STS-123

STS-123

The launch of STS-123, at 06:28 UTC on 11 March 2008.
Mission type ISS assembly
Operator NASA
COSPAR ID 2008-009A
SATCAT № 32699
Mission duration 15 days, 18 hours, 12 minutes, 27 seconds
Distance travelled 10,585,900 kilometres (6,577,800 mi)
Orbits completed 250
Spacecraft properties
Spacecraft Space Shuttle Endeavour
Launch mass 122,364 kilograms (269,767 lb)
Landing mass 94,158 kilograms (207,582 lb)
Crew
Crew size 7
Members Dominic Gorie
Gregory H. Johnson
Robert L. Behnken
Michael Foreman
Richard M. Linnehan
Takao Doi
Launching Garrett Reisman
Landing Léopold Eyharts
Start of mission
Launch date 11 March 2008, 06:28:14 (2008-03-11UTC06:28:14Z) UTC[1]
Launch site Kennedy LC-39A
End of mission
Landing date 27 March 2008, 00:40:41 (2008-03-27UTC00:40:42Z) UTC
Landing site Kennedy SLF Runway 15
Orbital parameters
Reference system Geocentric
Regime Low Earth
Perigee 336 kilometers (209 mi)
Apogee 346 kilometers (215 mi)
Inclination 51.6 degrees
Period 91.6 minutes
Docking with ISS
Docking port PMA-2
(Harmony forward)
Docking date 13 March 2008, 03:49 UTC
Undocking date 26 March 2008, 00:25 UTC
Time docked 11 days, 20 hours, 36 minutes


Front row (L-R) Johnson, pilot; Gorie, commander. Back row (L-R) Linnehan, Behnken, Reisman, Foreman and Doi, mission specialists.


Space Shuttle program
 STS-122 STS-124

STS-123 was a Space Shuttle mission to the International Space Station (ISS) which was flown by Space Shuttle Endeavour. STS-123 was the 1J/A ISS assembly mission. The original launch target date was 14 February 2008 but after the delay of STS-122, the shuttle was launched on 11 March 2008. It was the twenty-fifth shuttle mission to visit the ISS, and delivered the first module of the Japanese laboratory, Japanese Experiment Module (Kibō), and the Canadian Special Purpose Dexterous Manipulator, (SPDM) Dextre robotics system to the station. The mission duration was 15 days and 18 hours, and it was the first mission to fully utilize the Station-to-Shuttle Power Transfer System (SSPTS), allowing space station power to augment the shuttle power systems. The mission set a record for a shuttle's longest stay at the ISS.[2]

Crew

Position Launching Astronaut Landing Astronaut
Commander United States Dominic Gorie
Fourth spaceflight
Pilot United States Gregory H. Johnson
First spaceflight
Mission Specialist 1 United States Robert L. Behnken
First spaceflight
Mission Specialist 2 United States Michael Foreman
First spaceflight
Mission Specialist 3 United States Richard M. Linnehan
Fourth spaceflight
Mission Specialist 4 Japan Takao Doi, JAXA
Second spaceflight
Mission Specialist 5 United States Garrett Reisman
Expedition 16
First spaceflight
ISS Flight Engineer
France Léopold Eyharts, ESA
Expedition 16
Second spaceflight
ISS Flight Engineer

Mission payloads

JEM Kibo ELM-PS in the Space Station Processing Facility
JEM Kibo ELM-PS and DEXTR on ISS after STS-123
Location Cargo Mass
Bay 1–2 Orbiter Docking System
EMU 3003 / EMU 3004
1,800 kilograms (4,000 lb)
~260 kilograms (570 lb)
Bay 3P Shuttle Power
Distribution Unit (SPDU)
~100 kilograms (220 lb)
Bay 3S Canadarm2 Yaw Joint 336 kilograms (741 lb)
Bay 4P MISSE PEC 6a 103 kilograms (227 lb)
Bay 4S Direct Current Switching Unit (DCSU) 363 kilograms (800 lb)
Bay 5P MISSE PEC 6b 103 kilograms (227 lb)
Bay 5S Direct Current Switching Unit (DCSU) 363 kilograms (800 lb)
Bay 6S Standard Interface Panels ?
Bay 7–8 Dextre on Spacelab Pallet 3,485 kilograms (7,683 lb)
Bay 9P ECSH (EVA Cargo Stowage) on APC ~100 kilograms (220 lb)
Bay 10–12 Kibo ELM-PS 8,484 kilograms (18,704 lb)
Bay 11S Standard Interface Panels ?
Bay 13P Lightweight adapter plane for MISSE 244 kilograms (538 lb)
Bay 13S USAF RIGEX experiment 315 kilograms (694 lb)
Starboard Sill Orbiter Boom Sensor System ~450 kilograms (990 lb)
Port Sill Canadarm 410 kilograms (900 lb)
Total: 16,916 kilograms (37,293 lb)

