Time-Dependent Nonlinear Finite Difference Analysis of Buoyancy-Driven Convective Flow over an Oscillating Porous Moving Vertical Cylinder
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy
Link
http://link.springer.com/content/pdf/10.1007/s40010-020-00676-y.pdf
Reference21 articles.
1. Soundalgekar VM (1979) Free convection effect on the flow past an infinite vertical oscillating plate. Astrophys Space Sci 64:65–171
2. Soundalgekar VM, Akolkar SP (1983) Effects of free convection currents and mass transfer on flow past a vertical oscillating plate. Astrophys Space Sci 89:241–254
3. Soundalgekar VM, Lahurikar RM, Pohanerkar SG, Birajdar NS (1995) Mass transfer effects on flow past a vertical oscillating plate with variable temperature. Heat Mass Transf 30:309–312
4. Soundalgekar VM, Patil MR, Takhar HS (1981) MHD flow past a vertical oscillating plate. Nuclear engg design 64:43–48
5. Pathak G, Maheswari CH, Gupta SP (2006) Effect of radiation on unsteady free convection flow bounded by an oscillating plate with variable wall temperature. Int J Appl mech engg 11:371–382
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