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sessileAnatomical structure
thermographyBuilding
Dropwise cooling is a major subject for both academic and industrial researches: the behavior of sessile droplets has been extensively investigated over many decades and a large body of literature is focused on heat-transfer mechanisms. The present work is focused on investigating the thermal transient occurring as two water droplets are gently released (We < 30) onto a heated solid surface: the single-phase-evaporation regime is here considered. Infrared thermography has been employed to experimentally evaluate the temperature trend at the solid-liquid interface: an apparatus has been built to carry out measurements from below, thus realizing a fully non-intrusive approach. As a numerical approach, a computational code has been develope...
A comprehensive model for the prediction of evaporative cooling of solid surfaces induced by the imp...
We numerically and experimentally investigate evaporation of a sessile droplet on a heated substrate...
This study presents the numerical reproduction of the entire surface temperature field resulting fro...
Dropwise cooling is a major subject for both academic and industrial researches: the behavior of ses...
Evaporative cooling represents a key subject for both academia and industry: the behavior of sessile...
A large variety of applications in engineering and physics is based on evaporative cooling of solid ...
Dropwise cooling represents a major subject of interest for both academic and industrial researches....
A wide number of engineering applications is based on evaporative cooling, which is usually performe...
Dropwise cooling is a subject of interest for numerous industrial applications, which fosters fundam...
Numerous engineering applications involve dropwise cooling of hot solid surfaces, which has become a...
In this paper, a numerical code is presented, which simulates the evaporation of water droplets on h...
The present work is focused on measuring the transient contact temperature between a droplet and a h...
In this paper, infrared thermography is used to measure the transient contact temperature between im...
The transient thermal behavior of a single water droplet gently deposited on the surface of a semi-i...
A single droplet is gently deposited on the surface of a semi-infinite body and the evaporative cool...
A comprehensive model for the prediction of evaporative cooling of solid surfaces induced by the imp...
We numerically and experimentally investigate evaporation of a sessile droplet on a heated substrate...
This study presents the numerical reproduction of the entire surface temperature field resulting fro...
Dropwise cooling is a major subject for both academic and industrial researches: the behavior of ses...
Evaporative cooling represents a key subject for both academia and industry: the behavior of sessile...
A large variety of applications in engineering and physics is based on evaporative cooling of solid ...
Dropwise cooling represents a major subject of interest for both academic and industrial researches....
A wide number of engineering applications is based on evaporative cooling, which is usually performe...
Dropwise cooling is a subject of interest for numerous industrial applications, which fosters fundam...
Numerous engineering applications involve dropwise cooling of hot solid surfaces, which has become a...
In this paper, a numerical code is presented, which simulates the evaporation of water droplets on h...
The present work is focused on measuring the transient contact temperature between a droplet and a h...
In this paper, infrared thermography is used to measure the transient contact temperature between im...
The transient thermal behavior of a single water droplet gently deposited on the surface of a semi-i...
A single droplet is gently deposited on the surface of a semi-infinite body and the evaporative cool...
A comprehensive model for the prediction of evaporative cooling of solid surfaces induced by the imp...
We numerically and experimentally investigate evaporation of a sessile droplet on a heated substrate...
This study presents the numerical reproduction of the entire surface temperature field resulting fro...
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