Research Article
BibTex RIS Cite
Year 2024, Volume: 8 Issue: 1, 106 - 119, 18.07.2024
https://doi.org/10.56554/jtom.1281386

Abstract

References

  • Abdul Majid N. D., Mohd Shariff, A. and Mohamed Loqman, S. (2016). "Ensuring emergency planning & response meet the minimum Process Safety Management (PSM) standards requirements," Journal of Loss Prevention in the Process Industries, Vol. 40, pp. 248-258, DOI: https://doi.org/10.1016/j.jlp.2015.12.018.
  • Abdul Majid N. D., Mohd Shariff, A., and Rusli, R. (2015). "Process Safety Management (PSM) for managing contractors in process plant," Journal of Loss Prevention in the Process Industries, Vol. 37, pp. 82-90, 2015/09/01/, DOI: https://doi.org/10.1016/j.jlp.2015.06.014.
  • Amyotte P. R. (2011). "Are classical process safety concepts relevant to nanotechnology applications," Journal of Physics: Conference Series, Vol. 304, p. 012071, DOI: http:// 10.1088/1742-6596/304/1/012071.
  • Anwar, A., Mawardi, A., and Albert, E.H. (2019). "CSFs for safety programs implementation in Indonesian construction projects", International Journal of Civil Engineering and Technology (IJCIET), Vol. 10. DOI: http://10.13140/RG.2.2.36301.49127. API RP 75, Development of a Safety and Environmental Management Program for Offshore Operations and Facilities, (2004). 3rd Edition.
  • API RP 750, Management of Process Hazard, (1990). 1st Edition. API RP 754, Process Safety Performance Indicators for the Refining and Petrochemical Industries accessed 3.20.17, (2017). Retrieved from API.
  • Aziz H. A, Shariff A. M, Rusli R, and Yew K. H. (2014). "Managing process chemicals, technology and equipment information for pilot plant based on Process Safety Management standard", Process Safety and Environmental Protection, Vol. 92, No. 5, pp. 423-429, 2014/09/01/, DOI: https://doi.org/10.1016/j.psep.2014.02.011.
  • Beale, C. (2000). "Positive and Negative experience with the new COMAH Regime in the Specialty Chemicals industry", Paper presented at the Institution of Chemical Engineers Symposium Series.
  • Belke, J.C. (2001). "Chemical accident risks in U.S. industry - A preliminary analysis of accident risk data from U.S. hazardous chemical facilities", Loss Prevention and Safety Promotion in the Process Industries, pp. 1275-1314. DOI: 10.1016/B978-044450699-3/50041-0.
  • Cassidy, K. (2013). "Safety Cases and the Fine Chemical Industry". IChemE, 115. Canadian Association of Petroleum Producers (CAPP), Process Safety Management, Regulatory Scan, (2014). Center for Chemical Process Safety (CCPS), Risk-Based Process Safety (RBPS), (2007).
  • Cheraghi, S., and Khodadadi-Karimvand, M. (2023) "Developing and Implementation of Leading and Lagging Indicators in Process Safety Management", Researcher, Vol.3, No.1, pp.36-45, https://10.55185/researcher.1286182.
  • ExxonMobil, Learn about the Operations Integrity Management System at ExxonMobil, (2017). Fernández-Muñiz, B., Montes-Peón, J. M., and Vázquez-Ordás, C. J. (2007). "Safety management system: Development and validation of a multidimensional scale", Journal of Loss Prevention in the Process Industries, Vol. 20, No.1, pp. 52-68, 2007/01/01/, DOI: https://doi.org/10.1016/j.jlp.2006.10.002.
  • Guimaraes, A.C.F., and Lapa, C.M.F. (2001), "Fuzzy inference to risk assessment on nuclear engineering systems", Applied Soft Computing, Vol. 7, pp. 17–28. DOI: 10.1016/j.asoc.2005.06.002. Health and Safety Executive (HSE). (2017). "HSE Offshore: Safety Cases".
  • Heidari S. G, Ghasemi. A. (2016). "Petroleum Chemicals Industry Safety Measures", ISBN 978-600-6682-93-8, https://libapp.uok.ac.ir/site/catalogue/216151.
  • Ho, W. (2008). "Integrated analytic hierarchy process and its applications – A literature review", European Journal of Operational Research, Vol.186, No.1, pp.211-228. DOI: https://doi.org/10.1016/j.ejor.2007.01.004.1. Howard, J., Nash, J., & Ehrenfeld, J. (2000). "Standard or Smokescreen? Implementation of a Voluntary Environmental
  • Code. California Management Review", Vol.42, No.2, pp.63-82. DOI: http://10.2307/41166033. IOGP, Operating Management System Framework, (2014).
  • Ismail Z, Harun Z. (2012). "Factors Influencing the implementation of a safety management system for construction sites," safety science, Vol.50, No.3, pp.418–423. DOI:10.1016/j.ssci.2011.10.001.
