Forest fire spreading and carbon concentration identification in tropical region Indonesia

Global warming impacted the rise of temperature globally, some of the places a high risk of fire such as land and forest fire. Many efforts to prevent the occurrence of land and forest fire, but some methods are not achieved in optimum results. One of the issues is carbon emitted to the sky is in ge...

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Autores principales: Evizal Abdul Kadir, Sri Listia Rosa, Abdul Syukur, Mahmod Othman, Hanita Daud
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Lenguaje:EN
Publicado: Elsevier 2022
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spelling oai:doaj.org-article:c1857b450de24c9887440694240928902021-11-18T04:45:30ZForest fire spreading and carbon concentration identification in tropical region Indonesia1110-016810.1016/j.aej.2021.06.064https://doaj.org/article/c1857b450de24c9887440694240928902022-02-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S1110016821004191https://doaj.org/toc/1110-0168Global warming impacted the rise of temperature globally, some of the places a high risk of fire such as land and forest fire. Many efforts to prevent the occurrence of land and forest fire, but some methods are not achieved in optimum results. One of the issues is carbon emitted to the sky is in general concentration. The current sensor only detected carbon status and without the detail of the carbon concentration either from the forest fire or any other source that contribute carbon. This research identifies and detects the fog of haze emitted from a forest fire by identifying the carbon concentration. The carbon sensor detects particles flying in the skies and calculates based on number and size to identify if the fog comes from a forest fire or other fire sources. There are many other sources of haze in the skies. It can be from the pollution emitted from vehicles, fire from the garbage or rubbish, or fog emitted from the factory. The size and number of particles detected by the sensor were analyzed to identify the quantity and the size to match the type of particles emitted from the forest fire. Results show that particles from the forest fire are higher and bigger compare to other sources of fires. The fog's intensity less than from other fire sources because of forest fire the material mostly from the trees and leaves getting burn then gives less in quantity.Evizal Abdul KadirSri Listia RosaAbdul SyukurMahmod OthmanHanita DaudElsevierarticleForest fireCarbon dioxideConcentrationTropical regionEngineering (General). Civil engineering (General)TA1-2040ENAlexandria Engineering Journal, Vol 61, Iss 2, Pp 1551-1561 (2022)
institution DOAJ
collection DOAJ
language EN
topic Forest fire
Carbon dioxide
Concentration
Tropical region
Engineering (General). Civil engineering (General)
TA1-2040
spellingShingle Forest fire
Carbon dioxide
Concentration
Tropical region
Engineering (General). Civil engineering (General)
TA1-2040
Evizal Abdul Kadir
Sri Listia Rosa
Abdul Syukur
Mahmod Othman
Hanita Daud
Forest fire spreading and carbon concentration identification in tropical region Indonesia
description Global warming impacted the rise of temperature globally, some of the places a high risk of fire such as land and forest fire. Many efforts to prevent the occurrence of land and forest fire, but some methods are not achieved in optimum results. One of the issues is carbon emitted to the sky is in general concentration. The current sensor only detected carbon status and without the detail of the carbon concentration either from the forest fire or any other source that contribute carbon. This research identifies and detects the fog of haze emitted from a forest fire by identifying the carbon concentration. The carbon sensor detects particles flying in the skies and calculates based on number and size to identify if the fog comes from a forest fire or other fire sources. There are many other sources of haze in the skies. It can be from the pollution emitted from vehicles, fire from the garbage or rubbish, or fog emitted from the factory. The size and number of particles detected by the sensor were analyzed to identify the quantity and the size to match the type of particles emitted from the forest fire. Results show that particles from the forest fire are higher and bigger compare to other sources of fires. The fog's intensity less than from other fire sources because of forest fire the material mostly from the trees and leaves getting burn then gives less in quantity.
format article
author Evizal Abdul Kadir
Sri Listia Rosa
Abdul Syukur
Mahmod Othman
Hanita Daud
author_facet Evizal Abdul Kadir
Sri Listia Rosa
Abdul Syukur
Mahmod Othman
Hanita Daud
author_sort Evizal Abdul Kadir
title Forest fire spreading and carbon concentration identification in tropical region Indonesia
title_short Forest fire spreading and carbon concentration identification in tropical region Indonesia
title_full Forest fire spreading and carbon concentration identification in tropical region Indonesia
title_fullStr Forest fire spreading and carbon concentration identification in tropical region Indonesia
title_full_unstemmed Forest fire spreading and carbon concentration identification in tropical region Indonesia
title_sort forest fire spreading and carbon concentration identification in tropical region indonesia
publisher Elsevier
publishDate 2022
url https://doaj.org/article/c1857b450de24c988744069424092890
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AT srilistiarosa forestfirespreadingandcarbonconcentrationidentificationintropicalregionindonesia
AT abdulsyukur forestfirespreadingandcarbonconcentrationidentificationintropicalregionindonesia
AT mahmodothman forestfirespreadingandcarbonconcentrationidentificationintropicalregionindonesia
AT hanitadaud forestfirespreadingandcarbonconcentrationidentificationintropicalregionindonesia
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