Publications

  1. Thermocapillary convection in liquid-in-liquid capillary bridges due to a heating/cooling ring, AH Saifi, VM Mundhada, and MK Tripathi, Physics of Fluids, 34, 032112, 2022.

  2. Interaction of two non-coalescing bubbles rising in a non-isothermal self-rewetting fluid, M Balla, MK Tripathi, OK Matar, and KC Sahu, European Journal of Mechanics - B/Fluids, 87, 103-112, 2021.

  3. Simulations of a weakly conducting droplet under the influence of an alternating electric field, KC Sahu, MK Tripathi, J Chaudhari, S Chakraborty, Electrophoresis, 41, 1953-1960, 2020.

  4. Distinct coalescence behaviors of hot and cold drops in the presence of a surrounding viscous liquid, AH Saifi and MK Tripathi, Physics of Fluids, 32, 082101, 2020.

  5. A numerical study of a hollow water droplet falling in air, M Balla, MK Tripathi, and KC Sahu, Theoretical and Computational Fluid Dynamics, 34, 133-144, 2020.

  6. Effect of viscosity and density ratios on two drops rising side-by-side, M Balla, S Kavuri, MK Tripathi, KC Sahu, and R. Govindarajan, Physical Review Fluids, 5, 013601, 2020.

  7. Non-isothermal bubble rise dynamics in a self-rewetting fluid: three-dimensional effects, M Balla, MK Tripathi, KC Sahu, G Karapetsas, and OK Matar, Journal of Fluid Mechanics, 858, 689-713, 2019.

  8. Shape oscillations of a nonspherical water droplet, M Balla, MK Tripathi, and KC Sahu, Physical Review E., 99, 023107, 2019.

  9. Motion of an air bubble under the action of thermocapillary and buoyancy forces, MK Tripathi and KC Sahu, Computers and Fluids, 177, 58-68, 2018.

  10. The dynamics of rising oil-coated bubbles: experiments and simulations, S Wang, Yi Zhang, JC Meredith, SH Behrens, MK Tripathi, and KC Sahu, Soft Matter, 14, 2724-2734, 2018.

  11. Shapes and paths of an air bubble rising in quiescent liquids, DM Sharaf, AR Premlata, MK Tripathi, B Karri, and KC Sahu, Physics of Fluids, 29(12), 12104, 2017.

  12. Two initially spherical bubbles rising in quiescent liquid, MK Tripathi, AR Premlata, KC Sahu, and R Govindarajan, Physical Review Fluids, 2(7), 073601, 2017

  13. Numerical and experimental investigations of an air bubble rising in a Carreau-Yasuda shear-thinning liquid, AR Premlata, MK Tripathi, B Karri, and KC Sahu, Physics of Fluids, 29 (3), 033103, 2017

  14. Nonspherical liquid droplet falling in air, M Agrawal, AR Premlata, MK Tripathi, B Karri, and KC Sahu, Physical Review E., 95, 033111, 2017.

  15. Dynamics of an air bubble rising in a non-Newtonian liquid in the axisymmetric regime, AR Premlata, MK Tripathi, B Karri, and KC Sahu, Journal of Non-Newtonian Fluid Mechanics, 239, 2016

  16. Bubble Motion in a Converging–Diverging Channel, H Konda, MK Tripathi, and KC Sahu, Journal of Fluids Engineering, 138 (6), 064501, 2016

  17. Instability due to double-diffusive phenomenon in pressure-driven displacement flow of one fluid by another in an axisymmetric pipe, KD Bhagat, MK Tripathi, and KC Sahu, European Journal of Mechanics-B/Fluids, 55, 63-70, 2016

  18. Bubble rise dynamics in a viscoplastic material, MK Tripathi, KC Sahu, G Karapetsas, and OK Matar, Journal of Non-Newtonian Fluid Mechanics, 222, 217-226, 2015

  19. Dynamics of rising bubble inside a viscosity-stratified medium, AR Premlata, MK Tripathi, and KC Sahu, Physics of Fluids (1994-present), 27 (7), 072105, 2015

  20. Dynamics of an initially spherical bubble rising in quiescent liquid, MK Tripathi, KC Sahu, and R Govindarajan, Nature communications, 6, 22, 2015

  21. Non-isothermal bubble rise: non-monotonic dependence of surface tension on temperature, MK Tripathi, KC Sahu, G Karapetsas, K Sefiane, and OK Matar, Journal of Fluid Mechanics, 763, 82-108, 2015

  22. Why a falling drop does not in general behave like a rising bubble, MK Tripathi, KC Sahu, and R Govindarajan, Scientific reports, 4, 2014


Refereed Conferences

Evaporating falling drop, MK Tripathi, KC Sahu, Procedia IUTAM 15, 201-206, 2015