• Title/Summary/Keyword: deflagration flame arrester

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A Study on the Safety Improvement in Incineration System from the Case Study of Acrylic acid manufacturing process Accident (아크릴산 제조공정 사고사례를 통한 소각 시스템의 안전성 향상 방안)

  • Ma, Byung-Chol;Lee, Keun-Won;Im, Ji-Pyo;Kim, Young-Chul
    • Journal of the Korean Institute of Gas
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    • v.16 no.4
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    • pp.52-58
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    • 2012
  • Recently, waste gas incineration is increasing due to strong environmental regulatory system in Korea. These incinerating facilities are usually connected with the top of the storage tank through pipeline and incinerate off gas with the flame. Therefore, the flame originated from these facilities is likely to move back into pipeline and might cause an explosion of the storage tank. Accordingly, the purpose of this study is to suggest the preventive measures and the way to improve the safety of these incineration systems through the cause analysis of a major industrial accident occurred in a acrylic acid manufacturing process in Korea. As a result of the study, the preventive measures are suggested as follows. (1) Air or inert gas inflow facilities should be well designed to dilute flammable gases into air or inert gas sufficiently before the blower is restarted in order to prevent the explosion (2) It is needed for the detonation-type flame arresters to be installed on the top of the storage tanks. (3) In case of using the deflagration-type flame arresters, it is necessary to install a rupture disk before the arresters, or blow off the flame outside tanks by connecting the tank top and the incinerator with hood-type pipe. (4) TDR should be installed to be restarted automatically after the momentary power failure.

A study of Flame Arrestor's Spring Structural Analysis (폭연방지기 스프링의 구조해석에 관한 연구)

  • Pham, Minh-Ngoc;Kim, Bu-Gi;Kim, Jun-Ho;Choi, Min-Seon;Yang, Chang-Jo
    • Proceedings of KOSOMES biannual meeting
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    • 2017.11a
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    • pp.69-69
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    • 2017
  • Flame arrestor as end of line flame arrester for endurance burning prevents a light-back at deflagration and stabilized burning (during and after endurance burning) of potentially explosive vapor-air and gas-air mixtures at the end of vent pipes. In a flame arrestor, spring is an important part. The spring load as well as the spring's elasticity determine when the hood is opened. In addition, the spring have to work in high temperature condition due to gas burning. Therefore, it is necessary to analyze mechanical load and elasticity of spring when gas is burned. Based on the dynamic calculation on working process of a specific flame arrestor, analysis of spring is taken. A three dimensional model for spring burned in flame arrestor by using CFD simulation. Results of the CFD analysis are input in FEM simulation to analyze structure of the spring. The simulation results can predict and estimate the spring's load and elasticity at variation of the spring's deflection. Moreover, the obtained result can provide makers with references to optimize design of spring as well as flame arrestor.

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