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Qualification of the carbon dioxide measurement system to supervise and improve the process of obtaining breathing gas for oxygen hyperbaric conditions

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EN
Abstrakty
EN
Maintaining a stable carbon dioxide content below the established CTQ1 requirements in the process of obtaining breathing gas for hyperbaric oxygen conditions is essential for the safety of underwater work. This article discusses the subject of validation of a selected measuring system for on-line control of the breathing gas production process and describes the application of multidimensional sensory systems to control critical parameters of the production process in production systems intended for intensive use away from supply facilities. In this case, the on-line contamination measurement option should be considered2. Monitoring of the analysed process from the point of view of its ability to minimise its variability should be oriented towards measuring the input or process values in such a way as to prevent the occurrence of potential defects already at the production stage. The assessment of the CCS - Carbon Dioxide Control System3 selected for testing, designed to control the carbon dioxide content, was performed in DUWT PNA4 for the DGKN - 120 complex compressed air supply system5. The system evaluation was conducted using MSA6 procedures and methods of SPC7.
Rocznik
Tom
Strony
7--32
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
  • Department of Underwater Works Technology of the Polish Naval Academy, Gdynia, Poland
Bibliografia
  • 1. Woźniak A. Analysis of the process of obtaining breathing gas for hyperbaric purposes. Gdynia: PTMiTH, 2017. ISBN 978-83-938-322-4-8;
  • 2. —. Analysis of the process of obtaining breathing gas for hyperbaric purposes. Polish Hyperbaric Research. 1, 2018, Vol. 62, pp. 7-32;
  • 3. Sałaciński T. Quality engineering in production techniques. Warszawa : Oficyna wydawnicza Politechniki Warszawskiej, 2016. ISBN 978-83-7814-616-2;
  • 4. Woźniak A. Evaluation of the impact of breathing air contamination on safe performance of hyperbatic exposure. IV. Gdynia : Zeszyty Naukowe AMW, 2016. pp. 101-111. ISSN 0860-889X;
  • 5. Sałaciński T. SPC. Statistical control of production processes. Warszawa : Oficyna Wydawnicza Politechniki Warszawskiej, 2016;
  • 6. Gerber A. Statistical process control - improving quality with the Statistica package. Kraków : Stat Soft, 2000. ISBN 83-912346-2-2;
  • 7. Automotive Industry Action Group. Measurement System Analysis Reference Manual 4th Edition. brak miejsca : Chrysler Group LLC, Ford Motor Company, and General Motors, 2010;
  • 8. NO-07-A005:2010. Diving for military purposes. Breathing mixtures. Classification, requirements and research. Warszawa : WCNJK;
  • 9. Namieśnik J Konieczka P, Zygmunt B, Bulska E. Assessment and quality control of analytical measurement results. I. Warszawa : Wydawnictwo WNT, 2017. ISBN 978-83-01-19444-4;
  • 10. Czarski A. Statistical process control SPC with analysis of MSA measuring systems. Kraków : TQMSoft, 2017. Tom Materiały szkoleniowe;
  • 11. Burdick R.K. Borrow C.M., Montgomery D.C. Design and Analysis of Gauge R&R Studies: Making Decisions with Confidence Intervals in Random and Mixed ANOVA Models. Philadelphia : Society for Industrial and Applied Mathematics, 2005. ISBN 0-89871-588-1;
  • 12. Woźniak A. Concept for medical oxygen and breathing air supply system of KOBBEN type. Gdynia : DMW, 2003;
  • 13. ADivP-04 (A)(1):2013. Diving Gas Quality (STANAG 1458). Brussels : Nato Standarization Office;
  • 14. PN-EN-12021:2014-08. Breathing equipment. Compressed gases for breathing apparatuses.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5d733885-45c6-4629-8345-e34d38a04598
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