Most capsules designed to return payloads from earth orbit use rockets for deorbit. They have modest payload mass & volume fractions. Active attitude control raises costs, and the deorbit rocket imposes risks which increase development and operational costs. This note describes an alternative concept now being developed under NASA funding. It uses a tether to both deorbit and orient the capsule. This allows simultaneous reduction of capsule complexity, cost, loads, hazards, and reentry errors. The flight of SEDS-1 in 1993 proved out the basic concepts. A 20 km tether slung a 26 kg payload back to earth from a 74O x 19O km orbit, accurately enough for a pre-positioned observer to videotape the reentry. As air drag built up just before reentry, the tether was blown back and became a kite-tail, with tension increasing as predicted before flight. The tether was still attached at approx. 110 km, when telemetry was lost.
A Station Tethered Express Payload System (STEPS)
1998-01-01
Conference paper
No indication
English
A Station Tethered Express Payload System (STEPS)
British Library Conference Proceedings | 1998
|EXPRESS Rack - Space Station Subrack Payload Accomodations
British Library Conference Proceedings | 1995
|EXPRESS Rack - Space Station Subrack Payload Accommodations
SAE Technical Papers | 1995
|Hybrid Control of Tethered Payload Capture
British Library Conference Proceedings | 2005
|