Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium

Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium

This paper investigates the evaporation of a water droplet with a comparably sized solid nontransparent inclusion in a high-temperature (500–800 K) gas medium. Water evaporates from the free surface of the inclusion. During this process, intensive vapor formation occurs on the inner interface “water...

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Main Authors: Dmitrienko Margarita A., Piskunov Maxim V., Strizhak Pavel A., Shcherbinina Anastasia A.
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20152301064
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spelling doaj-60a35d8ba51f4db7bd257c7202e157182021-02-02T01:13:00ZengEDP SciencesMATEC Web of Conferences2261-236X2015-01-01230106410.1051/matecconf/20152301064matecconf_tsotr2015_01064Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous MediumDmitrienko Margarita A.Piskunov Maxim V.Strizhak Pavel A.Shcherbinina Anastasia A.This paper investigates the evaporation of a water droplet with a comparably sized solid nontransparent inclusion in a high-temperature (500–800 K) gas medium. Water evaporates from the free surface of the inclusion. During this process, intensive vapor formation occurs on the inner interface “water droplet – solid inclusion” with the subsequent explosive decay of the droplet. Experiments have been conducted using high-speed (up to 105 fps) video cameras “Phantom” and software “Phantom Camera Control”. The conditions of the explosive vapor formation of the heterogeneous water droplet were found. The typical phase change mechanisms of the heterogeneous water droplet under the conditions of intensive heat exchange were determined.http://dx.doi.org/10.1051/matecconf/20152301064
collection DOAJ
language English
format Article
sources DOAJ
author Dmitrienko Margarita A.
Piskunov Maxim V.
Strizhak Pavel A.
Shcherbinina Anastasia A.
spellingShingle Dmitrienko Margarita A.
Piskunov Maxim V.
Strizhak Pavel A.
Shcherbinina Anastasia A.
Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
MATEC Web of Conferences
author_facet Dmitrienko Margarita A.
Piskunov Maxim V.
Strizhak Pavel A.
Shcherbinina Anastasia A.
author_sort Dmitrienko Margarita A.
title Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
title_short Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
title_full Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
title_fullStr Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
title_full_unstemmed Explosive Breakup of a Water Droplet with a Nontransparent Solid Inclusion Heated in a High-Temperature Gaseous Medium
title_sort explosive breakup of a water droplet with a nontransparent solid inclusion heated in a high-temperature gaseous medium
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2015-01-01
description This paper investigates the evaporation of a water droplet with a comparably sized solid nontransparent inclusion in a high-temperature (500–800 K) gas medium. Water evaporates from the free surface of the inclusion. During this process, intensive vapor formation occurs on the inner interface “water droplet – solid inclusion” with the subsequent explosive decay of the droplet. Experiments have been conducted using high-speed (up to 105 fps) video cameras “Phantom” and software “Phantom Camera Control”. The conditions of the explosive vapor formation of the heterogeneous water droplet were found. The typical phase change mechanisms of the heterogeneous water droplet under the conditions of intensive heat exchange were determined.
url http://dx.doi.org/10.1051/matecconf/20152301064
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AT piskunovmaximv explosivebreakupofawaterdropletwithanontransparentsolidinclusionheatedinahightemperaturegaseousmedium
AT strizhakpavela explosivebreakupofawaterdropletwithanontransparentsolidinclusionheatedinahightemperaturegaseousmedium
AT shcherbininaanastasiaa explosivebreakupofawaterdropletwithanontransparentsolidinclusionheatedinahightemperaturegaseousmedium
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