Advanced Exo-Brake Development: Parachuting Small Payloads in a Single-Stage from Low Earth Orbit (LEO)

Metadata Updated: August 1, 2018

What is an Exo-Brake/How Does it Work?: The Exo-Brake is a Exo-Atmopsheric drag device that dramatically reduces the ballistic coefficient (above) such that de-orbit can occur within 2-3 days.  It is semi-stiff so that it can not tangle (a driving design requirement). Because it is a tension device – it can (in later versions) be easily modulated and controlled to the top of the  atmosphere at about 100 km (the von Karmen altitude).  Solar sails have beams that would buckle prematurely – and gas inflation systems would not permit the fine level of control desired.  The design is comprised os a 3 layer fabric sandwich that is both high temperature – and easily to fold into a tight volume.  Because of the safety and related complexities of launching – or deploying – small satellites from the International Space Station (ISS), it was necessary to devise inherently safe systems that would be compatible with storing and processing INSIDE the ISS.  Normally considered propulsion systems would be challenging – as any leakage, even if a benign propellant were used – could affect crew safety (e.g., freon system leakage at above volume percentage thresholds).  Cold-gas systems would require bulky 'scuba-tank' -sized high pressure cylinders.  And - a solid propellant motor would present obvious risks of premature ignition. Once deployed outside the airlock, a propulsion system would be complex - and have to have a navigation, spin–up/down, and COM/tracking system.  This is analogous to the operational complexity of the original Corona capsules used several decades ago for spy satellites. The Exo-Brake and related Small Payload Quick Return (SPQR) was intended to be both safe and operationally simple.  It is a tension-based, semi-stiff parachute that is deployed from an aft cavity of the satellite and dramatically increases the drag.  The ballistic coefficient, or M/Cd*A (M=mass; Cd=drag coefficient; A=projected area) is modified to a value of 1-3kg/m2, and perhaps surprisingly – permits de-orbit and re-entry within 2-3 days.   The SPQR – which will be later tested with the Exo-Brake – includes a unique self-orienting re-entry capsule (TDRV – Tube Deployed Re-entry Vehicle) that also departs from the current orthodoxy.  Though intended for 'hot re-entry,' it is also a low-ballistic coefficient device so that peak heating is depressed -because it occurs at the very top of the atmosphere in very low density.  The Exo-Brake and related technologies permit unique planetary cube-sat missions – to Mars – to be tested and perfected from the ISS. Addendum:  The first Exo-Brake experiment – at small test-scale (8 kg/m2) was launched in late November, 2013 and successfully re-entered on January 6.  The next flight test is scheduled for July, 2014.  

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Public: This dataset is intended for public access and use. License: U.S. Government Work

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Metadata Created Date August 1, 2018
Metadata Updated Date August 1, 2018

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Harvested from NASA Data.json

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Resource Type Dataset
Metadata Created Date August 1, 2018
Metadata Updated Date August 1, 2018
Publisher Space Technology Mission Directorate
Unique Identifier TECHPORT_10609
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Maintainer Email
Public Access Level public
Bureau Code 026:00
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Harvest Source Title NASA Data.json
Data First Published 2013-04-01T07:00:00.000Z
Homepage URL https://techport.nasa.gov/view/10609
Language en-US
License http://www.usa.gov/publicdomain/label/1.0/
Data Last Modified 2017-09-18T00:00:00.000Z
Program Code 026:027
Publisher Hierarchy National Aeronautics and Space Administration > Space Technology Mission Directorate
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