Headlines > News > CST-100 Reviews Road to Mission Operations

CST-100 Reviews Road to Mission Operations

Published by Klaus Schmidt on Thu Feb 21, 2013 10:57 pm via: NASA
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The Boeing Company’s plans for its CST-100 spacecraft continue to firm up as the aerospace company works with NASA’s Commercial Crew Program (CCP) to establish what will be needed to communicate with the spacecraft and recover it when it returns from a mission.

The capsule-shaped spacecraft is on track to launch to low-Earth orbit atop a United Launch Alliance Atlas V rocket from Florida’s Space Coast around the middle of the decade. It is designed to hold enough crew members to allow the spaceship to operate as a taxi and lifeboat on missions to the International Space Station.

This artist concept is what The Boeing Company's CST-100 spacecraft processing is expected to look like in Space Florida's Commercial Crew and Cargo Processing Facility at NASA's Kennedy Space Center in Florida with work stations on a clean floor. Image credit: Boeing

This artist concept is what The Boeing Company's CST-100 spacecraft processing is expected to look like in Space Florida's Commercial Crew and Cargo Processing Facility at NASA's Kennedy Space Center in Florida with work stations on a clean floor. Image credit: Boeing

The company, one of three NASA is working with to establish a commercial industry to ferry astronauts to and from the orbiting laboratory, recently completed its fifth performance milestone and two in-depth reviews as part of the CST-100’s development.

The latest review milestone under the funded Space Act Agreement with NASA during the Commercial Crew Integrated Capability (CCiCap) initiative at Boeing’s facility in Titusville, Fla., established the baseline plan for the equipment and infrastructure needed to run spacecraft ground communications and landing and recovery operations.

An artist concept of Boeing's CST-100 spacecraft atop its integrated launch vehicle, United Launch Alliance's Atlas V rocket. Image credit: Boeing

An artist concept of Boeing's CST-100 spacecraft atop its integrated launch vehicle, United Launch Alliance's Atlas V rocket. Image credit: Boeing

The company also completed back-to-back production design and “phase 1″ safety reviews in November, which allowed agency managers and engineers to analyze safety and support systems being designed for the CST, short for Crew Space Transportation.

“The safety review showed some ways Boeing is mitigating and controlling hazards in the preliminary design review level of the integrated design,” said Gennaro Caliendo of CCP’s Partner Integration Office. “Boeing has a great deal of experience in the human spaceflight business and has been integral in helping develop future spacecraft for our national capability.”

An artist concept of Boeing's CST-100 spacecraft, under development in collaboration with NASA's Commercial Crew Program. The CST-100 is on track to be processed in C3PF prior to launching to low-Earth orbit atop a United Launch Alliance Atlas V rocket. Image credit: Boeing

An artist concept of Boeing's CST-100 spacecraft, under development in collaboration with NASA's Commercial Crew Program. The CST-100 is on track to be processed in C3PF prior to launching to low-Earth orbit atop a United Launch Alliance Atlas V rocket. Image credit: Boeing

The third review covered Boeing’s progress in developing the ground portions of mission operations software.

“It gave us an opportunity to look at how they are moving ahead and to provide input to their products,” Caliendo said. “Innovation and ingenuity of commercial companies will be important, but since NASA will be purchasing a transportation service to the space station, we have requirements that companies eventually will have to meet if they plan on competing for services in the future.”

The design of the CST-100 resembles NASA’s legacy Apollo command and service modules. However, the CST-100 crew module is larger with a greater habitable interior with the capacity to carry up to seven astronauts or four astronauts and cargo, compared to the three sent on the lunar missions of the 1960s and ’70s. It also is designed for reusability for up to ten missions.

The service module is considerably smaller than Apollo because it doesn’t need a propulsion engine capable of getting it back from the moon. That also reduces the amount of equipment and consumables necessary for exclusively low-Earth orbit missions.

Recent analyses of landing systems have taken place in Delamar Dry Lake in Nevada, proving the CST-100 can return to Earth with three parachutes, as was the case in Apollo. Just prior to landing, air bags will deploy on the bottom of the spacecraft allowing a safe touchdown on the ground. To add flexibility, the CST-100 also can return for a water landing.

Boeing currently is on schedule to complete a total of 19 milestones during the base period of its CCiCap agreement. The company will be designing both flight and ground systems hardware, writing and testing code for flight software, developing ground communications systems and performing wind tunnel tests. All of the work leads up to a Critical Design Review scheduled for April 2014 prior to optional qualification and flight demonstration milestones.

“The CDR will be an integrated systems review,” Caliendo said. “We’ll be looking at how the spacecraft is integrated with the launch vehicle, ground systems and everything needed to manufacture, process, launch, fly and return the CST-100.”

Bill Lane, deputy partner manager in CCP’s Partner Integration Office, said the recent reviews are ensuring that NASA’s new initiative remains on track. “These reviews provided the foundation of capsule production, processing and flight operations,” Lane said. “The teams have worked very hard to identify hardware, software and mission operations requirements that will be necessary to ensure flight safety starting from the initial production and continuing through the full life-cycle of the capsule.”

NASA’s new CCiCap agreements follow two previous commercial endeavors by the agency to spur the development of crew transportation systems and subsystems. Work by NASA’s industry partners during CCiCap will set the stage for a crewed orbital demonstration mission around the middle of the decade.

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