Method of determination of types and parameters of the electric energy storage system during its operation in autonomous power supply system of mobile space launch complex

1Zemlyany, KM, 1Reva, VS, 1Frolov, VP, 2Bezruchko, KV
1Yangel Yuzhnoye State Design Office, Dnipro, Ukraine
2National Aerospace University “Kharkiv Aviation Institute”, Kharkiv, Ukraine
Space Science and Technology 2017, 23 ;(5):25-32
https://doi.org/10.15407/knit2017.05.025
Section: Space Energy, Power and Propulsion
Publication Language: Russian
Abstract: 
We have analyzed the autonomous power supply systems (APSS) of different mobile space launch complexes (MSLC) and defined their main merits and demerits. We show, when analyzing the APSS’s requirements, that the definition of the parameter values of electric energy storage system should be emphasized along with selection of chemical current source (CCS) with characteristics that enable the prelaunch processing in different operation modes. We defined the operating constraints as well as the algorithm of determination of parameter values of electric energy storage system. We describe a mathematical model of autonomous power source and chemical current source, which allows selecting the electric energy storage system and its type.
Keywords: autonomous power supply system, chemical current source, mathematical model, operating constraints, operation sequence diagram, parameter selection algorithm
References: 
1. Bagotsky V. S., Skundin А.М. Chemical current sources, 360 p. (Energoizdat, Moscow, 1981) [in Russian].
2. Biryukov G. P., Kukushkin Yu. F., Torpachev A.V. Introduction to reliability assurance and safety of launch complexes, 264 p.( MAI Press, Moscow,:2002) [in Russian].
3. Kobzar A. I. Applied mathematical statistics, 816 p. (Fizmatlit, Moscow, 2006). [in Russian]
4. Obukhov S. G. Mathematical simulation in power supply systems: tutorial, 84 p. (Tomsk Polytechnic University Press, Tomsk, 2014) [in Russian].
5. Samarsky А. А. Mathematical simulation. Ideas. Methods.Examples, 320 p. (Nauka. Fizmatlit, Moscow, 1997) [in Russian].
6. Smotrov E. А., Akshintsev D. I., Subbotin V.V., Suslenko A. Yu. Storage battery balancing systems. Electrical and computer systems, N 11 (87), 38—48 (2013) [in Russian].