STS-123 delivered the pressurized section of the Japanese Experiment Logistics Module (ELM-PS) as well as the Special Purpose Dexterous Manipulator (SPDM) to the International Space Station. The SPDM was delivered disassembled on a Spacelab Pallet (SLP) and assembled during three spacewalks once it was at the station.

Shuttle processing

In August 2007, STS-123 crew members participated in crew equipment interface tests for the ELM-PS at Kennedy Space Center.[3] Processing continued on schedule for Endeavour's launch in early 2008. NASA engineers applied the same ECO sensor modifications used on STS-122's external tank, to Endeavour's tank. In January, a HEPA filter contamination issue was discovered, but was resolved and with no impact to the mission.[4]

On 11 February 2008, Endeavour was "rolled over" to the Vehicle Assembly Building in preparation for mating with the external tank and solid rocket boosters.[4] On 13 February 2008, Endeavour was successfully mated with its external tank and solid rocket boosters, and was rolled out to Launch Pad 39A in the early hours of 18 February 2008, for its planned launch on 11 March 2008.[5][6] The Terminal Countdown Demonstration Test, a full dress rehearsal for launch with the crew, took place 23–25 February 2008.[7]

Mission background

The USAF Thunderbirds display team performs a flypast of the STS-123 stack, in commemoration of NASA's 50th anniversary.

The mission marked:

Mission timeline

Flight days are based on the days as experienced by the astronauts, who are generally in a day-and-night pattern that is not equal to that of the launch site. The first flight day is the day of launch for the astronauts. That day started at the launch site on 10 March 2008 (local time), with the actual launch in the early hours of the 11th and the astronauts going to bed several hours after launch. 10 March 2008 is called flight day 1 by NASA, even though the actual mission launched on 11 March.

11 March (Flight day 1, Launch)

Wikinews has related news: Space Shuttle Endeavour launches for mission STS-123

Endeavour launched on time at 02:28:14 EDT (06:28:14 UTC) early into the night of 11 March 2008, from Launch Complex 39A at the Kennedy Space Center.

The Flash Evaporator System switched from its primary controller to the backup controller during launch, and instrumentation for a few left-side control thrusters was lost due to a card failure. These anomalies were not expected to affect the mission.[9]

12 March (Flight day 2)

The shuttle closed in on the space station. The crew used a 50 ft (15 m) laser-tipped boom to inspect its wings and nose for any sign of launch damage. The inspection has been standard procedure ever since the 2003 Columbia accident. Flight director Mike Moses said a quick look at the images the astronauts beamed down to Earth revealed no signs of trouble.

In addition to performing the inspection, the astronauts also prepared their spacesuits for the five planned spacewalks and gathered the tools they would need for the docking.[10]

13 March (Flight day 3)

The pallet with Dextre is temporarily docked to the Mobile Base Station.

Endeavour's commander, Dominic Gorie, guided the shuttle through a 360-degree backflip, known as the rendezvous pitch maneuver, to allow for full photographic surveillance of the thermal tiles on the space shuttle's belly before docking with the space station.[11] Docking occurred at 03:49 UTC and the hatches between the two spacecraft were opened at 05:36 UTC on.[12] After docking the pallet carrying Dextre was moved to the Payload ORU Accommodation (POA) of the Mobile Base Station (MSB) by Canadarm.

