Organization of quality control of medical oxygen 93% obtained by the technology of short-cycle non-heating adsorption
- Authors: Miroshnichenko Y.V.1, Enikeeva R.A.1, Savvateev V.A.2, Boenko O.E.2
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Affiliations:
- The S.M.Kirov Military Medical Academy of the Ministry of Defense of the Russian Federation
- R&D company «POLYUS»
- Issue: Vol 343, No 9 (2022)
- Pages: 61-67
- Section: Военная фармация и медицинская техника
- URL: https://journals.eco-vector.com/0026-9050/article/view/629846
- DOI: https://doi.org/10.52424/00269050_2022_343_9_61
- ID: 629846
Cite item
Abstract
The purpose of the study is to evaluate the requirements for the quality of medical oxygen 93%, obtained by the technology of short-cycle heatless adsorption, imposed in FS.2.2.0037.22 «Oxygen 93%», and to substantiate ways to improve the organization of its quality control in medical divisions of formations and military medical organizations. Scientific and methodological approaches to the substantiation of controlled quality indicators of this type of medical oxygen are presented. When operating adsorption plants, medical organizations must provide and control the volume fraction of oxygen and regulated impurities, which can be determined by alternative methods. Improving the organization of quality control of medical oxygen 93% in medical organizations consists in several measures, including the completion of adsorption installations with devices for monitoring the most important indicators of the quality of medical oxygen in the «on-line» mode, similar to the implemented technical solution in MUPC-KBA-93.
About the authors
Yu. V. Miroshnichenko
The S.M.Kirov Military Medical Academy of the Ministry of Defense of the Russian Federation
Author for correspondence.
Email: miryv61@gmail.com
заслуженный работник здравоохранения РФ, профессор, полковник медицинской службы запаса
Russian Federation, St. PetersburgR. A. Enikeeva
The S.M.Kirov Military Medical Academy of the Ministry of Defense of the Russian Federation
Email: rimmaspec@mail.ru
кандидат фармацевтических наук, доцент
Russian Federation, St. PetersburgV. A. Savvateev
R&D company «POLYUS»
Email: miryv61@gmail.com
Russian Federation, Voronezh
O. E. Boenko
R&D company «POLYUS»
Email: miryv61@gmail.com
подполковник запаса
Russian Federation, Voronezh