Calculations of Basic Geometric Parameters for Mobile Space Environment Simulation Facility “Metamorphosis”

1 Ley, W., Wittmann, K., & Hallmann, W. (2009). Handbook of Space Technology (1st ed.). Chichester: John Wiley & Sons Ltd. Search in Google Scholar

2 NASA. (2017). NASA Systems Engineering Handbook (NASA/SP-2016-6105). Rev 2. USA: Create Space Independent Publishing Platform. Search in Google Scholar

3 Vacuum Science World. (n.d.). Vacuum Technology for Space Simulation Chambers. Available at https://www.vacuumscienceworld.com/blog/space-simulation-chambers Search in Google Scholar

4 Pisacane, V.L. (2005). Fundamentals of Space Systems (2nd ed.), New York: Oxford University Press. Search in Google Scholar

5 Lesker. (n.d.). Vacuum Chamber Technical Notes. Available at https://www.lesker.com/newweb/chambers/technicalnotes.cfm Search in Google Scholar

6 Nuss, H.E. (1987). Space Simulation Facilities and Recent Experience in Satellite Thermal Testing. Germany: Vacuum Pergamon Journals Ltd. Search in Google Scholar

7 Mercer, S. (1968). Cryogenics: A technological Tool for Space Scientist. Cryogenics. DOI: 10.1016/0011-2275(68) 90044-1. Search in Google Scholar

8 Hastings, D., & Garrett, H. (1996). Spacecraft-Environment Interactions (1st ed.). Cambridge: Cambridge University Press. Search in Google Scholar

9 NATO - AGARD. (1964). Space Simulation Chambers and Techniques. (1st ed.). Charlotte: Technical Editing and Reproduction Ltd. Search in Google Scholar

10 Haefer, R.A. (1972). Vacuum and Cryotechniques in Space Research. Elsevier. DOI: 10.1016/0042-207X(72)93789-X. Search in Google Scholar

11 Santeler, D.J., Holkeboer, D.H., Jones, D.W., & Pagano, F. (1966). Vacuum Technology and Space Simulation (1st ed.). Washington D.C: NASA. Search in Google Scholar

12 Harrison, K. (2017). Engineering a Better Vacuum Chamber. Available at http://www.gnbvalves.com/pdf/EngineeringaBetterVacuumChambe.pdf Search in Google Scholar

13 O’Hanlon, J.F. (2003). A User’s Guide to Vacuum Technology (3rd ed.). Unites States of America: John Wiley & Sons Inc. Search in Google Scholar

14 Chambers, A., Fitch, R.K., & Halliday, B.S. (1998). Basic Vacuum Technology (2nd ed.). Bristol: IOP Ltd. Search in Google Scholar

15 Umrath, W. (1998). Fundamentals of Vacuum Technology. Cologne: LEYBOLD. Search in Google Scholar

16 Herring, D. (2017). Vac Aero International Inc. Cold Traps. Available at https://vacaero.com/information-resources/vacaero-training/1225-cold-traps.html Search in Google Scholar

17 Erstvak. (n.d.). Erstvak catalogues. Available at https://erstvak.com/docs/catalogues/erstevak-ustanovki-imitaciikosmicheskogo-prostranstva.pdf Search in Google Scholar

18 Chisabas, R.S.S. (2016). Space simulation chambers state-of-the-art. In 67th International Astronautical Congress (IAC), 26–30 September 2016. Guadalajara, Mexico. Search in Google Scholar

19 Kravchenko, S., Panova, N., & Cēbere, M. (2018). METAMORPHOSIS – The Space Testing Facility from Ventspils. In: Space Research Review: Dedicated to the 25th Anniversary of Ventspils International Radio Astronomy Centre (pp. 98–105), 23–24 August, 2017. Ventspils, Latvia. Search in Google Scholar

20 ISO 16528-1:2007 – Boilers and pressure vessels – Part 1: Performance requirements. Search in Google Scholar

21 ISO 16528-2:2007 – Boilers and pressure vessels – Part 2: Procedures for fulfilling the requirements of ISO 16528-1. Search in Google Scholar