1. Shamshuddin, M.D., G.R. Rajput, W. Jamshed, F. Shahzad, S.O. Salawu, A. Abderrahmane and V.S. Patil, 2022. MHD bioconvection microorganism nanofluid driven by a stretchable plate through porous media with an induced heat source. Waves Random Complex Media, 10.1080/17455030.2022.2126024.
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2. Shamshuddin, M.D., F. Mebarek-Oudina, S.O. Salawu and A. Shafiq, 2022. Thermophoretic movement transport of reactive casson nanofluid on riga plate surface with nonlinear thermal radiation and uneven heat sink/source. J. Nanofluids, 11: 833-844.
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3. Shahzad, F., W. Jamshed, T. Sajid, M.D. Shamshuddin and R. Safdar et al., 2022. Electromagnetic control and dynamics of generalized burgers’ nanoliquid flow containing motile microorganisms with cattaneo-christov relations: Galerkin finite element mechanism. Appl. Sci., Vol. 12. 10.3390/app12178636.
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4. Salawu, S.O., A.M. Obalalu, E.O. Fatunmbi and R.A. Oderinu, 2022. Thermal prandtl-eyring hybridized MoS₂-SiO₂/C₃H₈O₂ and SiO₂-C₃H_{8,/sub>O2 nanofluids for effective solar energy absorber and entropy optimization: A solar water pump implementation. J. Mol. Liq., Vol. 361. 10.1016/j.molliq.2022.119608.
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5. Salawu, S.O., A.M. Obalalu and M.D. Shamshuddin, 2022. Nonlinear solar thermal radiation efficiency and energy optimization for magnetized hybrid prandtl-eyring nanoliquid in aircraft. Arabian J. Sci. Eng., 10.1007/s13369-022-07080-1.
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6. Ram, M.S., K. Spandana, M. Shamshuddin and S.O. Salawu, 2022. Mixed convective heat and mass transfer in magnetized micropolar fluid flow toward stagnation point on a porous stretching sheet with heat source/sink and variable species reaction. Int. J. Modell. Simul., 10.1080/02286203.2022.2112008.
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7. Ram, M.S., K. Shravani, M. Shamshuddin and S.O. Salawu, 2022. Magneto-oldroyd-B fluid flow over an exponentially accelerated vertical porous plate with heat source and reactive agents. Int. J. Modell. Simul., 10.1080/02286203.2022.2111292.
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8. Hassan, A.R., S.O. Salawu, A.B. Disu and O.R. Aderele, 2022. Thermodynamic analysis of a tangent hyperbolic hydromagnetic heat generating fluid in quadratic Boussinesq approximation. J. Comput. Math. Data Sci., Vol. 4. 10.1016/j.jcmds.2022.100058.
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9. Fatunmbi, E.O., A.T. Adeosun and S.O. Salawu, 2021. Irreversibility analysis for eyring-powell nanoliquid flow past magnetized riga device with nonlinear thermal radiation. Fluids, Vol. 6. 10.3390/fluids6110416.
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10. Salawu, S.O., N.K. Oladejo and M.S. Dada, 2019. Analysis of unsteady viscous dissipative poiseuille fluid flow of two-step exothermic chemical reaction through a porous channel with convective cooling. Ain Sham J. Eng. (In Press). 10.1016/j.asej.2018.08.006.
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11. Salawu, S.O., M.S. Dada and O. Adebimpe, 2019. Analysis of pressure-driven heat and mass transfer of hydromagnetic flow past Darcy-Forchheimer porous media using Lie group. J. Eng. Applied Sci., J. Eng. Applied Sci., 14: 4405-4413.
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12. Salawu, S.O., A. Abolarinwa and O.J. Fenuga, 2019. Transient analysis of radiative hydromagnetic poiseuille fluid flow of two-step exothermic chemical reaction through a porous channel with convective cooling. J. Comput. Applied Res. Mech. Eng. 10.22061/jcarme.2019.3986.1473.
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13. Kareem, R.A., S.O. Salawu and Y. Yan, 2019. Analysis of transient Rivlin-Ericksen fluid and irreversibility of exothermic reactive hydromagnetic variable viscosity. J. Applied Comput. Mech. 10.22055/jacm.2019.28216.1460.
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14. Salawu, S.O., O. Adebimpe and A.M. Olarewanju, 2018. Analysis of radiative heat absorption viscoelastic exothermic chemical reactive fluid with temperature dependent viscosity under bimolecular kinetic. Transylvanian Rev., 26: 8339-8346.
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15. Salawu, S.O., H.A. Ogunseye and A.M. Olanrewaju, 2018. Dynamical analysis of unsteady poiseuille flow of two-step exothermic non-Newtonian chemical reactive fluid with variable viscosity. Int. J. Mech. Eng. Technol., 9: 596-605.
16. Salawu, S.O., 2018. Analysis of third-grade heat absorption hydromagnetic exothermic chemical reactive flow in a Darcy-forchheimer porous medium with convective cooling. WSEAS Transac. Math., 17: 280-289.
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17. Salawu, S.O. and S.I. Oke, 2018. Inherent irreversibility of exothermic chemical reactive third-grade poiseuille flow of a variable viscosity with convective cooling. J. Applied Comput. Mech., 4: 167-174.
