale and Multidiscip. Model. Exp. and Des., 8:10 (2025)  crossref
  7. Vinay Kumar, Rajesh Kumar Chandrawat, Gurpreet Singh Bhatia, “Entropy generation in unsteady immiscible flow of -diesel nanofluid and micropolar dusty fluid under magnetic field using the modified cubic B-spline method”, International Journal of Modelling and Simulation, 2025, 1  crossref
  8. Rajesh Kumar Chandrawat, Gurpreet Singh Bhatia, Deepak Kumar, “Fractal patterns in fluid flows: A radial basis pseudospectral analysis of CuO-EG water nano, Saffman dusty, and plain Newtonian fluids in immiscible layers of a horizontal channel”, Computers & Mathematics with Applications, 156 (2024), 167  crossref
  9. Ankit Kumar, Pramod Kumar Yadav, “Heat and mass transfer analysis of non‐miscible couple stress and micropolar fluids flow through a porous saturated channel”, Z Angew Math Mech, 2024  crossref
  10. Triveni Shivanna, B. N. Hanumagowda, P. V. Ananth Subray, Koushik V. Prasad, S. V. K. Varma, Taseer Muhammad, R. J. Punith Gowda, “Heat and mass transfer of ternary nanofluid in permeable vertical channel sandwiched between nanofluid zones with Soret and Dufour effects using sensitivity analysis”, Eur. Phys. J. Plus, 139:8 (2024)  crossref
  11. Himanshu, Gurpreet Singh Bhatia, Rajesh Kumar Chandrawat, “Investigation of micropolar dusty fluid flow in a rotational frame with magnetic field: A meshless radial basis function pseudospectral approach”, Z Angew Math Mech, 2024  crossref
  12. Pramod Kumar Yadav, Amit Kumar Verma, “Analysis of two non‐miscible electrically conducting micropolar fluid flow through an inclined porous channel: Influence of magnetic field”, Z Angew Math Mech, 103:1 (2023)  crossref
  13. Punnamchandar Bitla, Fekadu Yemataw Sitotaw, Amer Rasheed, “Hydromagnetic Flow of Two Immiscible Couple Stress Fluids in an Inclined Porous Channel: Effects of Slip Boundary”, Mathematical Problems in Engineering, 2023 (2023), 1  crossref
  14. Ankush Raje, Ashlesha A. Bhise, “Heat transport in a sandwiched set‐up of MHD Newtonian–Casson–Newtonian fluids through a porous medium”, Heat Trans, 52:1 (2023), 122  crossref
  15. Ankit Kumar, Pramod Kumar Yadav, “Heat and mass transfer analysis for MHD non‐miscible micropolar and Newtonian fluid flow in a rectangular porous channel”, Z Angew Math Mech, 103:12 (2023)  crossref
  16. P. K. Yadav, A. C. Verma, “Analysis of the mhd flow of immiscible fluids with variable viscosity in an inclined channel”, J. Appl. Mech. Tech. Phys., 64:4 (2023), 618–627  mathnet  mathnet  crossref  crossref
  17. Anandika Rajeev, S. Manjunatha, V. Puneeth, Muhammad Ijaz Khan, “Analogy of cross-diffusion in sinusoidal channel for the flow of micropolar hybrid nanofluid sandwiched between single-phase nanofluid in a three-layer model”, Waves in Random and Complex Media, 2023, 1  crossref
  18. Pramod Kumar Yadav, Amit Kumar Verma, “Analysis of two immiscible Newtonian and micropolar fluid flow through an inclined porous channel”, Math Methods in App Sciences, 45:3 (2022), 1700  crossref
  19. Rajesh Kumar Chandrawat, Varun Joshi, O. Anwar Bég, “Numerical study of time dependent flow of immiscible Saffman dusty (fluid-particle suspension) and Eringen micropolar fluids in a duct with a modified cubic B-spline Differential Quadrature method”, International Communications in Heat and Mass Transfer, 130 (2022), 105758  crossref
  20. Sneha Gajbhiye, Arundhati Warke, Ramesh Katta, “Role of electromagnetic analysis in radiative immiscible Newtonian and non‐Newtonian fluids through a microchannel with chemical reactions”, Heat Trans, 51:7 (2022), 6937  crossref
  21. Satish Kumar, Satya Deo, A. N. Filippov, “MHD Effects on the Flow of Second-Grade Fluid Sandwiched between Two Newtonian Fluid Layers through Porous Medium”, Colloid J, 84:6 (2022), 794  crossref
  22. A. Zaib, Umair Khan, Zahir Shah, Poom Kumam, Phatiphat Thounthong, “Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate”, Alexandria Engineering Journal, 58:4 (2019), 1461  crossref

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