STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION

STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION

A fire is a common phenomena in Indonesia (especially in regions with widespread forest like Borneo island and also Sumatera island) and has generated a lot of attention of all local government, national government, and international government but most especially the locals itself. The main impa...

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Main Author: Arya R.B., Dhika
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/71740
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:71740
spelling id-itb.:717402023-02-22T13:57:57ZSTUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION Arya R.B., Dhika Indonesia Final Project Data, Fire, Gradient, Modeling, Module, Regression, Temperature INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/71740 A fire is a common phenomena in Indonesia (especially in regions with widespread forest like Borneo island and also Sumatera island) and has generated a lot of attention of all local government, national government, and international government but most especially the locals itself. The main impact of a fire is the emergence of smokes resulted from the fire happened, it has impact on both the well-being of the citizen and all of the ongoing transportation both from and to the island. The author in this final project will create a small-scale simulation to find out fire’s physical parameter and it’s behaviour on how it will affect it’s surrounding based on system-environment model in thermodynamics using a simple module that is able to detect all those physical parameter from fire including; Carbon dioxide content, Temperature, and Humidity. Although both Carbon dioxide content and Humidity is yet to be used, The author managed to acquire the data on how temperature changes over time once the fire sets out. Analysis that has been done shows that there are gradient from the change of temperature over time, which can ultimately be processed and modeled. The data that is acquired through the experiment, will then be given test to determine the validity of the data as well as to analyze the physical phenomenon using Computational Fluid Dynamics (CFD) software. The outcome of this final project is that a fire can be detected through gradient changes that occur when a fire gets closer to the sensor module, which if modeled will be in accordance with polynomial modeling based on the heat diffusion equation. This final project can then be developed into a dataset that will be able to detect fire based on gradient values that depend on the area of fire which occurs using the concept of deep learning. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description A fire is a common phenomena in Indonesia (especially in regions with widespread forest like Borneo island and also Sumatera island) and has generated a lot of attention of all local government, national government, and international government but most especially the locals itself. The main impact of a fire is the emergence of smokes resulted from the fire happened, it has impact on both the well-being of the citizen and all of the ongoing transportation both from and to the island. The author in this final project will create a small-scale simulation to find out fire’s physical parameter and it’s behaviour on how it will affect it’s surrounding based on system-environment model in thermodynamics using a simple module that is able to detect all those physical parameter from fire including; Carbon dioxide content, Temperature, and Humidity. Although both Carbon dioxide content and Humidity is yet to be used, The author managed to acquire the data on how temperature changes over time once the fire sets out. Analysis that has been done shows that there are gradient from the change of temperature over time, which can ultimately be processed and modeled. The data that is acquired through the experiment, will then be given test to determine the validity of the data as well as to analyze the physical phenomenon using Computational Fluid Dynamics (CFD) software. The outcome of this final project is that a fire can be detected through gradient changes that occur when a fire gets closer to the sensor module, which if modeled will be in accordance with polynomial modeling based on the heat diffusion equation. This final project can then be developed into a dataset that will be able to detect fire based on gradient values that depend on the area of fire which occurs using the concept of deep learning.
format Final Project
author Arya R.B., Dhika
spellingShingle Arya R.B., Dhika
STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
author_facet Arya R.B., Dhika
author_sort Arya R.B., Dhika
title STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
title_short STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
title_full STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
title_fullStr STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
title_full_unstemmed STUDY OF HEAT DISTRIBUTION PHENOMENON WITH A FIRE SOURCE AGAINST DISTANCE AND TIME IN EXPERIMENT AND SIMULATION
title_sort study of heat distribution phenomenon with a fire source against distance and time in experiment and simulation
url https://digilib.itb.ac.id/gdl/view/71740
_version_ 1822992255141543936

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