NASA News National Aeronautics and Space Administration John F. Kennedy Space Center Kennedy Space Center, Florida 32899 AC 321 867-2468 _________________________________________________________________________ For Release: Oct. 12, 2001 NASA Contact: Bruce Buckingham (321) 867-2468 Boeing Contact: Ann Beech (321) 264-8582 KSC Release No. 113 - 01 ISS PROCESSING HIT HIGH IN FY 2001 Payload processing at KSC hit a record high in the past fiscal year, with eight Space Station components prepared for first flight, a feat not likely to be soon duplicated. "There has never been a year of activity like the last 12 months," said Dave Bethay, Boeing director of ISS Operations. The processing utilized every skill in NASA and Boeing concerned with payload processing, including support from the design centers, Marshall Space Flight Center, Huntington Beach, Canoga Park and the program management center in Houston. The year-long undertaking involved hundreds of KSC workers, with the support of thousands across the country. The components - the Z1 truss, the P6 truss, the U.S. Lab Destiny, the Canadian robotic arm, three Multi-Purpose Logistics Modules, and the Joint Airlock Module (named Quest) - underwent final assembly, system level qualification testing, acceptance testing and pre-flight preparations. "Our payload processing team has once again proven that no challenge is too large or too complex," said Bruce Melnick, Boeing vice president and senior site executive for Florida Operations. "This outstanding achievement would not have been possible without the dedication and professionalism of every member of the team whether they worked in Florida, California, Huntsville or elsewhere. As we move forward with ISS assembly, this team will prove, again and again, how valuable their contribution is to the safety of our astronauts and the Human Space Flight Program." Requiring the most time for processing were the P6 truss and the Destiny module. "Both are exceptionally complex with a requirement for very high reliability," said Bethay. "The P6 provides primary power and cooling for the Station and includes the large solar wings. Destiny is the centerpiece of the Station with command and control capabilities and a unique laboratory for experiments. "Yet each component brings something completely new to the program. P6 had the solar array wings and thermal radiators; Destiny is the brains of the station with a one-of-a-kind research facility; the Canadian Robotic arm is a wonder of new technology; and Quest needed to provide access to space for both U.S. and Russian crew members utilizing their own space suits." The MPLMs presented their own challenge. They were built to deliver racks of equipment, supplies and experiments to the Space Station. On orbit, the racks can be floated through the MPLM and onto the Station, and vice versa. On Earth, a different method is needed. To easily move the supplies into and out of the modules, Boeing engineers designed and built a rack insertion device. Controlled remotely, the device's robot-like arm grasps the racks and moves them into the modules, placing the racks along the module walls. "Exercising new processes for cargo and MPLM processing was challenging enough; doing two the first time through added to the challenge," said Mark Hutchins, Boeing resupply/return technical lead. "The people made the difference. We're now challenging ourselves. Process improvement initiatives are going full throttle." At this date, missions targeted for 2002 involve delivery of six elements to the Space Station, including three trusses and the Mobile Base System that joins the Canadarm2 as part of the Mobile Servicing System. Challenges for the processing team, according to Hutchins, range from use of late-access equipment in the Payload Changeout Room at the pad, and a series of tests on a Shuttle convoy vehicle assuring it works properly to protect cold science returning from the Space Station. --- end ---