Abstract
Deployable aerobrakes for Earth re-entry capsules may offer many advantages in the near future, including the opportunity to recover on Earth scientific payloads from the Space with reduced risks and costs with respect to conventional systems. Such capsules can be accommodated in the selected launcher in folded configuration optimizing the available volume and, when planned by the mission profile, the aerobrake can be deployed in order to increase the surface exposed to the hypersonic flow and therefore to reduce the ballistic parameter. This can offer as main advantage the opportunity to perform an aerodynamic de-orbit of the system without the need of a dedicated propulsive subsystem and an atmospheric re-entry with reduced aerothermal and mechanical loads making possible the use of relatively lightweight and cheap thermal protection system materials. To ensure the recovery of the capsule, the deployable surface can be modulated to obtain the aerodynamic control of the de-orbit trajectory in order to correctly target the capsule towards the selected landing site for post-flight analyses and operations. The main objective of the work is to present a number of feasible mission profiles for orbital platforms to/from Low Earth Orbit aimed in particular at scientific experiments in microgravity conditions. In addition, a suborbital scenario for a technological demonstrator, useful to experimentally verify the system applicability before the design of orbital missions, is also presented and discussed.
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References
Alkin, D.L.: The parashield entry vehicle concept: basic theory and flight test developments. 4th Annual AIAA/Utah State University Conference on Small Satellites, Logan, UT (1990)
Andrews, J., Watry, K., Brown, K.: Nanosat de-orbit and recovery system to enable new missions. 25th Annual AIAA/USU Conference on Small Satellites, Logan, UT (2011)
Andrews, D.G., Beerman, M., Brown, K.A., Cannon, J.H., Watry, K.E., Andrews, J.: Deployable decelerator based microsatellite recovery. Patent Doc. US 8292232, B1 (2012)
Bassano, E., Savino, R., Lo Forti, R., Ferrarotti, A., Richiello, C., Russo, G., Aurigemma, R., Punzo, F., Dell’Aversana, P.: IRENE - Italian Re-Entry NacellE for Microgravity Experiments. 63th International Astronautical Congress, Cape Town, South Africa (2011)
Carandente, V., Savino, R., Janovsky, R., Scheper, M., Monti, R.: Re-entry and launch proposals for an advanced ISS crew transportation system. 63th International Astronautical Congress, Naples, Italy (2012)
Carandente, V., Elia, G., Savino, R.: Conceptual design of de-orbit and re-entry modules for standard CubeSats. 2nd IAA Conference on University Satellite Missions and CubeSat Workshop, Rome, Italy (2013)
Carandente, V., Savino, R.: New Concepts of Deployable De-Orbit and Re-Entry Systems for CubeSat Miniaturized Satellites. Recent Patents Eng. 8, 2–12 (2014)
Carandente, V., Zuppardi, G., Savino, R.: Aerothermodynamic and stability analyses of a deployable re-entry capsule. Acta Astronaut. 93, 291–303 (2014)
EuroLaunch: Rexus User Manual v7, 11 (2014)
Fortezza, R., Savino, R., Russo, G.: MISTRAL - Micro-Satellite with Reentry Capability for Air Launch: a tiny spacecraft for several missions in LEO. 64th International Astronautical Congress, Beijing, China (2013)
Frick, W., Guerci, J., Horais, B.: Responsive Air Launch. 2nd Responsive Space Conference, Los Angeles, CA (2004)
Gardi, R., Del Vecchio, A., Russo, G., Marino, G.: Shark-Maxus 8 Experiment: A technology demonstrator of the re-entry. 20th ESA Symposium on European Rocket and Balloon Programmes and Related Research, Hyre, France (2011)
Lindell, M.C., Hughes, S.J., Dixon, M., Wiley, C.E.: Structural analysis and testing of the Inflatable Re-entry Vehicle Experiment (IRVE). ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Newport, RI (2006)
Savino, R., Carandente, V.: Aerothermodynamic and Feasibility Study of a Deployable Aerobraking Re-Entry Capsule. Fluid Dyn. Mater. Process. 8, 453–476 (2012)
Savino, R., Aurigemma, R., Carandente, V., Dell’Aversana, P., Gramiccia, L., Longo, J., Marraffa, L., Punzo, F.: Study and development of a sub-orbital reentry demonstrator. J. Br. Interplanet. Soc. 67(2), 74–81 (2014)
Schettino, A., Votta, R., Roncioni, P., Di Clemente, M., Gerritsma, M., Chiarelli, C., Ferrarella, D.: Aerodynamic and aerothermodynamic database of the Expert capsule. West-east high speed flow field conference, Moscow, Russia (2007)
Wiegand, M., Königsmann, H.J.: A Small Re-entry Capsule - BREMSAT 2. 10th AIAA/USU Small Satellite Conference, Logan, UT (1996)
Wilde, D., Walther, S.: Inflatable re-entry and descent technology (IRDT) - further developments. 2nd International Symposium of Atmospheric Re-entry Vehicles and Systems, Arcachon, France (2001)
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Carandente, V., Savino, R., D’Oriano, V. et al. A Study on Earth Re-entry Capsules with Deployable Aerobrakes for Recoverable Microgravity Experiments. Microgravity Sci. Technol. 27, 181–191 (2015). https://doi.org/10.1007/s12217-015-9430-4
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DOI: https://doi.org/10.1007/s12217-015-9430-4