Establishing Regularities in the Insulating Capacity of a Foaming Agent for Localizing Flammable Liquids

Chemical Engineering (Engineering) eJournal Pub Date : 2020-10-31 DOI:10.15587/1729-4061.2020.215130

Y. Tsapko, I. Rogovskii, L. Titova, T. Bilko, А. Tsapko, O. Bondarenko, S. Mazurchuk

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引用次数: 17

Abstract

Designing environmentally friendly protective materials for flammable liquids makes it possible to influence the processes of heat resistance and the physical-chemical properties of a protective coating over a certain time until the emergency is eliminated. Therefore, there is a need to study the conditions that form a barrier for thermal conductivity and to define a mechanism for decelerating the transfer of heat to a flammable liquid by using a foaming agent. Given this, a mathematical model has been built for the process of changing the concentration of a foaming agent when used as a coating. Based on the experimental data, it was established that the foaming layer destruction process took place over 618 s until the achieved critical thickness of the foaming layer made the conductivity cease. According to the derived dependences, the concentration value was calculated at which the critical value of the foaming layer thickness is achieved, which leads to the ignition of a flammable liquid, and is about 25 %. It has been proven that the process of decelerating the temperature involves the decomposition of a foaming agent under the influence of the temperature, with heat absorption and foam release, the insulation of heat at the surface of the flammable liquid. Given this, it has become possible to define the conditions for protecting flammable liquids using foaming agents by forming a barrier to thermal conductivity. Experimental studies have confirmed that under the influence of water evaporation and foaming agent diffusion into a layer of the flammable liquid, the critical amount of the foaming agent reached a minimum in 606 s and only then the flammable liquid ignited. Thus, there is reason to argue about the possibility of using foaming agents to protect the leaks of flammable liquids, capable of forming a protective layer at the surface of the material. It also becomes possible to establish methods for assessing the insulating capacity of a foaming agent that could inhibit the rate of temperature penetration and the release of flammable liquids' vapors

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可燃液体局部化发泡剂绝缘性能规律的建立

设计环保的易燃液体防护材料，可以在一定时间内影响防护涂层的耐热性和物理化学性能过程，直到消除紧急情况。因此，有必要研究形成导热屏障的条件，并确定一种机制，通过使用发泡剂来减缓热量向可燃液体的传递。在此基础上，建立了发泡剂作为涂层时浓度变化过程的数学模型。实验数据表明，泡沫层破坏过程持续618s，直至达到泡沫层的临界厚度使导电性能停止。根据推导出的依赖关系，计算了达到导致可燃液体着火的发泡层厚度临界值的浓度值，约为25%。已经证明，温度减速过程涉及发泡剂在温度影响下的分解，具有吸热和泡沫释放，在可燃液体表面隔热。考虑到这一点，就有可能通过形成导热屏障来定义使用发泡剂保护易燃液体的条件。实验研究证实，在水分蒸发和发泡剂向一层可燃液体扩散的影响下，发泡剂的临界量在606s时达到最小，这时可燃液体才会被点燃。因此，有理由争论使用发泡剂来保护易燃液体泄漏的可能性，能够在材料表面形成保护层。还可以建立评估发泡剂绝缘能力的方法，该发泡剂可以抑制温度渗透速率和可燃液体蒸气的释放

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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Chemical Engineering (Engineering) eJournal

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