Rakesh
Choudhary

Rakesh graduate (B.Sc. PCM) from University of Maharaja’s Collage, Jaipur in the year 2012. He completed his Masters in Mathematics from Manipal University Jaipur in 2014 with 8.89 CGPA. He has completed his Ph.D. degree in Fluid Dynamics on “ A Study of MHD Boundary Layer Flow and Heat Transfer with or without Entropy Generation” from Manipal University Jaipur in 2018. He has worked as Teaching Assistant in Manipal University Jaipur from August 2014 to December 2017 while doing research work. He has published more than 15 research papers in reputed Scopus indexed journals. He has attended more than 15 reputed international conferences/workshops/short terms courses.

Rakesh's research focuses on various aspects of fluid dynamics which includes MHD, Porous Medium, Heat Transfer, Entropy Generation, Microorganism, Mass transfer, Programming through MATLAB software, to list a few.

1. Temperature jump and concentration slip effects on bioconvection past a vertical porous plate in the existence of nanoparticles and gyrotactic microorganism with inclined MHD, Advances in Nano Research (Scopus, ESCI, SCIE, WoS, Q1) 2021, 11(1) 27-36.

2. Zero Mass Flux Dependent on Radiative Magnetohydrodynamics Carreau Nanofluid Over a Radially Surface with Temperature Jump and Slip Flow: A Hybrid Nanofluid Analysis, Journal of Nanofluids, ESCI, Scopus, Q2, 2021,10 (1), 118-127.

3. Numerical and sensitivity analysis of MHD bioconvective slip flow of nanomaterial with binary chemical reaction and Newtonian heating, Heat Transfer (Wiley), (Scopus, ESCI, WoS, Q2, 2021, 03, https://doi.org/10.1002/htj.22132.

4. Concentration Flux Dependent on Radiative MHD Casson Flow with Arrhenius Activation Energy: HAM with an Evolutionary Algorithm, International Journal of Heat and Technology (Scopus, ESCI, WoS, Q2, 2020, 38(4), 785-793.

5. Entropy Generation Analysis of Radiative Rotating Casson Fluid Flow over a Stretching Surface under Convective Boundary Conditions, Lecture Notes in Mechanical Engineering, Springer (Scopus) 2019,00, 10.1007/978-981-13-1903-7_40.

6. Bioconvection flow and heat transfer over a stretching sheet in the presence of both gyrotactic microorganism and nanoparticle under convective boundary conditions and induced magnetic field, Lecture Notes in Electrical Engineering, Springer (Scopus), 2019, 00. 10.1007/978-981-13-1642-5_57.

7. Second order resistance with homogeneous heterogeneous reactions for casson fluid in stagnation point flow and falkner-skan flow under presence of induced magnetic field, European Journal of Electrical Engineering (Scopus), 2018, 5-6, 659-686.

8. Soret and Dufour Effects on Thermophoretic MHD Flow and Heat Transfer Over a Non-linear Stretching Sheet with Chemical Reaction, International Journal of Applied and Computational Mathematics, Springer (Scopus), 2018, 4 /10.1007/s40819-018-0481-2.

9. Second Law Analysis in MHD Flow and Heat Transfer of Rotating Casson Fluid over a Stretching Surface, Indian Journal of Pure and Applied Physics, Springer (Scopus, Q2), 2018, 56, 53-62.

10. Dufour-Soret and Thermophoretic Effects on MHD Mixed Convection Casson Fluid Flow over a Moving Wedge and Non-uniform Heat Source/Sink, International Journal of Fluid Mechanics Research, Begell House Inc. (ESCI, Scopus), 2018, 45 (01), 1-24.

11. Non-linear MHD flow and heat transfer of nanofluid over a moving and static wedge under temperature jump, Acta Technica, Institute of Thermodynamic, Czech Republic (Scopus), 2018, 63 (02), 1-20.

12. Combined Effects of Suction/Injection on MHD Boundary Layer Flow of Nanofluid Over Horizontal Permeable Cylinder with Radiation, Journal of Advanced Research in Dynamical and Control Systems (Scopus), 2017, 11, 88-98.

13. Soret and Dufour Effects on MHD Fluid Flow due to Moving Permeable Cylinder with Radiation, Global and Stochastic Analysis, (Scopus), 2017, 2017, 75-84.

14. MHD Williamson Fluid Comprising Gyrotactic Microorganisms Flows Through a Permeable Stretching Layer with Variable Fluid Properties, Journal of Nanofluids, ESCI, Scopus, Q2, 2020, 9, 375–387 (2020).