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ISSN Print: 2394-7500, ISSN Online: 2394-5869, CODEN: IJARPF

IMPACT FACTOR (RJIF): 8.4

International Journal of Applied Research

Vol. 6, Issue 3, Part G (2020)

Capillary rise

Author(s)
Dr. Anshu Anand
Abstract
Results for simulations on single- and two-phase fluids is analysed in this paper. The purpose of these simulations was to better understand the interactions of solid-liquid (wetting) and gas-liquid (surface tension). It will also be important to see how well the LB system would replicate the well-known phenomenon of capillary rise, and the method has therefore been tested in a small capillary pipe on an uprising fluid.
Pages: 499-501  |  133 Views  2 Downloads
How to cite this article:
Dr. Anshu Anand. Capillary rise. Int J Appl Res 2020;6(3):499-501.
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International Journal of Applied Research