14 March (Flight day 4)

Astronaut Linnehan "flies" towards Reisman during the first EVA
The Kibo ELM-PS as installed on Harmony

Spacewalkers Richard Linnehan and Garrett Reisman worked on installing Dextre. However, the Spacelab pallet carrying the SPDM would not power up.[13] Engineers on the ground tried a software patch, though later suspected a design flaw in Dextre's temporary power cable caused the issue.[14]

Crew members on board Endeavour used a robotic arm to remove the Japanese Logistics Module – Pressurized Section (JLP) from Endeavour's cargo bay and attach it to the space station. The JLP was attached to its interim location on the Harmony module at 08:06 UTC.[15]

15 March (Flight day 5)

The crew spent time outfitting the Japanese Logistics Module, transferring supplies and equipment into it from space shuttle Endeavour. The station’s arm operators grappled the Canadian-built Dextre Friday at 01:59 UTC. Canadarm2 successfully powered up Dextre 11 minutes later. Mission Specialists Rick Linnehan and Mike Foreman spent the night in the station’s Quest Airlock in preparation for the second spacewalk of the mission.[16]

16 March (Flight day 6)

Dextre was put together today during the second spacewalk of STS-123. Mission Specialists Richard Linnehan and Mike Foreman completed their 7-hour, 8-minute orbital stroll Sunday at 06:57 UTC. The spacewalkers encountered some difficulty removing two bolts that secured the robot arm during transport, and had to resort to using a prybar to remove them.

Throughout the day, the station and shuttle crew members continued outfitting the Japanese Logistics Module – Pressurized Section.[17]

17 March (Flight day 7)

The crews continued outfitting the Japanese Logistics Module – Pressurized Section, transferring supplies and equipment into it from Endeavour, as well as configuring racks inside the module. The crews tested the brakes in the robotic system’s arms. One of the joints in the arm seemed to be operating right on the required margin. Engineers expressed confidence that this issue would be resolved

Rick Linnehan and Robert Behnken ended their day by “camping out” in the station’s Quest Airlock.[18]

18 March (Flight day 8)

Linnehan and Behnken began the third EVA at 23:51 UTC. The excursion lasted six hours and 53 minutes. Linnehan and Behnken installed a spare parts platform, cameras, and tool handling assembly for Dextre. Among other tasks, they also checked out and calibrated Dextre’s end effector and attached critical spare parts to an External Stowage Platform.

They were unable to attach a materials science experiment to the Columbus module due to issues with the attachment fitting, but may have another opportunity later in the mission.[19]

19 March (Flight day 9)

In a day highlighted by robotics activity, Dextre was attached to a power and data grapple fixture located on the U.S. laboratory Destiny. Canadarm2 grabbed the pallet that secured Dextre during its journey to the orbital outpost and returned the pallet to space shuttle Endeavour’s payload bay for the trip back to Earth.

The station and shuttle crews also prepared hardware to be used in a shuttle tile repair test on the next spacewalk, and got some much needed off duty time.[20]

20 March (Flight day 10)

The crews of space shuttle Endeavour and the International Space Station got some off-duty time at the beginning of their 10th day in orbit. They also spoke to Japanese Prime Minister Yasuo Fukuda and participated in interviews with U.S. media.

The astronauts spent the remainder of their day configuring tools for the fourth STS-123 spacewalk and reviewing spacewalk procedures. Before going to sleep, Mission Specialists Robert L. Behnken and Mike Foreman entered the station’s Quest airlock for the standard “camp out".[21]

21 March (Flight day 11)

Mission Specialists Robert L. Behnken and Mike Foreman completed the fourth STS-123 spacewalk at 04:28 UTC, spending six hours and 24 minutes on the excursion. The two shuttle crew members replaced a failed Remote Power Control Module — essentially a circuit breaker — on the station’s truss. However, there were difficulties removing a power connector from the Z1 truss.

With Mission Specialist Rick Linnehan coordinating their activities from inside the orbiting complex, the spacewalkers also tested a repair method for damaged heat resistant tiles on the space shuttle. This technique used a caulk-gun-like tool named the Tile Repair Ablator Dispenser to dispense a material called Shuttle Tile Ablator-54 into purposely damaged heat shield tiles. The sample tiles will be returned to Earth to undergo extensive testing on the ground.[22]

22 March (Flight day 12)

The STS-123 crew performed the final inspection of space shuttle Endeavour’s heat shield using the shuttle’s robot arm and the Orbiter Boom Sensor System (OBSS). Gorie, Johnson, and Doi surveyed the orbiter’s wings and nose cap to ensure that no damage had occurred to the tiles that protect Endeavour from the heat of reentry.

