Development of a layer of protection analysis tool to determine the safety integrity level in process industries

The purpose of this study was to develop a tool to determine the Safety Integrity Levels (SILs) using Layer of Protection Analysis (LOPA) method. Various methods can be used in determining this SIL. However, LOPA has been chosen as the risk-based approach to evaluate the potential consequences and l...

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Main Authors: El-Harbawi, Mohanad, Razali, Zatil Azhani, Syed Mohd Fuzi, Syed Mohd Faiz, Mustapha, Sa'ari
Format: Article
Language:English
Published: Asian Network for Scientific Information 2010
Online Access:http://psasir.upm.edu.my/id/eprint/13990/1/Development%20of%20a%20layer%20of%20protection%20analysis%20tool%20to%20determine%20the%20safety%20integrity%20level%20in%20process%20industries.pdf
http://psasir.upm.edu.my/id/eprint/13990/
https://scialert.net/abstract/?doi=jas.2010.3319.3324
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spelling my.upm.eprints.139902018-09-04T04:31:57Z http://psasir.upm.edu.my/id/eprint/13990/ Development of a layer of protection analysis tool to determine the safety integrity level in process industries El-Harbawi, Mohanad Razali, Zatil Azhani Syed Mohd Fuzi, Syed Mohd Faiz Mustapha, Sa'ari The purpose of this study was to develop a tool to determine the Safety Integrity Levels (SILs) using Layer of Protection Analysis (LOPA) method. Various methods can be used in determining this SIL. However, LOPA has been chosen as the risk-based approach to evaluate the potential consequences and likelihood. Many factors could be considered in order to complete this task. To implement LOPA procedure in the real situation, an industry plant operation had been selected as a case study. The work had been initiated by gathering the information on SIL. Event Tree Analysis (ETA) has been used to develop the scenarios of each initiating events. Then undesirable outcomes of accident scenarios have been calculated. A tool is developed to generate the scenarios or sequence of events that result in undesirable outcomes. Each scenario consists of two elements which are the initiating event that starts the chain of events and a consequence that results if the chain of events continues without interruption. Finally and after developing the scenarios, the identified initiating event frequency and related Independent Protection Layers (IPLs) is generated. There are 25 initiating events that have been listed in order to proceed with LOPA. Asian Network for Scientific Information 2010 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/13990/1/Development%20of%20a%20layer%20of%20protection%20analysis%20tool%20to%20determine%20the%20safety%20integrity%20level%20in%20process%20industries.pdf El-Harbawi, Mohanad and Razali, Zatil Azhani and Syed Mohd Fuzi, Syed Mohd Faiz and Mustapha, Sa'ari (2010) Development of a layer of protection analysis tool to determine the safety integrity level in process industries. Journal of Applied Sciences, 10 (24). pp. 3319-3324. ISSN 1812-5654; ESSN: 1812-5662 https://scialert.net/abstract/?doi=jas.2010.3319.3324 10.3923/jas.2010.3319.3324
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 The purpose of this study was to develop a tool to determine the Safety Integrity Levels (SILs) using Layer of Protection Analysis (LOPA) method. Various methods can be used in determining this SIL. However, LOPA has been chosen as the risk-based approach to evaluate the potential consequences and likelihood. Many factors could be considered in order to complete this task. To implement LOPA procedure in the real situation, an industry plant operation had been selected as a case study. The work had been initiated by gathering the information on SIL. Event Tree Analysis (ETA) has been used to develop the scenarios of each initiating events. Then undesirable outcomes of accident scenarios have been calculated. A tool is developed to generate the scenarios or sequence of events that result in undesirable outcomes. Each scenario consists of two elements which are the initiating event that starts the chain of events and a consequence that results if the chain of events continues without interruption. Finally and after developing the scenarios, the identified initiating event frequency and related Independent Protection Layers (IPLs) is generated. There are 25 initiating events that have been listed in order to proceed with LOPA.
format Article
author El-Harbawi, Mohanad
Razali, Zatil Azhani
Syed Mohd Fuzi, Syed Mohd Faiz
Mustapha, Sa'ari
spellingShingle El-Harbawi, Mohanad
Razali, Zatil Azhani
Syed Mohd Fuzi, Syed Mohd Faiz
Mustapha, Sa'ari
Development of a layer of protection analysis tool to determine the safety integrity level in process industries
author_facet El-Harbawi, Mohanad
Razali, Zatil Azhani
Syed Mohd Fuzi, Syed Mohd Faiz
Mustapha, Sa'ari
author_sort El-Harbawi, Mohanad
title Development of a layer of protection analysis tool to determine the safety integrity level in process industries
title_short Development of a layer of protection analysis tool to determine the safety integrity level in process industries
title_full Development of a layer of protection analysis tool to determine the safety integrity level in process industries
title_fullStr Development of a layer of protection analysis tool to determine the safety integrity level in process industries
title_full_unstemmed Development of a layer of protection analysis tool to determine the safety integrity level in process industries
title_sort development of a layer of protection analysis tool to determine the safety integrity level in process industries
publisher Asian Network for Scientific Information
publishDate 2010
url http://psasir.upm.edu.my/id/eprint/13990/1/Development%20of%20a%20layer%20of%20protection%20analysis%20tool%20to%20determine%20the%20safety%20integrity%20level%20in%20process%20industries.pdf
http://psasir.upm.edu.my/id/eprint/13990/
https://scialert.net/abstract/?doi=jas.2010.3319.3324
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score 13.214268