紫外线消毒活性炭去除微生物污染

A. Semenov, Y. Hmelnitska
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引用次数: 0

摘要

本文旨在探讨利用紫外线辐射或紫外线辐射与臭氧氧化相结合对活性炭“硅碳”中微生物的灭活效果。已经进行了几项实验研究,其中使用紫外线、紫外线辐射组合和臭氧化对“硅碳”进行了消毒,使其免受微生物污染物的污染。实验结果表明,在脉冲氙灯和低压汞臭氧灯下,酵母和霉菌的总量在50 CFU/g ~ 75 CFU/g之间,均可获得满意的结果。建议继续研究粉末材料,包括药物,微生物污染物的含量,以评估其是否符合法规要求。将所提出的方法应用于微生物的灭活,可以获得微生物指示剂含量的安全吸附剂,并且可以成功地用于任何其他领域,使用不同模式的紫外线照射消毒粉末材料。文章结果的独创性提出了一种从霉菌和酵母中为医学治疗目的消毒吸附剂“硅碳”的方法。
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Ultraviolet disinfection of activated carbon from microbiological contamination
This article aims to investigate the effectiveness of the use of ultraviolet radiation or a combination of ultraviolet radiation and ozonation in the inactivation of microorganisms in activated carbon "Silcarbon". Several experimental studies where ultraviolet light, a combination of UV radiation, and ozonation were used have been performed to disinfect "Silcarbon" from microbiological contaminants. Experimental results have shown that with pulsed xenon lamps and low-pressure mercury ozone lamps, satisfactory results can be obtained in which the total amount of yeast and mould fungi range from 50 CFU/g to 75 CFU/g. It is advisable to continue the study of powder materials, including drugs, on the content of microbiological contaminants to assess their compliance with regulatory requirements. The application of the proposed approach to the inactivation of microorganisms allows one to obtain a safe sorbent on the content of microbiological indicators and can be successfully used in any other field to disinfection powder materials using different modes of UV irradiation. The originality of the article's results proposes a method of disinfection of the sorbent "Silcarbon" from moulds and yeasts for therapeutic purposes in medicine.
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来源期刊
Archives of materials science and engineering
Archives of materials science and engineering Materials Science-Materials Science (all)
CiteScore
2.90
自引率
0.00%
发文量
15
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