Abstract
Accidents on transportable pressure equipment happen occasionally and some of them were due to weak supervision on its using and maintenance processes. In order to reduce this kind of accidents, a warning system from regulatory perspective is designed and studied in this paper. The warning system involves several significant processes of the transportable pressure equipment including design, manufacture, using, filling, and maintenance. First, the risks were identified and analyzed in all processes. Second, the index system was established and the weight of each index was calculated by using AHP and entropy methods. Third, the warning level classification and the waning model were illuminated in this study. The warning system would have a certain reference value to the safety management on transportable pressure equipment.
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References
Notice of the state administration of market supervision on the safety of special equipment nationwide in 2018, 04 April 2019. http://www.samr.gov.cn/tzsbj/dtzb/gzdt/201904/t20190404_292592.html
Tschirschwitz R, Krentel D, Kluge M et al (2017) Mobile gas cylinders in fire: consequences in case of failure. Fire Saf J 91:989–996
Ge S, Zhang YL, Xu XD (2004) Measurement and analysis of residue stress conditions in high pressure gas cylinder. In: ICRS-7, Xi’an, pp 322–327
Yue Z, Yu F (2013) Research on materials corrosion failure model of liquefied natural gas (LNG) cylinder for vehicle. In: ICMSE Dalian, pp 690–693
Pal U, Mukhopadhyay G, Bhattacharya S (2017) Failure analysis of an exploded CO2 gas cylinder. Eng Fail Anal 79:455–463
Kingklang S, Daodon W, Uthaisangsuk V (2019) Failure investigation of liquefied petroleum gas cylinder using FAD and XFEM. Int J Pressure Vessels Piping 171:69–78
Song BH, Lee JH, Jo YD et al (2016) Study on the safety management of toxic gas cylinder distribution using RFID. Int J Saf Secur Eng 6(2):209–218
Kim JN, Jeong BY, Park MH (2017) Accident analysis of gas cylinder handling work based on occupational injuries data. Hum Fact Ergon Manufact 27(6):280–288
Liu SJ, Chen ZZ, Huang QH (2018) Construction of monitoring and management platform for intelligent connected special equipment-taking transportable pressure special equipment for example. China Spec Equip Saf 34(8):1–8
Liu X, Rapik Saat M, Barkan CPL (2013) Integrated risk reduction framework to improve railway hazardous materials transportation safety. J Hazard Mater 260:131–140
Ghaleh S, Omidvari M, Nassiri P et al (2019) Pattern of safety risk assessment in road fleet transportation of hazardous materials (oil materials). Saf Sci 116:1–12
Acknowledgements
We would like to thank the National Key R&D Program of China “Research on Key Technologies of Risk Supervision and Management for Typical Transportable Pressure Equipment” (Grant No.2017YFC0805605) for the financial support.
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Yang, Z.R., Chen, Z.Z., Wu, Z.W., Yu, P. (2021). Study on Warning System of Transportable Pressure Equipment from Regulatory Perspective. In: Gelman, L., Martin, N., Malcolm, A.A., (Edmund) Liew, C.K. (eds) Advances in Condition Monitoring and Structural Health Monitoring. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-9199-0_36
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DOI: https://doi.org/10.1007/978-981-15-9199-0_36
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