On February 1, 2012 SpaceX announced that it had completed the development of a new, more powerful
storable-propellant rocket engine, this one called SuperDraco. This high-thrust hypergolic engine—about 200 times larger than the Draco RCS thruster hypergolic engine—offers deep throttling ability and just like the Draco thruster, has multiple restart capability and uses the same shared hypergolic propellants. Its primary purpose is for SpaceX's
LAS (launch abort system) on the Dragon spacecraft. According to the NASA press release, the engine has a transient from ignition to full thrust of 100 ms. and were used on the
SpaceX DragonFly, a prototype low-altitude
test article that was used for
flight testing various aspects of the propulsive-landing technology. While the engine is capable of of thrust, during use for DragonFly testing, the engines were planned to be
throttled to to maintain vehicle stability. First firing of all 8 Super Draco engines took place on 6 May 2015 at 9am EDT at the SpaceX Crew Dragon Pad Abort Test. SuperDraco engines are capable of being restarted many times, and have the capability to
deeply reduce their thrust providing precise control during
propulsive landing of the Dragon capsule. SpaceX have since announced they will not be using propulsive landing on the Dragon 2. , SuperDraco is the third most powerful engine developed by SpaceX, approximately 200 times more powerful than the Draco RCS thruster engines, and only outmatched by the
Raptor and
Merlin. In addition to the use of the SuperDraco thrusters for powered-landings on Earth,
NASA's Ames Research Center studied the feasibility of a
Dragon-derived Mars lander for scientific investigation until 2017. ==See also==