2020
DOI: 10.1063/5.0020977
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High-speed droplet impingement on dry and wetted substrates

Abstract: High-speed droplet impact is of great interest to power generation and aerospace industries due to the accrued cost of maintenance in steam and gas turbines. The repetitive impacts of liquid droplets onto rotor blades, at high relative velocities, result in blade erosion, which is known as liquid impingement erosion (LIE). Experimental and analytical studies in this field are limited due to the complexity of the droplet impact at such conditions. Hence, numerical analysis is a very powerful and affordable tool… Show more

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Cited by 32 publications
(16 citation statements)
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“…Once the interface normal vectors are computed, the interface curvature can be obtained from n I through (6). The mean curvature calculated is smoothed in the direction normal to the interface recursively for two iterations (i = {0, 1}), following Raeini et al [17], as:…”
Section: Discretisation Of the Interface Curvaturementioning
confidence: 99%
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“…Once the interface normal vectors are computed, the interface curvature can be obtained from n I through (6). The mean curvature calculated is smoothed in the direction normal to the interface recursively for two iterations (i = {0, 1}), following Raeini et al [17], as:…”
Section: Discretisation Of the Interface Curvaturementioning
confidence: 99%
“…In order to assess the effect of the suggested numerical treatments on a moving interface, the set-up presented by Marzbali et al [6] is simulated. A water droplet of radius r = 0.0001 m with impact velocity of u 0 = 500 m/s is investigated.…”
Section: High Velocity Droplet Impact On a Dry Substratementioning
confidence: 99%
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