by Staff Writers
Dulles, VA (SPX) Apr 04, 2012
Orbital Sciences reports that the U.S. Air Force has exercised an option order for a Minotaur I space launch vehicle to support the ORS-3 "Enabler" mission for the Operationally Responsive Space (ORS) Office of the Department of Defense.
This most recent Minotaur I space launch vehicle ordered by the Air Force will be launched from the Mid-Atlantic Regional Spaceport (MARS) facility at NASA's Wallops Flight Facility at Wallops Island, Virginia in 2013.
"We are very pleased to continue to provide cost-effective military space missions for the U.S. Air Force," said Mr. Ron Grabe, Orbital's Executive Vice President and General Manager of its Launch Systems Group.
"For the past 15 years, the Minotaur program has provided highly reliable and affordable launchers that combine government-owned propulsion systems with commercial rocket technology to support Department of Defense and other U.S. government space missions."
The Minotaur I is a four-stage solid fuel space launch vehicle utilizing Minuteman rocket motors for its first and second stages, reusing government-owned motors that have been decommissioned as a result of arms reduction treaties.
To date, Minotaur I has conducted 10 missions with a 100% success rate, delivering 32 satellites into orbit, while the entire Minotaur product line (see description below) has established a perfect 23-for-23 mission record.
The Enabler mission will be the fifth Minotaur I rocket to be launched from the MARS facility, following the TacSat-2, NFIRE, TacSat-3 and ORS-1 missions conducted from the Eastern Virginia launch site in 2006, 2007, 2009 and 2011, respectfully.
Minotaur vehicles are the only proven launchers currently capable of supporting the Department of Defense's evolving ORS launch requirements and are also specifically designed to be capable of launching from all major U.S. spaceports, including government and commercial launch sites in Alaska, California, Florida and Virginia. All Minotaur rockets share standardized avionics and subsystems, mature industrial processes and experienced personnel to make them reliable and cost effective.
The Minotaur I space launch configuration combines Orbital's commercial launch vehicle technologies, including upper-stage rocket motors, structures, avionics and other elements, with government-supplied lower-stage rocket motors to create responsive, reliable and low-cost launch systems for U.S. government-sponsored spacecraft. It can place approximately 1,300 lbs. into low-Earth orbit.
In addition to the Minotaur I space booster, Orbital's Minotaur product line also includes:
+ Minotaur II - A three-stage suborbital rocket used as a target vehicle for testing U.S. missile defense systems and related missions.
+ Minotaur III - A three-stage suborbital rocket that can deliver suborbital technology demonstration payloads of up to 6,500 lbs. or serve as a target vehicle for testing U.S. missile defense systems and similar missions.
+ Minotaur IV - Introduced in 2010, the Minotaur IV uses retired Peacekeeper rocket motors, capable of launching U.S. government-sponsored satellites weighing up to 3,800 lbs. into low-altitude orbit and can also be configured as a three-stage suborbital booster. It has carried out five successful missions, including two suborbital flights for DARPA and three space launch missions.
+ Minotaur V - An enhanced-performance version of the Minotaur IV space launch vehicle that will be used to launch government satellites into higher-energy orbits for missions related to space exploration and other activities beyond low-Earth orbit. Orbital will introduce the Minotaur V configuration in 2013 with the launch of NASA's LADEE lunar spacecraft from MARS at Wallops Island, Virginia.
Launch Pad at Space-Travel.com
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China launches French-made communication satellite
Xichang, China (XNA) Apr 02, 2012
China successfully sent a French-made communication satellite, "APSTAR-7," into orbit Saturday evening, using a Long March-3B carrier rocket launched from the southwestern Xichang Satellite Launch Center. Monitoring data indicated that the satellite separated from the rocket and reached its designated orbit 26 minutes after its launch at 6:27 p.m. Beijing time. Produced by Thales Ale ... read more
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