S. Jowkar

TL;DR: In this article, the authors developed a predictive tool based on computational fluid dynamics and machine learning to examine the distribution of sneezing droplets in realistic configurations, and identified an optimal range of temperature, humidity and ventilation rate to maintain human comfort while minimising the transmission of droplets.

TL;DR: The morphology of drop impact on the concave surface was captured and the influence of its asymmetric deformation on extensive suppression of drop bouncing was discussed and the amount of dissipated energy due to drop deformation was obtained based on an energy balance analysis.

TL;DR: In this paper, the performance of electrospray cooling with a hemispherical cap was evaluated for high volumetric flow rates (80 mL/h) stabilized by a novel Hemispherical nozzle.

TL;DR: In this article, the authors presented relative thermal conductivity of a heat pipe based on temperature and length of the heat pipe in optimized geometry, and the numerical simulation of the evaporation and condensation indicated that the relative heat conductivity could improve the heat transfer accuracy of prediction.

TL;DR: In this article, the authors focused on water drop impingement on a mimetic solid semi-cylindrical convex hot surface, with a size equal to the drop, and measured the maximum spreading of the droplet at different surface temperatures and impact Weber numbers.