The crews spent the remainder of their day configuring tools and reviewing procedures for the flight’s final spacewalk. This included the standard “camp out” in the station’s Quest airlock for Behnken and Foreman.[23]

23 March (Flight day 13)

Foreman helps tie down the OBSS

Michael Foreman and Robert Behnken completed their six-hour EVA at 02:36 (UTC), attaching a 50 ft (15 m) inspection pole to the international space station and completing other chores. Foreman and Behnken hooked an extra-long power cord to the inspection pole, to keep its lasers and cameras warm for the next two months, then secured the boom to the outside of the space station.

After finishing that task, Foreman inspected a jammed rotating joint that has restricted the use of a set of solar wings for months. NASA hopes to have a plan for dealing with the jammed joint by the end of the month, space station flight director Dana Weigel said.[24]

24 March (Flight day 14)

The crews of space shuttle Endeavour and the International Space Station completed their last full day together.

Much of the astronauts’ morning was off-duty time. Afterward, the crews wrapped up transfers of equipment and supplies between Endeavour and the station, and out the tools needed for undocking and subsequent activities.

The STS-123 and Expedition 16 crews also held a joint crew news conference, answering questions from members of the media on Earth.[25]

25 March (Flight day 15)

ISS as seen from the departing space shuttle

The hatches between Endeavour and the International Space Station closed around 21:49 UTC, ending a 12 day stay at the ISS, with a scheduled undocking of 23:57 UTC. Because of problems with a command sent to solar arrays in the ISS, the undocking was delayed 28 minutes and occurred at 00:25 UTC.

26 March (Flight day 16)

The crew of space shuttle Endeavour spent Tuesday getting ready for its journey home and the end of the STS-123 mission. Early in their day, the crew members performed a test of the thrusters that will be used to position the orbiter for re-entry and the control surfaces for its flight through the atmosphere.

The STS-123 astronauts also set up the recumbent seat for Mission Specialist Léopold Eyharts, who joined the crew of Endeavour on the International Space Station. The recumbent seat is a special seat designed to reduce the stress of gravity on those who have spent long periods of time in the weightless environment of space.[26]

27 March (Flight day 17, landing)

Endeavour rolls out after touchdown. The yellow flame is from the shuttle's APUs and is clearly visible in the pitch black night. Space Shuttles do not have anti collision lights, navigation lights, or landing lights

Flight controllers gave a no-go on de-orbit for the first landing opportunity at 23:05 UTC (19:05 EDT), due to unfavorable weather conditions at the Shuttle Landing Facility at Kennedy Space Center.[27]

Weather conditions were acceptable for the second landing opportunity, planned for 00:39 UTC 27 March 2008 (20:39 EDT 26 March 2008). The landing occurred at the Shuttle Landing Facility, and was the sixteenth night landing of the Space Shuttle at KSC, 22nd Shuttle night landing overall. Coincidentally, this mission also began with a night launch.

The second landing opportunity was a complete success with main gear touchdown occurring at 20:39:08 EDT (00:39:08 UTC 27 March 2008), nose gear touchdown at 20:39:17 EDT (00:39:17 UTC 27 March 2008), and wheels stop at 20:40:41 EDT (00:40:41 UTC 27 March 2008), completing the STS-123 crew's 16 days, 14 hours, 12 minutes, 27 seconds space voyage.

The exhaust produced by the Hydrazine Gas Generator APUs on either side of Endeavour's tail fin created concern among some observers that something was amiss, as it appeared more pronounced than usual in NASA's visual light cameras.[28] However, this exhaust is normal and expected. The three Hydrazine Gas Generator APUs are activated five minutes before the deorbit burn and are running for five minutes after wheels stop. The mono-propellant hydrazine changes phase due to a catalyst and reaches 1,700 °F (927 °C).[29] The hydraulic power is needed for the shuttle's rudder/speed brake, elevons, body flap and landing gear during descent, and for the main engine nozzles' gimballing during ascent. Each of the Solid Rocket Boosters have two similar Hydrazine Gas Generators for their nozzle gimballing.

