### Applied Mathematics

Ph.D.

Bangalore University, India

2017

See all Profiles
## Meenakshi Nerolu

### Lecturer

### Department/Office

### School/College

## Education & Expertise

## Education

### Applied Mathematics

## 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

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

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

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

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

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

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

Faculty

Faculty

- Mathematics

- College of Arts & Sciences

Ph.D.

Bangalore University, India

2017

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.

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.

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.

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.

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.

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.

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.