Structure of the Device and Experimental Research of Verifying the Functionality of Elements of Easy-Dropped Construction

Dmytro Dobriak, Vadym Nizhnyk, Serhii Pozdieiev, Oleksandr Nikulin
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Abstract

This article analyzes the current state of explosion protection in the world. As a result of the analysis, it was determined that the main modern method of explosion protection is the use of easy-dropped construction (hereinafter - EDC ). There are various methods for calculating the required area of the EDC, but to confirm the reliability of the calculations, the selection of the material that performs the function of the EDC, geometrical parameters and excess pressure of operation, it is necessary to conduct experimental research. The existing experimental devices for testing EDC for excess explosion pressure are given. The designs and drawbacks of these devices are considered. The design features of the constructed unit for checking the functionality of elements of easy-dropped construction (hereinafter referred to as the unit) and the main advantages compared to other experimental units are described. A scheme of the device and its structure is given. The required amount of propane-butane was calculated to obtain an excess explosion pressure of 5 kPa. Based on the results of the tests, a graph of the change in the excess pressure of the explosion over time is plotted and the value of the excess pressure of the explosion in a closed volume depending on the concentration of the gas mixture of propane-butane with air, which is formed in the closed volume, and the change in the excess pressure of the explosion after the activation of the EDC were investigated. A graph of the influence of the concentration of the gas-air mixture on the excess pressure acting on the EDC is plotted. The design parameters of the device and its location, the limit values of the excess pressure of the explosion, the minimum amount of gas to create the required excess pressure of the explosion are substantiated. The considered device provides an experimental determination of the values of the overpressure of the operation of EDC of typical sizes and allows conducting experimental research of the operation of the EDC under the influence of various values of the overpressure of the explosion with the required accuracy.
装置结构及易落构件功能验证实验研究
本文分析了国内外防爆技术的发展现状。通过分析,确定了现代主要的防爆方法是采用易落结构(以下简称EDC)。电火花放电所需面积的计算方法多种多样,但为了确认计算的可靠性、执行电火花放电功能的材料的选择、几何参数和工作超压力,有必要进行实验研究。给出了现有的测试EDC超爆炸压力的实验装置。对这些器件的设计和缺陷进行了分析。介绍了易掉落构件功能检验装置(以下简称试验装置)的设计特点及与其他试验装置相比的主要优点。给出了该装置的设计方案和结构。通过计算所需的丙烷-丁烷量,得到5kpa的超爆炸压力。根据试验结果,绘制了爆炸超压随时间的变化曲线图,并研究了封闭体积内形成的丙烷-丁烷与空气混合气体浓度对封闭体积内爆炸超压的影响,以及EDC活化后爆炸超压的变化情况。绘制了气体-空气混合物浓度对作用在EDC上的超压的影响曲线图。确定了装置的设计参数及其位置、爆炸超压的极限值、产生爆炸所需超压的最小气体量。所考虑的装置提供了典型尺寸的EDC运行超压值的实验测定,并允许在各种爆炸超压值的影响下以所需的精度对EDC的运行进行实验研究。
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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