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Faculty
Faculty

Meenakshi Nerolu

Lecturer

  • Mathematics
  • College of Arts & Sciences

Education & Expertise

Education

Applied Mathematics

Ph.D.
Bangalore University, India
2017

Academics

Academics

Calculus I, College Algebra II

Related Articles

Comparison of the effects of three types of time-periodic body force on linear and non-linear stability of convection in nanoliquids

P. G. Siddheshwar and N. Meenakshi, 2019, “Comparison of the effects of three types of time-periodic body force on linear and non-linear stability of convection in nanoliquids”,  European Journal of Mechanics-B/Fluids, 77, pp. 221-229.

Flow and heat transfer in a Newtonian nanoliquid due to a curved stretching sheet

P. G. Siddheshwar, N. Meenakshi and Igor Pazanin, 2017, “Flow and heat transfer in a Newtonian nanoliquid due to a curved stretching sheet”, Zeitschrift für Naturforschung A (ZNA), 72 (9) pp. 833-842.  

A theoretical study of enhanced heat transfer in nanoliquids with volumetric heat source

P. G. Siddheshwar and N. Meenakshi, 2017, “A theoretical study of enhanced heat transfer in nanoliquids with volumetric heat source”, Journal of Applied Mathematics and Computing, doi 10.1007/s12190-017-1129-9, pp. 1-26.

Effects of suction and free stream velocity on hydromagnetic flow and heat transfer in a Newtonian fluid due to a stretching sheet

P. G. Siddheshwar and N. Meenakshi, 2016, “Effects of suction and free stream velocity on hydromagnetic flow and heat transfer in a Newtonian fluid due to a stretching sheet”, ASME Journal of Heat Transfer, 138 (9), pp. 1-4, doi: 10.1115/1.4033460. 

Amplitude equation and heat transport for Rayleigh-Benard convection in Newtonian liquids with nanoparticles

P. G. Siddheshwar and N. Meenakshi, 2015, “Amplitude equation and heat transport for Rayleigh-Benard convection in Newtonian liquids with nanoparticles”, International Journal of Applied and Computational Mathematics (Springer), Vol. 2, pp. 1-22, doi:10.1007/s40819-015-0106-y.

Study of heat transport in Newtonian water-based nanoliquids using single-phase model and Ginzburg-Landau approach

P. G. Siddheshwar, N. Meenakshi, Y. Kakimoto and A. Nakayama, 2016, “Study of heat transport in Newtonian water-based nanoliquids using single-phase model and Ginzburg-Landau approach”, Bangalore, Vignana Bharathi, ISSN No.:0971-6882, 1 (2), pp. 76-92.

Hydromagnetic forced flow of a Newtonian, Electrically conducting fluid due to a curved stretching surface

P. G. Siddheshwar and N. Meenakshi, 2014, “Hydromagnetic forced flow of a Newtonian, Electrically conducting fluid due to a curved stretching surface”, Proceedings of International Conference on Emerging Trends in Computational and Applied Mathematics (ICCAM-2014), ISBN:978-93-81212-7-9, pp. 343-347.