Sang Young Son scite author profile

Phase change accompanying conversion of a saturated or superheated vapor in presence of subcooled surfaces is one of the most common occurring phenomena in nature. The mode of phase change which follows such a transformation is dependent upon surface properties like as of contact angle and thermodynamic conditions of the system. In present studies, an experimental approach is used to study the physics behind droplet growth on a partially wetting surface. Superheated vapor at low pressures of 4-5 torr was condensed on subcooled silicon surface with static contact angle as of 60° in absence of non-condensable gases, and the condensation process monitored using Environmental Scanning Electron Microscope (ESEM) with submicroscopic spatial resolution. The condensation process was analyzed in the form of size growth of isolated droplets for before a coalescence event ended the regime of single droplet growth. Droplet growth obtained as a function of time reveals that the rate of growth decreases as the droplet increases in size. This behavior is indicative of an overall droplet growth law existing over larger time scales of which the current observations in their brief time intervals could be fitted in. A theoretical model based on kinetic theory further support the experimental observations indicating a mechanism where growth occurs by interfacial mass transport directly on condensing droplet surface. Evidence was also found which establishes the presence of submicroscopic droplets nucleating and growing in between microscopic droplets for partially wetting case.

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Nested and multi-physics modeling of tsunami evolution from generation to inundation

Son

Lynett

Kim

2011

Ocean Modelling

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Fabrication of a microchannel integrated with inner sensors and the analysis of its laminar flow characteristics

Park

Pak

Son

et al. 2003

Sensors and Actuators A: Physical

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Sang Young Son

Observations and modeling of tsunami-induced currents in ports and harbors

Sub-Micrometer Dropwise Condensation under Superheated and Rarefied Vapor Condition

Nested and multi-physics modeling of tsunami evolution from generation to inundation

Fabrication of a microchannel integrated with inner sensors and the analysis of its laminar flow characteristics

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