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Space Exploration Technologies


FOR IMMEDIATE RELEASE

Contact:
Mary Beth Brown
news@SpaceX.com
310-414-6555 ext. 222

www.spacex.com/falcon_9.php

SPACEX ANNOUNCES THE FALCON 9 FULLY REUSABLE HEAVY LIFT LAUNCH VEHICLE


El Segundo, CA – September 8, 2005 – SpaceX today announced its new launch vehicle, the Falcon 9, an Evolved Expendable Launch Vehicle (EELV) class vehicle. With up to a 17 ft (5.2 m) diameter fairing, Falcon 9 is capable of launching approximately 21,000 lbs (9,500 kg) to Low Earth Orbit (LEO) in its medium configuration and 55,000 lbs (25,000 kg) to LEO in its heavy configuration, a lift capacity greater than any other launch vehicle. In the medium configuration, Falcon 9 is priced at $27 million per flight with a 12 ft (3.6 m) fairing and $35 million with a 17 ft fairing. Prices include all launch range and third party insurance costs, making Falcon 9 the most cost efficient vehicle in its class worldwide.

SpaceX initially intended to follow its first vehicle development, Falcon 1, with the intermediate class Falcon 5 launch vehicle. However, in response to customer requirements for low cost enhanced launch capability, SpaceX accelerated development of an EELV-class vehicle, upgrading Falcon 5 to Falcon 9. SpaceX has sold Falcon 9 to a US government customer. SpaceX still plans to make Falcon 5 available in late 2007.

Falcon 9 uses similar engines, electronics, guidance & control and separation systems to Falcon 1. However, in the case of Falcon 9 there are nine Merlin engines clustered together. Some examples of rockets that made effective use of clustering are the Saturn I manned rocket (eight thrust chambers) of the Apollo Program and the Soyuz manned rocket (thirty-two thrust chambers) currently used to service the International Space Station. Clustering provides the ability to lose multiple engines during flight and still complete the mission, resulting in a higher level of propulsion reliability.

A recent study performed by the Futron Corporation, concluded that Falcon 5 was superior in design reliability to other vehicles in its class, due to engine redundancy, a characteristic shared by Falcon 9.

Falcon 5 and Falcon 9 will be the world’s first launch vehicles where all stages are designed for reuse. The Falcon 1 has a reusable first stage, but an expendable upper stage. Reuse is not factored into launch prices. When the economics of stage recovery and checkout are fully understood, SpaceX will make further reductions in launch prices.

SpaceX has launch sites at Vandenberg Air Force Base, Cape Canaveral Air Force Station and the Marshall Islands, allowing for direct launch into any orbital inclination. With its launch complex in the Marshall Islands, SpaceX is the only US heavy launch provider with a launch site close to the equator, providing an advantage for equatorial satellite launch.

About SpaceX

SpaceX is developing a family of launch vehicles intended to increase the reliability and reduce the cost of access to space by a factor of ten.   The maiden launch for Falcon I is scheduled for fall of this year from the SpaceX island launch complex in the Kwajalein Atoll.  The customers for this mission are DARPA and the US Air Force. The payload will be FalconSat-2, part of the Air Force Academy’s satellite program that will measure space plasma phenomena. The second mission, carrying TacSat-1 for the Naval Research Laboratory, will follow the last Titan IV launch from VAFB.

 

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