UP Aerospace To Launch SpaceLoft 10 For NASA’s Flight Opportunities Program

Spaceloft Launch System. Image Credit: UP Aerospace

Spaceloft Launch System. Image Credit: UP Aerospace

September 28, 2015 – Denver-based UP Aerospace will launch SpaceLoft 10 from Spaceport America on November 6, 2015. The suborbital launch is part of NASA’s Flight Opportunities program, which uses low-cost commercial launch services to test new space technologies for NASA and other government agencies, as well as for educational institutions and the private sector.

The SpaceLoft is a reusable launch vehicle that was developed by UP Aerospace in 2006 as a microgravity research platform for education, scientific research, and commercial payloads. The vehicle consists of an expendable carbon composite solid rocket booster, avionics and recovery section, and a payload bay.

The heart of the SpaceLoft system is the Payload Transportation System (PTS). Each standard mission contains seven PTS containers. The containers come in two different sizes and have access to the space environment through openings in the vehicle airframe and access panels. Options for each PTS include discrete command, power modules, and telemetry, which can be customized to match specific payload requirements.

SpaceLoft is ground launched from Spaceport America using a remote hydraulic launcher and automated launch systems. The solid rocket motor burns for 12 seconds and reaches space within 60 seconds. A de-spin system slows the roll rate to near zero when microgravity experiments can begin to be conducted.

The payload section remains weightless in excess of 4 minutes, during which time the experimental technologies are exposed to the space environments where they are expected to operate. This gives researchers critical feedback about their technology, which aids in the maturation of technology for future space missions.

During the re-entry phase, the booster section is released and the payload and recovery sections are balanced to trim in a horizontal orientation to slow the vehicle. At about a mile above the ground, redundant onboard controls release the drogue parachute system, which orientates the payload section in a vertical heads down attitude. Ten seconds after drogue deploy, the main parachute is released and provides a soft landing on White Sands Missile Range.

UP Aerospace has been successfully conducting launches from Spaceport America in New Mexico since 2006.