Specifics of designing trajectories of perspective spacecraft for Venus exploration

Article

Published: 14.10.2021

Authors: Simonov A.V., Kovaleva S.D., Gordienko E.S., Paul V.G., Kosenkova A.V.

Published in issue: #10(118)/2021

DOI: 10.18698/2308-6033-2021-10-2122

Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Dynamics, Ballistics, Motion Control

The paper describes the mission profile of the perspective Venus exploration project spacecraft with launches planned for 2027−2031. The main aspects of selecting the optimal launch dates are considered. The sequences of an orbiter injection to a highly elliptical orbit and a lander delivery to the surface of Venus are described. The rationale for the operating orbit as well as for the injection sequence that will enable Venus-to-Earth data transfer are provided. The lifespan of the lander, including its parachute descent, is limited by the high temperature of the lower atmosphere close to the surface (up to 460 degrees Celsius) and is expected to be no more than three hours. Therefore, a key feature of the mission profile development is designing the sequence of the orbital vehicle maneuvers, which ensures robust communication with the lander during this time within a range of 40 thousand kilometers.

References
[1] Zasova L.V., Gorinov D.A., Eismont N.A., Kovalenko I.D., Abbakumov A.S., Bober S.A. Solar System Research, 2019, vol. 53 (7), pp. 506−510.
[2] Vorontsov V.A., Kraynov A.M., Martynov M.B., Pichkhadze K.M., Khartov V.V. Trudy MAI (MAI Proceedings), 2012, no. 52, p. 13. Available at: https://mai.ru/upload/iblock/2b6/predlozheniya-po-rasshireniyu-programmy-issledovaniy-venery-s-uchetom-opyta-proektnykh-razrabotok-npo-im.-s.a.-lavochkina.pdf
[3] Eismont N.А., Zasova L.V., Simonov A.V., Kovalenko I.D., Gorinov D.А., Abbakumov A.S., Bober S.А. Vestnik “NPO imeni S.A. Lavochkina” (Bulletin of the Lavochkin Association), 2018, no. 4, pp. 11−18.
[4] Zasova L.V., Gorinov D.А., Eismont N.А., Kovalenko I.D., Abbakumov A.S., Bober S.А. Vestnik “NPO imeni S.A. Lavochkina” (Bulletin of the Lavochkin Association), 2018, no. 3, pp. 13−17.
[5] Glaze L.S., Wilson C.F., Zasova L.V., Nakamura M., Limaye S. Space Science Reviews, 2018, vol. 214 (5), pp. 1−37.
[6] Vorontsov V.A., Karchaev K.Z., Martynov M.B., Primakov P.V. Trudy MAI (MAI Proceedings), 2016, no. 86, p. 15. Available at: https://mai.ru/upload/iblock/1aa/vorontsov_karchaev_martynov_primakov_rus.pdf
[7] Folkner W.M., Williams J.G., Boggs D.H. Interplanetary Network Progress Report 42-196, Jet Propulsion Laboratory, 2014.
[8] Konopliv, A.S., Banerdt W.B., Sjogren W.L. Icarus, 1999, vol. 139.1, pp. 3−18.
[9] Eismont N.А., Koryanov V.V., Fedyaev K.S., Bober S.A., Zubko V.A., Belyaev A.A. Inzhenerny zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2020, iss. 4 (100). DOI: 10.18698/2308-6033-2020-4-1975
[10] Borovin G.K., Golubev Yu.F., Grushevskiy A.V., Zaslavsky G.S., Zahvatkin M.V., Koryanov V.V., Lavrenov S.M., Morskoy I.M., Simonov A.V., Stepaniants V.A., Tuchin A.G., Tuchin D.A., Yaroshevsky V.S. Ballistiko-navigatsionnoe obespechenie poletov avtomaticheskikh kosmicheskikh apparatov k telam Solnechnoy sistemy [Ballistic and navigation support for flights of automatic spacecraft to the bodies of the solar system]. Khimki, Lavochkin Association Publ., 2018, 336 p.
[11] Golubev Yu.F., Grushevskii A.V., Kiseleva I.P., Koryanov V.V., Lavre-nov S.M., Tuchin A.G., Tuchin D.A. Ballisticheskoe proektirovanie poletov k Venere v epokhu 2021−2028 gg. Oblasti dostizhimosti pri posadke [Ballistic design of flights to Venus in the epoch of 2021−2028. Landing accessibility areas]. Keldysh Institute Preprints, iss. 76. Moscow, 2018, pp. 1−28.
[12] Borovin G.K., Grushevskiy A.V., Tuchin A.G., Tuchin D.A. Mathematica Montisnigri, 2019, vol. 45, pp. 137−148.
[13] Vorontsov V.A., Lokhmatova M.G., Martynov M.B., Pichkhadze K.M., Simonov A.V., Khartov V.V., Zasova L.V., Zelenyi L.M., Korablev O.I. Solar System Research, 2011, vol. 45, no. 7, pp. 710−714.
[14] Kovalenko I.D., Eismont N.A., Limaye S.S., Zasova L.V., Gorinov D.A., Simonov A.V. Advances in Space Research, 2019, vol. 66, pp. 21−28. https://doi.org/10.1016/j.asr.2019.10.027
[15] Ivanov M.A., Zasova L.V., Gerasimov M.V., Korablev O.I., Marov M.Y., Zelenyi L.M., Ignatev N.I., Tuchin A.G. Solar System Research, 2017, vol. 51 (1), pp. 1−19.