• Title/Summary/Keyword: rupture detection and isolation

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Examination on Autonomous Recovery Algorithm of Piping System (배관 체계 자율 복구 알고리즘 비교, 분석 및 고찰)

  • Yang, Dae Won;Lee, Jeung-hoon;Shin, Yun-Ho
    • Journal of the Korean Society of Safety
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    • v.36 no.4
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    • pp.1-11
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    • 2021
  • Piping systems comprising pumps and valves are essential in the power plant, oil, and defense industry. Their purpose includes a stable supply of the working fluid or ensuring the target system's safe operation. However, piping system accidents due to leakage of toxic substances, explosions, and natural disasters are prevalent In addition, with the limited maintenance personnel, it becomes difficult to detect, isolate, and reconfigure the damage of the piping system and recover the unaffected area. An autonomous recovery piping system can play a vital role under such circumstances. The autonomous recovery algorithms for the piping system can be divided into low-pressure control algorithms, hydraulic resistance control algorithms, and flow inventory control algorithms. All three methods include autonomous opening/closing logic to isolate damaged areas and recovery the unaffected area of piping systems. However, because each algorithm has its strength and weakness, appropriate application considering the overall design, vital components, and operating conditions is crucial. In this regard, preliminary research on algorithm's working principle, its design procedures, and expected damage scenarios should be accomplished. This study examines the characteristics of algorithms, the design procedure, and working logic. Advantages and disadvantages are also analyzed through simulation results for a simplified piping system.

Estimation of Effect Zone for the Establishment of Damage-Minimizing Plan of Chemical Plants (화학공장의 사고피해 최소화 대책수립을 위한 영향범위 평가)

  • Lee, Hern-Chang;Han, Seong-Hwan;Cho, Ji-Hoon;Shin, Dong-Il;Kim, Tae-Ok
    • Journal of the Korean Institute of Gas
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    • v.15 no.2
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    • pp.69-74
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    • 2011
  • As a way to propose a method for the establishment of practical damage-minimizing plan for chemical plants, the release scenario was established by using API-581 BRD and the effect zone was estimated by the KS-RBI program supporting the quantitative cause analysis. And the risk assessment was performed. As a result, we found that to minimize the damage of a chemical plant, it is effective to use four release hole diameters (small, medium, large and rupture) and release time estimated according to the classes of detection and isolation systems. In addition, it can be safely said that through appling the damage areas considering weighted average by failure frequency and worst-case simultaneously, industrial sites can come up with the effective emergency response plan.