Assessment of Risk Zones in A Seveso Plant: A Case Study

Modern Environmental Science and Engineering Pub Date : 2018-10-01 DOI:10.15341/MESE(2333-2581)/06.04.2018/006

R. Lauri, M. Ciucci, A. Marino

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Abstract

The assessment of the consequences of industrial accidents takes on a significant interest in the risk analysis of a “Seveso” plant. In fact the estimate of risk zones extent represents a basic element for the characterization of accident scenarios and for the definition of the outcomes to include in the Safety Report, which is mandatory for Seveso plants. In this paper, a case study, referred to a release of a toxic gas liquefied under pressure (anhydrous ammonia), is illustrated. This choice depends on massive ammonia use in several industrial processes. In many cases, when a gas liquefied under pressure is released, aerosol formation is predominant and often causes that all spilled liquid flow forms the gaseous cloud without generating the puddle (two-phase release). Aerosol presence increases vapor mass in the cloud and its density. It follows that gases, which usually should be lighter than air, act as heavy gases. In the paper, effect of toxic release (top event) on human health has been determined by the risk zones extent calculation, which has been performed by a specific software (Effects).

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某Seveso工厂危险区评估:个案研究

工业事故后果的评估对“Seveso”工厂的风险分析具有重大意义。事实上，对危险区范围的估计是描述事故情景和定义安全报告结果的基本要素，这是Seveso核电站的强制性规定。在本文中，一个案例研究，指的是在压力下液化的有毒气体(无水氨)的释放，是说明。这种选择取决于几个工业过程中大量使用氨。在许多情况下，当气体在压力下液化被释放时，气溶胶的形成是主要的，并且通常导致所有溢出的液体流形成气云而不产生水坑(两相释放)。气溶胶的存在增加了云中的水蒸气质量及其密度。由此可见，通常应该比空气轻的气体，却起着重气体的作用。本文通过专门的软件(Effects)计算危险区范围来确定有毒物质释放(顶事件)对人体健康的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Modern Environmental Science and Engineering

CiteScore

0.30

自引率

0.00%

发文量