ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)
Menu

10
Issue
vol 67 / October, 2024
Article

DOI 10.17586/0021-3454-2020-63-6-522-527

UDC 629.7.01

MODELLING ROTATIONS OF SOLAR CELLS ON A SPACE VEHICLE. ADEQUACY CHECK

Овчаренко В. А.
АО "Конструкторское бюро "Арсенал" им. М.В. Фрунзе"; инженер 1 категории


Пилецкий А. В.
ОАО "Машиностроительный завод "Арсенал"; инженер 1 категории


Бурлуцкий С. Г.
Санкт-Петербургский государственный университет аэрокосмического приборостроения, кафедра эксплуатации и управления аэрокосмическими системами;


Read the full article 

Abstract. A mathematical model describing the influence of the main ballistic parameters of an artificial Earth satellite flight on orientation of its solar panels is considered. The model adequacy is checked using a presented test.
Keywords: flight parameters, solar panels, orientation, adequacy

References:
  1. Shilov L.B. Metodika vybora mest ustanovki i prostranstvennoy oriyentatsii vneshnikh ustroystv kosmicheskikh apparatov distantsionnogo zondirovaniya Zemli s uchetom tselevykh razvorotov (The Methodology for Choosing Installation Sites and Spatial Orientation of External Devices of Spacecraft for Remote Sensing of the Earth, Taking into Account Target Turns), Candidate’s thesis, Samara, 2016, 187 р. (in Russ.)
  2. Ovcharenko V.A., Piletskiy A.V. Innovatsionnyy arsenal molodezhi (An innovative arsenal of youth), Proceedings of the Seventh Scientific and Technical Conference of Young Scientists and Specialists of FSUE Arsenal Design Bureau, 2016, рр. 186–188. (in Russ.)
  3. https://drive.google.com/open?id=1Hkx3Kp5Qlr0hQ85nj2TjNn492-7lmNJB.
  4. Ovcharenko V.A., Piletskiy A.V., Burlutskiy S.G. Nauchnaya sessiya GUAP. Chast' 1 Tekhnicheskiye nauki (Scientific Session of SUAI. Part 1 Engineering), Collection of reports, 2017, рр. 144-146. (in Russ.)
  5. Kublanov M.S. Matematicheskoye modelirovaniye. Metodologiya i metody razrabotki matematicheskikh modeley mekhanicheskikh sistem i protsessov. Chast' 1. Modelirovaniye sistem i protsessov (Mathematical Modeling. Methodology and Methods for Developing Mathematical Models of Mechanical Systems and Processes. Part 1. Modeling Systems and Processes), Moscow, 2004, 108 р. (in Russ.)
  6. Kublanov M.S. Nauchnyy Vestnik MGTU GA, seriya Aeromekhanika i prochnost', 2009, no. 138, pp. 101-106. (in Russ.)
  7. Kurenkov V.I. Metody issledovaniya effektivnosti raketno-kosmicheskikh sistem. Metodicheskiye voprosy (Research Methods for the Effectiveness of Space Rocket Systems. Methodological Issues), Samara, 2012, 201 р. (in Russ.)
  8. Kurenkov V.I., Salmin V.V., Abramov B.A. Modelirovaniye tselevogo funktsionirovaniya kosmicheskikh apparatov nablyudeniya s uchetom energobalansa (Modeling the Target Functioning of Space Observation Vehicles Taking into Account the Energy Balance), Samara, 2007, 160 р. (in Russ.)
  9. Ashikhmin V.N., Getman M.B., Keller I.E. et al. Vvedeniye v matematicheskoye modelirovaniye (Introduction to Mathematical Modeling), Moscow, 2015, 440 р. (in Russ.)
  10. Antonov A.V. Sistemnyy analiz (System Analysis), Moscow, 2017, 366 р. (in Russ.)
  11. Sazonov V.V. Izvestiya MGTU "MAMI", 2014, no 2(3), рр. 63–68. (in Russ.)
  12. Vissarionov V.I., Deryugina G.V., Kuznetsova V.A. et al. Solnechnaya energetika (Solar Power), Moscow, 2008, 320 р. (in Russ.)
  13. Borovkin A.G., Burdygov B.G., Gordiyko S.V. et al. Bortovyye sistemy upravleniya kosmicheskimi apparatami (Onboard Spacecraft Control Systems), Moscow, 2010, 304 р. (in Russ.)
  14.  Vasil'yev V.N. Sistemy oriyentatsii kosmicheskikh apparatov (Spacecraft Orientation Systems), Moscow, 2009, 310 р. (in Russ.)
  15. Raykunov G.G., Komkov V.K., Sysoyev V.M. Kosmicheskiye solnechnyye elektrostantsii – problemy i perspektivy (Space Solar Power Plants – Problems and Prospects), Moscow, 2017, 284 р. (in Russ.)