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Profile Details
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USD 25 /hr
Hire Paritosh P.
India
USD 25 /hr

Freelance Mathematician | 4+Year of Research Experience|7+ Year of Teaching Experience

Profile Summary
Subject Matter Expertise
Services
Writing Technical Writing, Translation
Research Scientific and Technical Research
Work Experience

Assistant Prof

Ganpat University

May 2021 - Present

Department of Mathematics, MUIS, Ganpat University

January 2023 - July 2025

Assistant Prof

Swaminarayan Science College, Vijapur

December 2018 - April 2021

Assisitant Professor

Swaminarayan college of engineering and technology, Saij.

July 2018 - December 2018

Education

Ph.D. (Mathematics )

Ganpat University

January 2023 - Present

Masters of Science

Gujarat University Ahmedabad - India

July 2016 - May 2018

Bachelor of Science

Gujarat University Ahmedabad - India

July 2013 - May 2016

Certifications
Publications
JOURNAL ARTICLE
PARITOSH PRAJAPATI, Dr. Harshad Patel, Dr. Rakesh Darji (2025). Heat Generation and Chemical Reaction Effects on MHD Nanofluid Flow through Porous Medium . Journal For Basic Sciences.
Ahmed, M.A.M., Mohammad, M.E., Khidir, A.A., (2015), On linearization method to MHD boundary layer convective heat transfer with low pressure gradient, Prop. Power. Res, Vol 4, 105-123. Aleem, M., Asjad, M. I., Shaheen, A., and Khan, I. (2020). MHD Influence on different water based nanofluids (TiO2, Al2O3, CuO) in porous medium with chemical reaction and newtonian heating, Chaos, Solitons & Fractals, Vol. 130, http://doi.org/10.1016/j.chaos.2019.109437 Aman, F., Ishak, A., Pop, I., (2013), Magnetohydrodynamic stagnation-point flow to- wards a stretching/shrinking sheet with slip effects, Int.Commun.HeatMass Transf.47 (2013)68–72. Bakar, S.A., Norihan, M.A., Bachok, N., and Ali, F. (2021). Effect of thermal radiation and MHD on hybrid Ag–TiO2/H2O nanofluid past a permeable porous medium with heat generation,Case Studies in Thermal Engineering, Volume 28, https://doi.org/10.1016/j.csite.2021.101681 Bhattacharya, P., et al., 2004, “Evaluation of the Temperature Oscillation Technique to Calculate Thermal Conductivity of Water and Systematic Measurement of the Thermal Conductivity of Aluminum Oxide-Water Nanofluid,” Proceedings of the 2004 ASME International Mechanical Engineering Congress and Exposition, Anaheim, California, November 13–20. Buongiorno, J., and Hu, L.-W., (2005), “Nanofluid Coolants for Advanced Nuclear Power Plants,” Paper No. 5705, Proceedings of ICAPP ’05, Seoul, May 15–19. Choi, S., (1995), “Enhancing Thermal Conductivity of Fluids with Nanoparticles,” in Developments and Applications of Non-Newtonian Flows, D. A.Siginer, and H. P.Wang, eds., ASME, FED-Vol. 231/MD-Vol. 66, pp. 99–105. Choudhury, K., and Ahmed, N. (2018). Soret Effect on Transient MHD Convective Flow past a Semi-infinite Vertical Porous Plate with Heat Sink and Chemical Reaction, Applications and Applied Mathematics, Vol. 13, Issue 2, pp. 839 – 853. Das, S., et al., 2003, “Temperature Dependence of Thermal Conductivity Enhancement for Nanofluids,” J. Heat Transfer 0022-1481, 125, pp. 567–574. Eastman, J., et al., (2001), “Anomalously Increased Effective Thermal Conductivities of Ethylene-Glycol-Based Nanofluids Containing Copper Nanoparticles,” Appl. Phys. Lett. 0003-6951, 78(6), pp. 718–720. Hayat, T., Qayyum, S., Alsaedi, A., Ahmad, B., (2017), Magnetohydrodynamic (MHD) nonlinear convective flow of Walters-B nanofluid over a nonlinear stretching sheet with variable thickness, Int. J. Heat Mass Transfer, (110) 506–514. Kataria, H.R., and Patel, H. R. (2016). Radiation and chemical reaction effects on MHD Casson fluid flow past an oscillating vertical plate embedded in porous medium, Alexandria Engineering Journal , Vol. 55, pp. 583-595. Kataria, H.R., and Patel, H. R. (2018). Effect of thermo-diffusion and parabolic motion on MHD Second grade fluid flow with ramped wall temperature and ramped surface concentration, Alexandria Engineering Journal, Vol. 57, No. 1, pp. 73-85. Mansur, S., Ishak, A., (2016), The megnetohydrodynamic boundary layer flow of a nanofluid past a stretching sheet with slip boundary conditions, J. Appl. Math, Vol 9, 1073-1079. Patel, H., Mittal, A., and Nagar, T. (2022). Fractional order simulation for unsteady MHD nanofluid flow in porous medium with Soret and heat generation effects, Heat Transfer, https://doi.org/10.1002/htj.22707. Rosseland, S. (1931). Astrophysik und atom-theoretische Grundlagen. Berlin: Springer- Verlag, https://doi.org/10.1007/978-3-662-26679-3 Sheikholeslami, M., Seyednezhad, M., (2017), Nanofluid heat transfer in a permeable enclosure in presence of variable magnetic field by means of CVFEM, Int. J. Heat Mass Transfer, (114) (2017)1169–1180 .
Paritosh Prajapati, Harshad R. Patel, Rakesh R. Darji (2025). Study of multiple slip effects on MHD nano-fluid flow over an inclined radiative stretching sheet . Thermal Advances.