  • Jablonsky, J., (2007) “Measuring the efficiency of production units by AHP models”, Mathematical and Computer Modelling, Vol.46, No.9/10, pp.1091-1098.
  • Naicker K., Stoker P.W. (2014). “Effective implementation of process safety management”, The Potchefstroom Campus of the North-West University. Khodadadi-Karimvand M, Shirouyehzad H, Hosseinzadeh Lotfi F. (2024), “Proposing a conceptual model of critical success factors in lean production using interpretive structural modeling and fuzzy MICMAC analysis.” Transactions on Fuzzy Sets and Systems; 3(1): 15-28. DOI: http://doi.org/10.30495/TFSS.2023.1999063.1087.
  • Khodadadi-Karimvand, M., & Shirouyehzad, H. (2021). Well drilling fuzzy risk assessment using fuzzy FMEA and fuzzy TOPSIS. Journal of Fuzzy Extension and Applications, Vol.2, No.2, 144-155. DOI: http://10.22105/jfea.2021.275955.1086.
  • Khodadadi-Karimvand, M., & Taherifar, S. (2022). Safety Risk Assessment; Using Fuzzy Failure Mode and Effect Analysis and Fault Tree Analysis. Transactions on Fuzzy Sets and Systems. DOI: https://10.30495/tfss.2022.1954304.1016.
  • Mastan Shaikh. (2015). "Process Safety Management (PSM) Overview and Implementation in KOC North Kuwait Fields," Society of Petroleum Engineers (SPE).
  • Moore, D. A., Hazzan, M.J., Heller, D.M. Rose, M. R., David, A., Moore, M.J.H., David, M. H., and Martin R. R. (2014). “Enterprise PSM Development, Implementation, and Auditing”. AcuTech Consulting Group, 34. DOI: https://10.1002/prs.11690.
  • Norozi M.A., Choobineh A., Narimannejad A. (2013). "Feasibility Study of Implementing Process Safety Management (PSM) Requirements in an Iranian Petrochemical Company". International Journal of Occupational Hygiene, Vol.5, pp. 71-75. Occupational Safety and Health Administration (OSHA), 29 CFR 1910.119., (1990). Process Engineering. In your plant prepared for the change from Control of Industrial Major Accident Hazards (CIMAH) to Control of Major Accident Hazards (COMAH), (2000).
  • Rockart, J.F. (1979), “Chief Executives Define Their Own Data Needs”. Harvard Business Review, Vol. 57, pp.81-93. Schneider R. J. et al. (2004). "An accident waiting to happen: a spatial approach to proactive pedestrian planning," Accident Analysis & Prevention, Vol. 36, No. 2, pp. 193-211, DOI: https://doi.org/10.1016/S0001-4575 (02)00149-5.
  • Şekerci, A. Z. b., & Aydın, N. (2022), “A stochastic model for facility locations using the priority of fuzzy AHP”. Sigma Journal of Engineering and Natural Sciences, 40(3), 649-662. Retrieved from https://dergipark.org.tr/en/pub/sigma/issue/72968/1186373.
  • Shimada, Y., Kitajima, T., & Takeda, K. (2009). “Practical Framework for Process Safety Management based on Plant Lifecycle Engineering”. 3rd International Conference on Integrity, Reliability& Failures, pp. 501-502.
  • Seelaipillayarputhur, K. (2018). "Process safety management in manufacturing industries a review". International Journal of Engineering & Technology, 7(2.14), 540, DOI: https://10.14419/ijet.v7i2.9252. Khodadadi-Karimvand, Sojoudi, Zakeri JTOM(8)1,106-119, 2024 119 Singh, B. (2016). Analytical hierarchical process (AHP) and fuzzy AHP applications-A review paper. International Journal of Pharmacy and Technology, Vol.8, No.4, pp.4925-4946.
  • Siti Milhan, M. N. a. A. F. (2016). Critical Success Factors for Safety Program Implementation among Construction Companies in Malaysia.
  • Teo EAL. (2006). "Developing a model to measure the effectiveness of safety management systems of construction sites," Building and Environ, pp. 1584-1592.
  • Theophilus, S.C., Nwankwo, C.D., Acquah-Andoh, E., Bassey, E., Umoren, U. (2018).” Integrating human factors (HF) into a process safety management system (PSMS)”. Process Safety Progress, Vol. 37, No. 1, pp. 67-85, DOI: https://doi.org/10.1002/prs.11909.
  • Ufner, J., Igleheart. (2017). "EPA Amends Risk Management Program (RMP) Rules for Chemical Facilities". Work Safe, Safety Management Systems for Major Hazard Facilities, (2011).
  • Yew, K. H., Hassan, M. F., Azmi, M. S., Hanida, A., & Sujendran, S. (2014). “Software Systems in Implementation of Process Safety at Chemical Process Industry”, IEEE.
  • Zandin, K., (2001), Maynard’s Industrial Engineering Handbook, 5th Edition, MCGRAW-HILL.
  • Zimmermann H.J., (1996), Fuzzy Set Theory and Its Applications, 3rd Edition, Boston: Kluwer Academic Publishers.

Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process

Year 2024, Volume: 8 Issue: 1, 106 - 119, 18.07.2024
https://doi.org/10.56554/jtom.1281386

Abstract

It is essential to identify the critical success factors due to their direct effects on the establishment of safety programs. These factors should also be prioritized to facilitate the establishment of process safety management (PSM) system in process industries. The fuzzy analytic hierarchy process (FAHP) was employed in this study to weight the critical success factors in implementing and executing safety programs for establishing a process safety management system. For this purpose, a few prominent process safety management models were reviewed, and the critical success factors of safety programs establishment were extracted. After that, a questionnaire was developed and distributed among the experts. The fuzzy analytic hierarchy process was then adopted to calculate the weights of factors for prioritization. This study aimed to determine the most effective factors in implementing and improving process safety management systems in process industries. Other factors will be effected in establishing process safety management in subsequent priorities, one after another.

References

  • Abdul Majid N. D., Mohd Shariff, A. and Mohamed Loqman, S. (2016). "Ensuring emergency planning & response meet the minimum Process Safety Management (PSM) standards requirements," Journal of Loss Prevention in the Process Industries, Vol. 40, pp. 248-258, DOI: https://doi.org/10.1016/j.jlp.2015.12.018.
  • Abdul Majid N. D., Mohd Shariff, A., and Rusli, R. (2015). "Process Safety Management (PSM) for managing contractors in process plant," Journal of Loss Prevention in the Process Industries, Vol. 37, pp. 82-90, 2015/09/01/, DOI: https://doi.org/10.1016/j.jlp.2015.06.014.
  • Amyotte P. R. (2011). "Are classical process safety concepts relevant to nanotechnology applications," Journal of Physics: Conference Series, Vol. 304, p. 012071, DOI: http:// 10.1088/1742-6596/304/1/012071.
  • Anwar, A., Mawardi, A., and Albert, E.H. (2019). "CSFs for safety programs implementation in Indonesian construction projects", International Journal of Civil Engineering and Technology (IJCIET), Vol. 10. DOI: http://10.13140/RG.2.2.36301.49127. API RP 75, Development of a Safety and Environmental Management Program for Offshore Operations and Facilities, (2004). 3rd Edition.
  • API RP 750, Management of Process Hazard, (1990). 1st Edition. API RP 754, Process Safety Performance Indicators for the Refining and Petrochemical Industries accessed 3.20.17, (2017). Retrieved from API.
  • Aziz H. A, Shariff A. M, Rusli R, and Yew K. H. (2014). "Managing process chemicals, technology and equipment information for pilot plant based on Process Safety Management standard", Process Safety and Environmental Protection, Vol. 92, No. 5, pp. 423-429, 2014/09/01/, DOI: https://doi.org/10.1016/j.psep.2014.02.011.
  • Beale, C. (2000). "Positive and Negative experience with the new COMAH Regime in the Specialty Chemicals industry", Paper presented at the Institution of Chemical Engineers Symposium Series.
  • Belke, J.C. (2001). "Chemical accident risks in U.S. industry - A preliminary analysis of accident risk data from U.S. hazardous chemical facilities", Loss Prevention and Safety Promotion in the Process Industries, pp. 1275-1314. DOI: 10.1016/B978-044450699-3/50041-0.
