Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives

Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives

This article presents findings of experimental research into suppressing the thermal decomposition of forest fuel (birch leaves, spruce needles, kindling wood and mixed forest fuel) under conditions of exposure water aerosol and single water droplets, as well as water with specialized additives. We...

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Main Authors: Shlegel Nikita, Zhdanova Alena, Kralinova Svetlana, Voytkov Ivan
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201714101017
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spelling doaj-3de6d7c45dd44916ad18d8e83fd7ecc32021-02-02T03:45:56ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011410101710.1051/matecconf/201714101017matecconf_smartgrids2017_01017Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additivesShlegel NikitaZhdanova AlenaKralinova SvetlanaVoytkov IvanThis article presents findings of experimental research into suppressing the thermal decomposition of forest fuel (birch leaves, spruce needles, kindling wood and mixed forest fuel) under conditions of exposure water aerosol and single water droplets, as well as water with specialized additives. We used typical model of fire source with fixed height 0.04 m and varied diameter 0.02-0.1m. Water spraying process, as well as interaction between water and forest fuel was registered using high-speed video camera (recording frequency 6·105 fps) and panoramic optical methods (“Particle Image Velocimetry”, “Shadow Photography”). We established principles of water additions’ influence on termination of combustion and thermal decomposition of fire source model.https://doi.org/10.1051/matecconf/201714101017
collection DOAJ
language English
format Article
sources DOAJ
author Shlegel Nikita
Zhdanova Alena
Kralinova Svetlana
Voytkov Ivan
spellingShingle Shlegel Nikita
Zhdanova Alena
Kralinova Svetlana
Voytkov Ivan
Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
MATEC Web of Conferences
author_facet Shlegel Nikita
Zhdanova Alena
Kralinova Svetlana
Voytkov Ivan
author_sort Shlegel Nikita
title Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
title_short Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
title_full Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
title_fullStr Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
title_full_unstemmed Suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
title_sort suppression of forest fuel thermal decomposition under the influence of liquid aerosol and water droplets with additives
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description This article presents findings of experimental research into suppressing the thermal decomposition of forest fuel (birch leaves, spruce needles, kindling wood and mixed forest fuel) under conditions of exposure water aerosol and single water droplets, as well as water with specialized additives. We used typical model of fire source with fixed height 0.04 m and varied diameter 0.02-0.1m. Water spraying process, as well as interaction between water and forest fuel was registered using high-speed video camera (recording frequency 6·105 fps) and panoramic optical methods (“Particle Image Velocimetry”, “Shadow Photography”). We established principles of water additions’ influence on termination of combustion and thermal decomposition of fire source model.
url https://doi.org/10.1051/matecconf/201714101017
work_keys_str_mv AT shlegelnikita suppressionofforestfuelthermaldecompositionundertheinfluenceofliquidaerosolandwaterdropletswithadditives
AT zhdanovaalena suppressionofforestfuelthermaldecompositionundertheinfluenceofliquidaerosolandwaterdropletswithadditives
AT kralinovasvetlana suppressionofforestfuelthermaldecompositionundertheinfluenceofliquidaerosolandwaterdropletswithadditives
AT voytkovivan suppressionofforestfuelthermaldecompositionundertheinfluenceofliquidaerosolandwaterdropletswithadditives
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