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18. Salawu, S.O. and M.S. Dada, 2018. Lie group analysis of soret and dufour effects on radiative inclined magnetic pressure-driven flow past a Darcy-forchheimer medium. J. Serbian Soc. Comput. Mech., 12: 108-125.
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19. Salawu, S.O. and A.M. Okedoye, 2018. Thermodynamic second law analysis of hydromagnetic gravity-driven two-step exothermic chemical reactive flow with heat absorption along a channel. Iran. J. Energy Environ., 9: 114-120.
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20. Kareem, R.A., S.O. Salawu and J.A. Gbadeyan, 2018. Numerical analysis of Non-uniform heat source/sink in a radiative micropolar variable electric conductivity fluid with dissipation joule heating. Am. J. Appl. Math., 6: 34-41.
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21. Fenuga, O.J., I.O. Abiala and S.O. Salawu, 2018. Analysis of thermal boundary layer flow over a vertical plate with electrical conductivity and convective surface boundary conditions. Phys. Sci. Int. J., 17: 1-9.
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22. Abolarinwa, A., N. Oladejo and S. Salawu, 2018. On the entropy formulas and solitons for the Ricci-harmonic flow. Bull. Iran. Math. Soc. (In Press). 10.1007/s41980-018-00192-1.
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23. Salawu, S.O. and S.I. Oke, 2017. Inherent irreversibility of exothermic chemical reactive third-grade poiseuille flow of a variable viscosity with convective cooling. J. Applied Comput. Mech., 10.22055/JACM.2017.22933.1144.
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24. Salawu, S.O. and E.O. Fatunmbi, 2017. Inherent irreversibility of hydromagnetic third-grade reactive poiseuille flow of a variable viscosity in porous media with convective cooling. J. Serbian Soc. Comput. Mech., 11: 46-58.
25. Salawu, S.O and E.A. Fatunmbi, 2017. Dissipative heat transfer of micropolar hydromagnetic variable electric conductivity fluid past inclined plate with joule heating and non-uniform heat generation. Asian J. Phys. Chem. Sci., 2: 1-10.
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26. Kareem, R.A and S.O. Salawu, 2017. Variable viscosity and thermal conductivity effect of soret and dufour on inclined magnetic field in non-Darcy permeable medium with dissipation. Br. J. Math. Comput. Sci., 22: 1-12.
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27. Dada, M.S. and S.O. Salawu, 2017. Analysis of heat and mass transfer of an inclined magnetic field pressure-driven flow past a permeable plate. Applic. Applied Math.: Int. J., 12: 189-200.
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28. Baiyeri, J.F., O.A. Esan, T.O. Ogunbayo, O.E. Enobabor and S.O. Salawu, 2017. Analysis of unsteady hydromagnetic natural convective dissipative flow through an inclined plate. Asian J. Phys. Chem. Sci., 2: 1-12.
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29. Salawu, S.O. and M.S. Dada, 2016. Radiative heat transfer of variable viscosity and thermal conductivity effects on inclined magnetic field with dissipation in a non-Darcy medium. J. Niger. Math. Soc., 35: 93-106.
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30. Salawu, S.O and S.A. Amoo, 2016. Magnetohydrodynamics effects on radiative and dissipative heat transfer near a stagnation point with variable viscosity and thermal conductivity. Comput. Inf. Sys. Dev. Inf. Allied Res. J., 7: 51-62.
31. Salawu, S.O and S.A. Amoo, 2016. Effects of variable viscosity and thermal conductivity on dissipative heat and mass transfer of magnetohydrodynamic flow in a porous medium. AIMS Res. J., 2: 111-122.
32. Salawu, S.O and M.S. Dada, 2016. Scaling group analysis of heat and mass transfer of magnetohydrodynamic pressure-driven flow past a permeable plate with inclined magnetic field. J. Niger. Assoc. Math. Phys., 38: 93-104.
33. Baiyeri, J.F., O.A. Esan, S.O. Salawu and I.S. Oke, 2015. Numerical solutions of stiff initial value problems using modified extended backward differentiation formula. Int. Organ. Sci. Res. J. Math., 11: 37-40.
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34. Anthonio, Y.O., S.O. Salawu and S.O. Sogunro, 2014. Dual result of Opial`s inequality. Int. Organ. Sci. Res. J. Math., 10: 1-4.
35. Aderele, O.R., S.O. Salawu and S.O. Sogunro, 2014. The accuracy and convergence of canonical polynomial method for solving first order differential equations. J. Niger. Assoc. Math. Phys., 27: 303-306.
36. Salawu, S.O., R.A. Kareem and O.T. Arowolo, 2013. On the stability and accuracy of some Runge-Kutta methods of solving second order ordinary differential equations. Int. J. Comput. Eng. Res., 3: 30-39.
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37. Nurudeen, T.S., R.A. Kareem and S.O. Salawu, 2013. Investigating waste water treatment in a closed environment. Int. J. Mod. Eng. Res., 3: 2451-2455.
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38. Kareem, R.A., T.S. Nurudeen, S.O. Salawu and A.A. Abdurasid, 2013. Analysis of the effects of infectious disease in a closed population. Int. J. Mod. Eng. Res., 3: 3032-3040.
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39. Kareem, R.A., O.T. Arowolo and S.O. Salawu, 2013. A class of some explicit S-stage of ordered Runge-Kutta methods. J. Niger. Assoc. Math. Phys., 25: 141-146.