Applying the perturbative integral in aeromaneuvers around Mars to calculate the cost

The perturbative integral method was applied to quantify the contribution of external forces during a specific interval of time in trajectories of spacecraft around asteroids and under the Luni-solar influence. However, this method has not been used to quantify the contributions of drag in aerocapture and aerobraking. For this reason, the planet Mars is selected to apply this method during an aerogravity-assisted maneuver. Several trajectories are analyzed, making use of a drag device with area to mass ratios varying from 0.0 to 20.0 m2/kg, simulating solar sails or de-orbit devices. The mathematical model is based in the restricted three-body problem. The use of this maneuver makes it possible to obtain the variations of energy in the trajectory, replacing expensive maneuvers based on fuel consumption. To observe the effects of the maneuvers, different values of pericenter velocity and altitude were selected for prograde and retrograde orbits. The innovation of this research is the application of an integral method to quantify the delta-V of the aero gravity maneuver, comparing the cost of the maneuver with the traditional methods of space propulsion. The results allow the identification of orbits with conditions to capture, and the perturbative maps show the velocity variations. © 2022, The Author(s).

Авторы
Piñeros J.O.M.1 , De Almeida Prado A.F.B. , Dos Santos W.A. , De Moraes R.V.
Журнал
Издательство
Nature Publishing Group
Номер выпуска
1
Язык
Английский
Статус
Опубликовано
Номер
5022
Том
12
Год
2022
Организации
  • 1 Institute of Science and Technology ICT-UNIFESP, SP, São José dos Campos, Brazil
  • 2 Graduate Division - DIPGR, National Institute for Space Research INPE, SP, São José dos Campos, Brazil
  • 3 Small Satellite Division - DIPST, National Institute for Space Research INPE, SP, São José dos Campos, Brazil
  • 4 Peoples’ Friendship University of Russia (RUDN University), 6 Miklukho-Maklaya, Moscow, 117198, Russian Federation
Ключевые слова
astronomy; gravity; space flight; theoretical model; Gravitation; Mars; Models, Theoretical; Space Flight; Spacecraft
Дата создания
06.07.2022
Дата изменения
06.07.2022
Постоянная ссылка
https://repository.rudn.ru/ru/records/article/record/83506/
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Другие записи

Zona D., Lafleur P.M., Hufkens K., Bailey B., Gioli B., Burba G., Goodrich J.P., Liljedahl A.K., Euskirchen E.S., Watts J.D., Farina M., Kimball J.S., Heimann M., Göckede M., Pallandt M., Christensen T.R., Mastepanov M., López-Blanco E., Jackowicz-Korczynski M., Dolman A.J., Marchesini L.B., Commane R., Wofsy S.C., Miller C.E., Lipson D.A., Hashemi J., Arndt K.A., Kutzbach L., Holl D., Boike J., Wille C., Sachs T., Kalhori A., Song X., Xu X., Humphreys E.R., Koven C.D., Sonnentag O., Meyer G., Gosselin G.H., Marsh P., Oechel W.C.
Scientific Reports. Nature Publishing Group. Том 12. 2022.