  • Cassidy, K. (2013). "Safety Cases and the Fine Chemical Industry". IChemE, 115. Canadian Association of Petroleum Producers (CAPP), Process Safety Management, Regulatory Scan, (2014). Center for Chemical Process Safety (CCPS), Risk-Based Process Safety (RBPS), (2007).
  • Cheraghi, S., and Khodadadi-Karimvand, M. (2023) "Developing and Implementation of Leading and Lagging Indicators in Process Safety Management", Researcher, Vol.3, No.1, pp.36-45, https://10.55185/researcher.1286182.
  • ExxonMobil, Learn about the Operations Integrity Management System at ExxonMobil, (2017). Fernández-Muñiz, B., Montes-Peón, J. M., and Vázquez-Ordás, C. J. (2007). "Safety management system: Development and validation of a multidimensional scale", Journal of Loss Prevention in the Process Industries, Vol. 20, No.1, pp. 52-68, 2007/01/01/, DOI: https://doi.org/10.1016/j.jlp.2006.10.002.
  • Guimaraes, A.C.F., and Lapa, C.M.F. (2001), "Fuzzy inference to risk assessment on nuclear engineering systems", Applied Soft Computing, Vol. 7, pp. 17–28. DOI: 10.1016/j.asoc.2005.06.002. Health and Safety Executive (HSE). (2017). "HSE Offshore: Safety Cases".
  • Heidari S. G, Ghasemi. A. (2016). "Petroleum Chemicals Industry Safety Measures", ISBN 978-600-6682-93-8, https://libapp.uok.ac.ir/site/catalogue/216151.
  • Ho, W. (2008). "Integrated analytic hierarchy process and its applications – A literature review", European Journal of Operational Research, Vol.186, No.1, pp.211-228. DOI: https://doi.org/10.1016/j.ejor.2007.01.004.1. Howard, J., Nash, J., & Ehrenfeld, J. (2000). "Standard or Smokescreen? Implementation of a Voluntary Environmental
  • Code. California Management Review", Vol.42, No.2, pp.63-82. DOI: http://10.2307/41166033. IOGP, Operating Management System Framework, (2014).
  • Ismail Z, Harun Z. (2012). "Factors Influencing the implementation of a safety management system for construction sites," safety science, Vol.50, No.3, pp.418–423. DOI:10.1016/j.ssci.2011.10.001.
  • Jablonsky, J., (2007) “Measuring the efficiency of production units by AHP models”, Mathematical and Computer Modelling, Vol.46, No.9/10, pp.1091-1098.
  • Naicker K., Stoker P.W. (2014). “Effective implementation of process safety management”, The Potchefstroom Campus of the North-West University. Khodadadi-Karimvand M, Shirouyehzad H, Hosseinzadeh Lotfi F. (2024), “Proposing a conceptual model of critical success factors in lean production using interpretive structural modeling and fuzzy MICMAC analysis.” Transactions on Fuzzy Sets and Systems; 3(1): 15-28. DOI: http://doi.org/10.30495/TFSS.2023.1999063.1087.
  • Khodadadi-Karimvand, M., & Shirouyehzad, H. (2021). Well drilling fuzzy risk assessment using fuzzy FMEA and fuzzy TOPSIS. Journal of Fuzzy Extension and Applications, Vol.2, No.2, 144-155. DOI: http://10.22105/jfea.2021.275955.1086.
  • Khodadadi-Karimvand, M., & Taherifar, S. (2022). Safety Risk Assessment; Using Fuzzy Failure Mode and Effect Analysis and Fault Tree Analysis. Transactions on Fuzzy Sets and Systems. DOI: https://10.30495/tfss.2022.1954304.1016.
  • Mastan Shaikh. (2015). "Process Safety Management (PSM) Overview and Implementation in KOC North Kuwait Fields," Society of Petroleum Engineers (SPE).
