Research on thermal conditions of a small space vehicle
| Authors: Sudomoin P.D., Shabanov V.A., Platonov K.A., Kas | Published: 29.03.2016 |
| Published in issue: #2(107)/2016 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Strength and Thermal Modes | |
| Keywords: space vehicle, thermal mathematical model, concentrated parameters, passive control system, orbit thermal loads | |
The purpose of this research is to simulate the thermal state of a small space vehicle (SV) and to develop basic constituents of the thermal mathematical model (TMM). In this paper we present the description ofthe thermal control system. As a prototype we chose remote sensing (RS) spacecraft and in accordance with its elements and their structural features, we calculated thermal conductive connections. Consequently, for a given orbit we identified the external thermal effect on the space vehicle and by means of Monte Carlo method, we calculated mutual re-emission of the vehicle design elements. As a result, we analyzed the space vehicle elements and calculated their temperature.
References
[1] Galitseyskiy B.M., Danilov Yu.I., Dreytser G.A., Koshkin V.K., ed. Teploobmen v energeticheskikh ustanovkakh kosmicheskikh apparatov [Heat transfer in power units spacecraft]. Moscow, Mashinostroyenie Publ., 1975. 272 p.
[2] Favorskiy O.N., Kadaner Ya.S. Voprosy teploobmena v kosmose [Questions of heat transfer in space]. Moscow, Vyssh. shk. Publ., 1972. 280 p.
[3] Sudomoin P.D., Platonov K.A., Shchukin S.A. A mathematical model of the thermal conditions of small space vehicle. Budushcheye mashinostroyeniye Rossii: sb. tr. Sed’moy vseros. konf. molodykh uchenykh i spetsialistov [Future Engineering of Russia. Proceedings of the Seventh All-Russia Conference of Young Scientists and Specialists]. Moscow, 24-27 September 2014. Bauman Moscow State Technical University. Moscow, MGTU im. N.E. Baumana Publ., 2014, pp. 194-195 (in Russ.).
[4] Sudomoin P.D., Yegorov K.S., Kaskov S.I. Modelling of the thermal regime of the spacecraft. Jelektr. Zhur. "Molodezhnyy nauchno-tekhnicheskiy vestnik" MGTU im. N.E. Baumana [El. J. "Youth Sci.&Techn. Herald" of Bauman MSTU], 2015, no. 7. Available at: http://sntbul.bmstu.ru/doc/791863.html
[5] Robert D. Karam. Satellite thermal control for systems engineers. Reston, Va.: American Institute of Aeronautics and Astronautics, 1998. 274 p.
[6] Lucas John W., ed. Heat Transfer and Spacecraft Thermal Control (Progress in Astronautics & Aeronautics). MIT Press., 1971.
[7] Zaletayev V.M., Kapinos Yu.V., Surguchev O.V. Raschet teploobmena kosmicheskogo apparata [Calculation the heat transfer of the spacecraft]. Moscow, Mashinostroyenie Publ., 1971. 207 p.
[8] Siegel Robert, Howel John R. Thermal Radiation Heat Transfer. N.Y., McGraw-Hill Book Company, 1975. 814 p.
[9] Sparrow E.M., Cess R.D. Radiation Heat Transfer. Hemisphere Publishing Corporation, 1966. 322 p.
