现代防毒面具和呼吸器用过滤-吸附材料的研制

M.V. Talipova, A.V. Lyang, N. V. Shcherbak
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摘要

本文重点研究了用于开发小型过滤器和形成防毒面具和呼吸器现代过滤器系列的过滤-吸附材料(FSM)。有多种过滤器,即颗粒过滤器,由过滤材料(FM)组成,具有对气溶胶的保护;气体过滤器,由煤粉组成,可防止各种浓度的危险气体和蒸汽,以及组合过滤器,包括防气溶胶和气体保护。但在工业中,由于企业工作条件的改善,需要个人呼吸保护设备,以防止气溶胶和工作区域空气中低浓度的危险气体和蒸汽。创造一种新的小型过滤器,具有单一的过滤吸收元件,在呼吸过程中对空气流动的阻力很小,这是一项实际任务。为了形成各种各样的防毒面具和呼吸器的现代过滤器,我们研究了以聚合物或喷有碳颗粒的玻璃纤维形式的FSM。基于fsm与吸附剂的使用进行了一系列实验研究,活性炭(AC)和各种吸收剂通过浸渍AC得到。确定了用特殊添加剂浸渍AC可以额外保护免受无机和酸性气体和蒸汽以及氨的侵害。对研究结果进行了分析,并进行了fsm的对比试验。确定了最佳fsm。煤颗粒的分数组成取决于它们的应用方法。测定了所得fsm的吸附性能。在这项工作中,首次对颗粒过滤器中浸渍化学添加剂的AC与过滤材料的组合进行了测试和评价。研究了AC与纤维半成品复合对FSM性能的影响。
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Development of filter-sorbing materials for modern gas masks and respirators
The article focuses on the study of filter-sorbing materials (FSM) for the development of small-sized filters and the formation of a modern filters range for gas masks and respirators. There are various kinds of filters, namely particle filters, consisting of a filter material (FM) with protection from aerosols; gas filters, consisting of coal charge with protection from various concentrations of dangerous gases and vapors and combined filters, including anti-aerosol and gas protection. But in industry, due to the improvement of working conditions at enterprises, personal respiratory protection equipment is needed both from aerosols and from low concentrations of dangerous gases and vapors in the air of the working area. The creation of a new small-sized filter with a single filter-sorbing element with low resistance to air flow during breathing is an actual task. In order to form an assortment of modern filters for gas masks and respirators, we studied FSM in the form of polymer or glass fibers sprayed with carbon particles. An experimental series of studies based on the use of FSMs with adsorbents has been carried out, activated carbon (AC) and various absorbers were obtained by impregnation of AC. It is determined that the impregnation of AC with special additives allows for additional protection from inorganic and acid gases and vapors, from ammonia. Comparative tests of the FSMs were carried out with the analysis of the research results. Optimal FSMs have been determined. The fractional composition of coal particles is determined depending on the method of their application. The sorption properties of the obtained FSMs are determined. In this work, for the first time, the combination of a filter material with AC impregnated with chemical additives in particle filters was tested and evaluated. The effect of a combination of AC and a fibrous semi-finished product on the properties of FSM has been studied.
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