  • Moore, D. A., Hazzan, M.J., Heller, D.M. Rose, M. R., David, A., Moore, M.J.H., David, M. H., and Martin R. R. (2014). “Enterprise PSM Development, Implementation, and Auditing”. AcuTech Consulting Group, 34. DOI: https://10.1002/prs.11690.
  • Norozi M.A., Choobineh A., Narimannejad A. (2013). "Feasibility Study of Implementing Process Safety Management (PSM) Requirements in an Iranian Petrochemical Company". International Journal of Occupational Hygiene, Vol.5, pp. 71-75. Occupational Safety and Health Administration (OSHA), 29 CFR 1910.119., (1990). Process Engineering. In your plant prepared for the change from Control of Industrial Major Accident Hazards (CIMAH) to Control of Major Accident Hazards (COMAH), (2000).
  • Rockart, J.F. (1979), “Chief Executives Define Their Own Data Needs”. Harvard Business Review, Vol. 57, pp.81-93. Schneider R. J. et al. (2004). "An accident waiting to happen: a spatial approach to proactive pedestrian planning," Accident Analysis & Prevention, Vol. 36, No. 2, pp. 193-211, DOI: https://doi.org/10.1016/S0001-4575 (02)00149-5.
  • Şekerci, A. Z. b., & Aydın, N. (2022), “A stochastic model for facility locations using the priority of fuzzy AHP”. Sigma Journal of Engineering and Natural Sciences, 40(3), 649-662. Retrieved from https://dergipark.org.tr/en/pub/sigma/issue/72968/1186373.
  • Shimada, Y., Kitajima, T., & Takeda, K. (2009). “Practical Framework for Process Safety Management based on Plant Lifecycle Engineering”. 3rd International Conference on Integrity, Reliability& Failures, pp. 501-502.
  • Seelaipillayarputhur, K. (2018). "Process safety management in manufacturing industries a review". International Journal of Engineering & Technology, 7(2.14), 540, DOI: https://10.14419/ijet.v7i2.9252. Khodadadi-Karimvand, Sojoudi, Zakeri JTOM(8)1,106-119, 2024 119 Singh, B. (2016). Analytical hierarchical process (AHP) and fuzzy AHP applications-A review paper. International Journal of Pharmacy and Technology, Vol.8, No.4, pp.4925-4946.
  • Siti Milhan, M. N. a. A. F. (2016). Critical Success Factors for Safety Program Implementation among Construction Companies in Malaysia.
  • Teo EAL. (2006). "Developing a model to measure the effectiveness of safety management systems of construction sites," Building and Environ, pp. 1584-1592.
  • Theophilus, S.C., Nwankwo, C.D., Acquah-Andoh, E., Bassey, E., Umoren, U. (2018).” Integrating human factors (HF) into a process safety management system (PSMS)”. Process Safety Progress, Vol. 37, No. 1, pp. 67-85, DOI: https://doi.org/10.1002/prs.11909.
  • Ufner, J., Igleheart. (2017). "EPA Amends Risk Management Program (RMP) Rules for Chemical Facilities". Work Safe, Safety Management Systems for Major Hazard Facilities, (2011).
  • Yew, K. H., Hassan, M. F., Azmi, M. S., Hanida, A., & Sujendran, S. (2014). “Software Systems in Implementation of Process Safety at Chemical Process Industry”, IEEE.
  • Zandin, K., (2001), Maynard’s Industrial Engineering Handbook, 5th Edition, MCGRAW-HILL.
  • Zimmermann H.J., (1996), Fuzzy Set Theory and Its Applications, 3rd Edition, Boston: Kluwer Academic Publishers.
There are 34 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Mazdak Khodadadi-karimvand 0000-0003-2765-3784

