SpaceX is eleven years old, has six successful launches on the books, and forty-one missions scheduled between now and 2017. Their next mission, CRS-2, for NASA is scheduled for launch on March 1. This launch is the second of twelve contracted between NASA and SpaceX to completed by 2015. Still frame from the CRS-1 webcast of the Falcon 9 pressure relief panels being ejected. The Falcon 9 and Dragon last flew in October 2012. The Dragon docked successfully with the International Space Station (ISS) and came back to earth safely. What seemed to get the most press coverage during the mission was an issue being reported as an engine explosion. About a minute and nineteen seconds into the CRS-1 launch there was what looked like an engine explosion. This was not an explosion but an example of Falcon 9 redundancy in action. The Falcon rocket detected a sudden loss in pressure in Merlin engine 1 and issued a command to shutdown. The burst, debris, and plume of smoke were the pressure relief panels being ejected to protect engine 1 and surrounding engines. The flight computer then recalculated a new ascent profile and the Dragon continued on to the ISS.
Today marks the one month countdown to the SpaceX launch for the next NASA Commercial Resupply Services Mission (CRS-2). Pinehead is going get you prepped for launch by covering SpaceX from the outside, in. We are going to start with the big picture and drill down to various rocket/spacecraft components and launch preparations as we get closer to T-minus zero for CRS-2, scheduled for March 1st. SpaceX is set up in several locations around the United States including a small Pacific island. Headquarters is located in Hawthorne, California. Their rocket testing facility is in McGregor, Texas. SpaceX has launch complexes at Cape Canaveral, Vandenberg Air Force Base in Lompoc, California, and Omelek Island about 2,500 miles southwest of Hawaii. They are also considering a launch site Brownsville, Texas located at the southern tip of the state.