Qualification

• Ph.D. (2022, University of Rajasthan, Jaipur)
• M.Phil. (2014, University of Rajasthan, Jaipur)
• M.Sc. (2010, University of Rajasthan, Jaipur)
• NET-JRF, GATE

Teaching & Research Experience

• Assistant Professor (On Contract under TEQIP-III Project) at Govt. Engineering College Bikaner (Jan-2018 to July 2019)
• Guest Faculty at Rajasthan Technical University Kota (Sept, 2019 to July, 2023)

Research Interests

• Mathematical Modeling
• Nanofluids
• Heat Transfer
• Mass Transfer
• Porous Media

Publications

Journals

1. P. Agrawal, P.K. Dadheech, R.N. Jat, D. Baleanu, and S.D. Purohit, Exploration of casson fluid-flow along exponential heat source in a thermally stratified porous media, Thermal Science, Vol. 27 Special Issue 2 (2023), S29-S38.
2. P.K. Dadheech, P. Agrawal, A. Sharma, K.S. Nisar, S.D. Purohit. Transportation of AL2O3-SIO2-TIO2 modified nanofluid over an exponentially stretching surface with inclined magnetohydrodynamic. Thermal Science, Vol. 25 Special Issue 2 (2021), S279-S285.
3. P.K. Dadheech, P. Agrawal, S.D. Purohit, Devendra Kumar. Study of Flow and Heat Transfer of CuO − Ag / C2H6O2 Hybrid Nanofluid over a Stretching Surface with Porous Media and MHD Effect. Science & Technology Asia, 26(4), (2021),pp. 174-181.
4. P.K. Dadheech, P. Agrawal, A. Sharma, A. Dadheech, Q.A. Mdallal, S.D. Purohit. Entropy analysis for radiative inclined MHD slip flow with heat source in porous medium for two different fluids. Case Studies in Thermal Engineering, 28, (2021), 101491.
5. D. Kumar, S. Sinha, A. Sharma, P. Agrawal, P.K. Dadheech. Numerical study of chemical reaction and heat transfer of MHD slip flow with Joule heating and Soret–Dufour effect over an exponentially stretching sheet. Heat Transfer. (2021), 1- 25. doi:10.1002/htj.22382
6. N. Kumar, R.N. Jat, S. Sinha, P.K. Dadheech, P. Agrawal, S.D. Purohit, K.S. Nisar. Radiation and slip effects on MHD point flow of nanofluid towards a stretching sheet with melting heat transfer, Heat Transfer, (2021), pp. 1-17. Available at: https://doi.org/10.1002/htj.22434
7. P.K. Dadheech, P. Agrawal, A. Sharma, K.S. Nisar, S.D. Purohit. Marangoni convection flow of γ–Al2O3 nanofluids past a porous stretching surface with thermal radiation effect in the presence of an inclined magnetic field. Heat Transfer. (2021) pp. 1- 17. https://doi.org/10.1002/htj.22318
8. P. Agrawal, P.K. Dadheech, R.N. Jat, D. Baleanu, and S.D. Purohit, Radiative MHD hybrid-nanofluids flow over a permeable stretching surface with heat source/sink embedded in porous medium, International Journal of Numerical Methods for Heat & Fluid Flow, (2021) Available at: https://doi.org/10.1108/HFF-11-2020-0694.
9. P.K. Dadheech, P. Agrawal, F. Mebarek-Oudina, N. Abu-Hamdeh, A. Sharma, Comparative heat transfer analysis of MoS2/C2H6O2 and MoS2- SiO2/ C2H6O2 nanofluids with natural convection and inclined magnetic field, Journal of Nanofluids, 2020; 9(3):161–167. https://doi.org/10.1166/jon.2020.1741
10. R. Gupta, M. Gaur, P.K. Dadheech, P. Agrawal. Numerical study of radiative MHD slip flow of Williamson fluid in porous medium over a melting stretching surface. Bulletin Monumental.Vol. 22(11), 2021, pp. 52-75.
11. P. Agrawal, P.K. Dadheech, R.N. Jat, K.S. Nisar, M. Bohra, S.D. Purohit. Magneto Marangoni flow of γ−AL2O3 nanofluids with thermal radiation and heat source/sink effects over a stretching surface embedded in porous medium. Case Studies in Thermal Engineering, 23, (2021), 100802.
12. P. Agrawal, P.K. Dadheech, R.N. Jat, M. Bohra, K.S. Nisar, I. Khan. Lie similarity analysis of MHD flow past a stretching surface embedded in porous medium along with imposed heat source/sink and variable viscosity. Journal of Materials Research and Technology, 9(5) (2020), 10045-10053.
13. R.N. Jat, P. Agrawal, P.K. Dadheech. MHD boundary layer flow and heat transfer of Caisson fluid over a moving porous plate with viscous dissipation and thermal radiation effects. Journal of Rajasthan Academy of Physical Sciences, 16 (No.3&4), 211-232.
14. A. Sharma, A.K. Jha, P.K. Dadheech. Heat Transfer Over A Flat Plate In Porous Medium With Heat Source And Viscous Dissipation In Slip Flow Regime. International Journal of Mathematical Archive 8(1), (2017), 99-108.
15. R. Gupta, M. Gaur, P.K. Dadheech, P. Agrawal. Numerical study of Marangoni convection flow of go-nanofluid with H2O−EG hybrid base fluid with non-linear thermal radiation. Journal of Nanofluids 11 (2), 256-261.

Conferences