Comparison of an industrial- and a laboratory-scale furnace for analysis of hydrocarbon intumescent coating performance

IF 1.9 4区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY

Journal of Fire Sciences Pub Date : 2020-04-13 DOI:10.1177/0734904120902852

Ying Zeng, C. Weinell, K. Dam‐Johansen, L. Ring, S. Kiil

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引用次数: 16

Abstract

Due to increasing demands for fire protection in high-risk environments, such as petrochemical processes and offshore platforms, so-called hydrocarbon intumescent coatings are increasingly used to protect structural steel in the event of a hydrocarbon fire. For these coatings, the fire-resistance performance is typically evaluated in a series of costly experiments with industrial-scale (i.e. 1–10 m3) furnaces, programmed to follow a standard hydrocarbon fire test curve. In this work, we propose a laboratory-scale furnace for coating evaluation, which can simulate the conditions of a typical hydrocarbon fire curve, that is, the standard UL 1709. In a case study with five hydrocarbon intumescent coating formulations, the correlation between the laboratory- and the industrial-scale furnace was investigated and a good agreement was found for the temperature progression of the coated steel plates. The physical and chemical properties of the intumescent coating chars were also similar for the two furnaces. In summary, the low-cost, time-efficient laboratory-scale furnace can provide reliable screening of hydrocarbon intumescent coatings and is recommended as a complementary tool for industrial fire tests.

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用于分析碳氢化合物膨胀涂层性能的工业炉与实验室炉的比较

由于在石化过程和海上平台等高风险环境中对消防的需求不断增加，在发生碳氢化合物火灾时，越来越多地使用所谓的碳氢化合物膨胀型涂料来保护结构钢。对于这些涂层，耐火性能通常在一系列工业规模的昂贵实验中进行评估（即1-10 m3）炉，编程为遵循标准碳氢化合物燃烧测试曲线。在这项工作中，我们提出了一种实验室规模的涂层评估炉，它可以模拟典型的碳氢化合物火灾曲线的条件，即标准UL 1709。在一个使用五种碳氢化合物膨胀型涂料配方的案例研究中，研究了实验室规模的熔炉和工业规模的熔炉之间的相关性，发现涂层钢板的温度变化非常一致。两种炉的膨胀型涂料焦的物理和化学性质也相似。总之，低成本、省时的实验室规模的熔炉可以提供碳氢化合物膨胀型涂层的可靠筛选，并被推荐为工业防火测试的补充工具。

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

Journal of Fire Sciences 工程技术-材料科学：综合

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

2.5 months

期刊介绍： The Journal of Fire Sciences is a leading journal for the reporting of significant fundamental and applied research that brings understanding of fire chemistry and fire physics to fire safety. Its content is aimed toward the prevention and mitigation of the adverse effects of fires involving combustible materials, as well as development of new tools to better address fire safety needs. The Journal of Fire Sciences covers experimental or theoretical studies of fire initiation and growth, flame retardant chemistry, fire physics relative to material behavior, fire containment, fire threat to people and the environment and fire safety engineering. This journal is a member of the Committee on Publication Ethics (COPE).