Zahra Sojoudi 0000-0002-1943-391X

Hamidreza Zakeri 0000-0002-3196-537X

Early Pub Date July 18, 2024
Publication Date July 18, 2024
Submission Date April 11, 2023
Acceptance Date December 5, 2023
Published in Issue Year 2024 Volume: 8 Issue: 1

Cite

APA Khodadadi-karimvand, M., Sojoudi, Z., & Zakeri, H. (2024). Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process. Journal of Turkish Operations Management, 8(1), 106-119. https://doi.org/10.56554/jtom.1281386
AMA Khodadadi-karimvand M, Sojoudi Z, Zakeri H. Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process. JTOM. July 2024;8(1):106-119. doi:10.56554/jtom.1281386
Chicago Khodadadi-karimvand, Mazdak, Zahra Sojoudi, and Hamidreza Zakeri. “Implement a Process Safety Management System Based on the Identification of the Most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process”. Journal of Turkish Operations Management 8, no. 1 (July 2024): 106-19. https://doi.org/10.56554/jtom.1281386.
EndNote Khodadadi-karimvand M, Sojoudi Z, Zakeri H (July 1, 2024) Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process. Journal of Turkish Operations Management 8 1 106–119.
IEEE M. Khodadadi-karimvand, Z. Sojoudi, and H. Zakeri, “Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process”, JTOM, vol. 8, no. 1, pp. 106–119, 2024, doi: 10.56554/jtom.1281386.
ISNAD Khodadadi-karimvand, Mazdak et al. “Implement a Process Safety Management System Based on the Identification of the Most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process”. Journal of Turkish Operations Management 8/1 (July 2024), 106-119. https://doi.org/10.56554/jtom.1281386.
JAMA Khodadadi-karimvand M, Sojoudi Z, Zakeri H. Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process. JTOM. 2024;8:106–119.
MLA Khodadadi-karimvand, Mazdak et al. “Implement a Process Safety Management System Based on the Identification of the Most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process”. Journal of Turkish Operations Management, vol. 8, no. 1, 2024, pp. 106-19, doi:10.56554/jtom.1281386.
Vancouver Khodadadi-karimvand M, Sojoudi Z, Zakeri H. Implement a Process Safety Management System Based on the Identification of the most Critical Factors in the Establishment of Safety Programs, Using Fuzzy Analytic Hierarchy Process. JTOM. 2024;8(1):106-19.

2229319697  logo   logo-minik.png 200311739617396