Non-destructive technique for erosion and corrosion monitoring system
Erosion and corrosion of pipeline occurs over time and this data should be given the same care as other data in oil and gas industry. Moreover, most notification systems available send an alert only when the issue is at a late stage. Therefore, the aim of this study is to create a monitoring syste...
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my.upm.eprints.1023212024-03-18T02:51:28Z http://psasir.upm.edu.my/id/eprint/102321/ Non-destructive technique for erosion and corrosion monitoring system Joseph, Jacintha Ishak, Asnor Juraiza Che Soh, Azura Kamar Bashah, Nagur Aziz Mohammed, Abdulrahman Taha Erosion and corrosion of pipeline occurs over time and this data should be given the same care as other data in oil and gas industry. Moreover, most notification systems available send an alert only when the issue is at a late stage. Therefore, the aim of this study is to create a monitoring system that would help in minimizing the impact of erosion and corrosion of pipeline related issues. There are three objectives includes: data separation, online and offline database storage and an email notification system. This study also emphasizes the importance of incorporating a database for evaluation of oil and gas pipeline’s wall thickness data in terms of its health status. As the data obtained is essential, a web application is created to store the data whenever internet is available. Otherwise, it will be stored in a temporary offline database known as MYSQL Workbench, and the data is automatically uploaded once the internet is available. A notification system via internet is developed to notify the executives regarding unhealthy pipeline status. A healthy pipeline wall thickness is between 4.3mm and 4.5mm. Thus, data with lower than 4.3mm is noted as eroded while data greater than 4.5mm is recorded as corroded. The monitoring system designed for online and offline data storage along with email notification performed accordingly. Therefore, the developed system fulfils the objectives and help in mitigating erosion and corrosion of pipelines related issues at an earlier stage in saving lives, maintenance fees and the environment. Scientific Research Archives 2022 Article PeerReviewed Joseph, Jacintha and Ishak, Asnor Juraiza and Che Soh, Azura and Kamar Bashah, Nagur Aziz and Mohammed, Abdulrahman Taha (2022) Non-destructive technique for erosion and corrosion monitoring system. International Journal of Science and Technology Research Archive, 3 (2). 179 - 188. ISSN 0799-6632 https://sciresjournals.com/ijstra/ArchiveIssue-2022-Vol3-Issue2 10.53771/ijstra.2022.3.2.0141 |
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Erosion and corrosion of pipeline occurs over time and this data should be given the same care as other data in oil and
gas industry. Moreover, most notification systems available send an alert only when the issue is at a late stage.
Therefore, the aim of this study is to create a monitoring system that would help in minimizing the impact of erosion
and corrosion of pipeline related issues. There are three objectives includes: data separation, online and offline database storage and an email notification system. This study also emphasizes the importance of incorporating a database for
evaluation of oil and gas pipeline’s wall thickness data in terms of its health status. As the data obtained is essential, a
web application is created to store the data whenever internet is available. Otherwise, it will be stored in a temporary
offline database known as MYSQL Workbench, and the data is automatically uploaded once the internet is available. A
notification system via internet is developed to notify the executives regarding unhealthy pipeline status. A healthy
pipeline wall thickness is between 4.3mm and 4.5mm. Thus, data with lower than 4.3mm is noted as eroded while data
greater than 4.5mm is recorded as corroded. The monitoring system designed for online and offline data storage along
with email notification performed accordingly. Therefore, the developed system fulfils the objectives and help in
mitigating erosion and corrosion of pipelines related issues at an earlier stage in saving lives, maintenance fees and the
environment. |
format |
Article |
author |
Joseph, Jacintha Ishak, Asnor Juraiza Che Soh, Azura Kamar Bashah, Nagur Aziz Mohammed, Abdulrahman Taha |
spellingShingle |
Joseph, Jacintha Ishak, Asnor Juraiza Che Soh, Azura Kamar Bashah, Nagur Aziz Mohammed, Abdulrahman Taha Non-destructive technique for erosion and corrosion monitoring system |
author_facet |
Joseph, Jacintha Ishak, Asnor Juraiza Che Soh, Azura Kamar Bashah, Nagur Aziz Mohammed, Abdulrahman Taha |
author_sort |
Joseph, Jacintha |
title |
Non-destructive technique for erosion and corrosion monitoring system |
title_short |
Non-destructive technique for erosion and corrosion monitoring system |
title_full |
Non-destructive technique for erosion and corrosion monitoring system |
title_fullStr |
Non-destructive technique for erosion and corrosion monitoring system |
title_full_unstemmed |
Non-destructive technique for erosion and corrosion monitoring system |
title_sort |
non-destructive technique for erosion and corrosion monitoring system |
publisher |
Scientific Research Archives |
publishDate |
2022 |
url |
http://psasir.upm.edu.my/id/eprint/102321/ https://sciresjournals.com/ijstra/ArchiveIssue-2022-Vol3-Issue2 |
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1794564338189598720 |