TRIBOLOGICAL ASPECT OF ASSESSMENT OF EFFICIENCY OF FILTRATION USING MULTI-LAYER MATERIALS

Q3 Engineering

Tribologia: Finnish Journal of Tribology Pub Date : 2021-11-30 DOI:10.5604/01.3001.0015.5863

P. Mikołajczak, J. Szuszkiewicz

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引用次数: 0

Abstract

This study presents the results of testing for the efficiency and effectiveness of filtration using multi-layer filter materials, and briefly presents a new technology for manufacturing filter media using these materials. The first part of the article describes the causes of the formation of impurities in operating fluids and the tribological effects of their impact. The second part is dedicated to testing for filtration efficiency and effectiveness for different filter materials. The third part of the article briefly describes the technology for manufacturing filter media using efficient but difficult-to-form materials. The testing results showed significant differences in filtering efficiency and effectiveness between the cellulose samples and the samples of filter materials based on glass microfibre layers. All of the tested multi-layer materials allow filtration effectiveness of over 90% to be achieved over the entire range of impurity sizes included in the experiment. The results of a comparative test for pressure change during filtration also indicate that glass microfibre materials have a considerably longer operating life than cellulose materials. The time after which a sharp increase in pressure occurs (due to the filter layer being filled with impurities) is nearly four times longer for multi-layer materials than for cellulose materials. The methods for cutting, forming, and joining filter materials have been developed by the author of this article and implemented at the EXMOT company.

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多层材料过滤效率的摩擦学评价

本文介绍了多层过滤材料过滤效率和效果的测试结果，并简要介绍了用这些材料制造过滤介质的新技术。文章的第一部分阐述了作业流体中杂质形成的原因及其影响的摩擦学效应。第二部分是测试不同过滤材料的过滤效率和效果。文章的第三部分简要介绍了利用高效但难成型的材料制造滤料的技术。测试结果表明，纤维素样品与基于玻璃微纤维层的过滤材料样品的渗透效率和效果存在显著差异。所有测试的多层材料允许在实验中包含的整个杂质尺寸范围内达到90%以上的过滤效率。过滤过程中压力变化的比较试验结果也表明，玻璃微纤维材料的使用寿命比纤维素材料长得多。对于多层材料，压力急剧增加之后的时间(由于过滤层被杂质填满)几乎是纤维素材料的四倍。切割、成形和连接过滤材料的方法已由本文作者开发并在EXMOT公司实施。

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

Tribologia: Finnish Journal of Tribology Materials Science-Surfaces, Coatings and Films

CiteScore

2.20

自引率

0.00%

发文量