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Programming SnO2 gas Sensor using Arduino microcontroller

Most of the gases are dangerous or bad for human being and environment. Proper attention should be taken while using or transporting these gases. In the present work, these gases will be detected according to the acceptable limits. The Arduino microcontroller attached to a personal computer will be...

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Main Author: Almaroof, Hasan Mudar
Format: Thesis
Language:English
Published: 2018
Online Access:http://psasir.upm.edu.my/id/eprint/69029/1/FSKTM%202018%2056%20IR.pdf
http://psasir.upm.edu.my/id/eprint/69029/
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spelling my.upm.eprints.690292019-06-26T02:49:29Z http://psasir.upm.edu.my/id/eprint/69029/ Programming SnO2 gas Sensor using Arduino microcontroller Almaroof, Hasan Mudar Most of the gases are dangerous or bad for human being and environment. Proper attention should be taken while using or transporting these gases. In the present work, these gases will be detected according to the acceptable limits. The Arduino microcontroller attached to a personal computer will be used to detect several gases such as hydrogen, butane, humidity, etc. The sensitive gas is tin dioxide (SnO2) that is fabricated as a unit called MQ-2, MQ-3, and MQ-135 …etc, or other sensors. As the sensors are exposed to a particular gas, a signal is transmitted to the Arduino microcontroller and attached to the personal computer. This signal is processed and calibrated using C language programming to indicate the concentration of the gas. These sensors are necessary for safety and environmental monitoring of the gases mentioned above such as monitoring butane transportation and household usages. The monitored gas data can be shared with other Internet sites or the cloud that can act as a response to the values of gas concentration by giving sounds or turn lights on or other alarm responses. The alarm sounds, and a fan simultaneously can be operated to remove the excess gas and to reduce its concentration to the acceptable levels. The Arduino microcontroller can be operated without the need of a computer after loading the required program. The operation of the Arduino without a computer greatly reduces the cost of installation of a gas sensor. Transmitting of sensor data can be performed by using programs such as Teamviewer if the microcontroller is attached to a computer. Transmitting data can also be performed without a computer by using ESP8266 that can communicate directly to the Internet. The sensor calibration can be done using a linear fitting or exponential fitting. The use of the exponentials fitting is the ultimate accurate method because of the natural shape behavior of the gas sensing curves. 2018 Thesis NonPeerReviewed text en http://psasir.upm.edu.my/id/eprint/69029/1/FSKTM%202018%2056%20IR.pdf Almaroof, Hasan Mudar (2018) Programming SnO2 gas Sensor using Arduino microcontroller. Masters thesis, Universiti Putra Malaysia.
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Most of the gases are dangerous or bad for human being and environment. Proper attention should be taken while using or transporting these gases. In the present work, these gases will be detected according to the acceptable limits. The Arduino microcontroller attached to a personal computer will be used to detect several gases such as hydrogen, butane, humidity, etc. The sensitive gas is tin dioxide (SnO2) that is fabricated as a unit called MQ-2, MQ-3, and MQ-135 …etc, or other sensors. As the sensors are exposed to a particular gas, a signal is transmitted to the Arduino microcontroller and attached to the personal computer. This signal is processed and calibrated using C language programming to indicate the concentration of the gas. These sensors are necessary for safety and environmental monitoring of the gases mentioned above such as monitoring butane transportation and household usages. The monitored gas data can be shared with other Internet sites or the cloud that can act as a response to the values of gas concentration by giving sounds or turn lights on or other alarm responses. The alarm sounds, and a fan simultaneously can be operated to remove the excess gas and to reduce its concentration to the acceptable levels. The Arduino microcontroller can be operated without the need of a computer after loading the required program. The operation of the Arduino without a computer greatly reduces the cost of installation of a gas sensor. Transmitting of sensor data can be performed by using programs such as Teamviewer if the microcontroller is attached to a computer. Transmitting data can also be performed without a computer by using ESP8266 that can communicate directly to the Internet. The sensor calibration can be done using a linear fitting or exponential fitting. The use of the exponentials fitting is the ultimate accurate method because of the natural shape behavior of the gas sensing curves.
format Thesis
author Almaroof, Hasan Mudar
spellingShingle Almaroof, Hasan Mudar
Programming SnO2 gas Sensor using Arduino microcontroller
author_facet Almaroof, Hasan Mudar
author_sort Almaroof, Hasan Mudar
title Programming SnO2 gas Sensor using Arduino microcontroller
title_short Programming SnO2 gas Sensor using Arduino microcontroller
title_full Programming SnO2 gas Sensor using Arduino microcontroller
title_fullStr Programming SnO2 gas Sensor using Arduino microcontroller
title_full_unstemmed Programming SnO2 gas Sensor using Arduino microcontroller
title_sort programming sno2 gas sensor using arduino microcontroller
publishDate 2018
url http://psasir.upm.edu.my/id/eprint/69029/1/FSKTM%202018%2056%20IR.pdf
http://psasir.upm.edu.my/id/eprint/69029/
_version_ 1643839377691901952
score 13.15806

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