Вариант для COTS от АТК и PlanetSpace.
http://www.floridatoday.com/apps/pbcs.dll/article?AID=/20080121/NEWS02/801210324
ЦитироватьAlliant Techsystems today will divulge plans for a three-stage rocket based on NASA's shuttle and unmanned Athena and Taurus launch vehicles.
The shuttle's solid rocket boosters consist of four segments.
The planned first stage of the new booster would be equal to 21/2 of the shuttle's segments.
The second stage would be a Castor 120 solid rocket motor flown on Athena 1, Athena 2 and Taurus launch vehicles.
The third stage would be a Castor 30 rocket motor the company is developing.
It would be topped by a Lockheed Martin module that would guide cargo or crew carriers to the station.
The lineage of the unnamed rocket should give the PlanetSpace team an edge, Crook said.
The company plans to launch a small version of the rocket by 2009. A demonstration flight of the full-size vehicle is scheduled for late 2010.
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http://forum.nasaspaceflight.com/forums/thread-view.asp?tid=11539&start=1
ЦитироватьFACT SHEET – Embargoed until Jan. 21, 2008
ATK Provides Launch Vehicle for the PlanetSpace COTS Solution
Mature propulsion systems provide near-term solution for COTS, as well as satellite and planetary markets
As part of the NASA COTS proposal, PlanetSpace and ATK have introduced an innovative launch vehicle based on propulsion with proven performance on multiple launch vehicles. The new launch vehicle provides a cost-effective, near-term capability for multiple space launch requirements including: COTS missions, LEO & GTO satellites, lunar payloads and planetary probes.
The first two stages are based on existing propulsion systems with long histories of performance. Stage one is a 2.5 segment derivative of the Space Shuttle's 4-segment Solid Rocket Booster. The second stage is the ATK Castor 120, utilized on the Athena I, Athena II and Taurus launch vehicles.
That proven foundation is topped by an ATK Castor 30 third stage, and a flight proven Orbit Adjust Module (OAM). ATK has been developing the Castor 30 internally for the last two years, and the OAM flew on both the Athena I and Athena II.
This innovative configuration of proven propulsion elements will be capable of providing low-cost launch services for the following missions:
Mission Payload Capability
• International Space Station (ISS) 13,233 lbs./14,795 lbs
• Geosynchronous Transfer Orbit (GTO) 6,160 lbs.
• Trans-Lunar Insertion (TLI) 4,147 lbs.
• Mars Science Mission 2,992 lbs.
The performance capability for the initial vehicle is nearly 25 percent greater than the heavy version of a Delta II for GTO missions, and almost 40 percent better for TLI missions. In addition, an upgraded vehicle would provide an additional 1,560 lbs. of payload capability for ISS missions by incorporating composite case and solid propellant upgrades. Using proven propulsion elements, the new launch vehicle can achieve first flight by late 2010 from Cape Canaveral Air Force Station.
About ATK
ATK has the world's largest portfolio of solid rocket motors. We are combining our leadership in solid propellant technologies with our system engineering and integration capabilities to provide future launch systems in commercial, military, and space exploration markets.