Extra-vehicular activity

Five spacewalks took place during the flight.[30][31] The cumulative time in extra-vehicular activity during the mission was 33 hours and 28 minutes.

EVA Spacewalkers Start (UTC) End Duration Mission
EVA 1 Richard M. Linnehan
Garrett E. Reisman
14 March 2008
01:18
14 March 2008
08:19
7 hours, 01 minutes Installation of ELM-PS and Dextre assembly.
EVA 2 Linnehan
Michael J. Foreman
15 March 2008
23:49
16 March 2008
06:57
7 hours, 08 minutes Dextre assembly (cont.).
EVA 3 Linnehan
Robert L. Behnken
17 March 2008
22:51
18 March 2008
05:44
6 hours, 53 minutes Dextre assembly (cont.), prepare the Spacelab Logistics Pallet for landing, transfer a spare Canadarm2 yaw join, transfer two spare Direct Current Switching Units Mission and unsuccessful attempted installation of the MISSE 6 experiment on the exterior of the Columbus module.
EVA 4 Behnken
Foreman
20 March 2008
22:04
21 March 2008
04:28
6 hours, 24 minutes Replacement of Remote Power Control Module and test of tile repair material. Removal of a sock covering the left hand of Dextre and some launch locks on Harmony. Release launch locks on Harmony’s port and nadir Common Berthing Mechanisms
EVA 5 Behnken
Foreman
22 March 2008
20:34
23 March 2008
02:36
6 hours, 02 minutes Storage of Shuttle Orbiter Boom Sensor System on the Station, installation of ELM‐PS trunnion covers, removed five covers from the starboard SARJ and performed inspections, captured digital photography, successful installation of the MISSE 6 experiment on the exterior of the Columbus module and debris collection.

Wake-up calls

NASA began a tradition of playing music to astronauts during the Gemini program, which was first used to wake up a flight crew during Apollo 15. Each track is specially chosen, often by their families, and usually has a special meaning to an individual member of the crew, or is applicable to their daily activities.[32]

Flight Day Song Artist/Composer Played for Links
Day 2 "Linus & Lucy" Vince Guaraldi Michael Foreman wav mp3
Transcript
Day 3 "Godzilla" Blue Öyster Cult Takao Doi wav mp3
Transcript
Day 4 "Saturday Night" the Bay City Rollers Garrett Reisman wav mp3
Transcript
Day 5 "Turn! Turn! Turn! (To Everything There is a Season)" The Byrds Rick Linnehan wav mp3
Transcript
Day 6 "We're Going to be Friends" The White Stripes Robert L Behnken wav mp3
Transcript
Day 7 "God of Wonders" Caedmon's Call Dominic Gorie wav mp3
Transcript
Day 8 "Sharing the World" Gregory H Johnson wav mp3
Transcript
Day 9 "Hoshi Tsumugi no Uta" Ayaka Hirahara Takao Doi wav mp3
Transcript
Day 10 "Burning Love" Elvis Presley Mike Foreman wav mp3
Transcript
Day 11 "Blue Sky" Big Head Todd and the Monsters Rick Linnehan wav mp3
Transcript
Day 12 "Enter Sandman" Metallica Robert L Behnken wav mp3
Transcript
Day 13 "I Loved Her First" Heartland Dominic Gorie wav mp3
Transcript
Day 14 "I Am Free" Friendswood United Methodist Church Mike Foreman wav mp3
Transcript
Day 15 "Home" Yuko Doi Takao Doi wav mp3
Transcript
Day 16 "Con Te Partiro" Andrea Bocelli Léopold Eyharts wav mp3
Transcript
Day 17 "Drops of Jupiter" Train Gregory H Johnson wav mp3
Transcript

Contingency mission

STS-324 was the designation given to the Contingency Shuttle Crew Support mission which would have been launched in the event Space Shuttle Endeavour became disabled during STS-123.[33] It would have been a modified version of the STS-124 mission and would have involved the launch date being brought forward. The crew for this mission would have been a four-person subset of the full STS-124 crew.[33]

Media

Space Shuttle Endeavour launches from launch pad 39A at Kennedy Space Center as part of the STS-123 mission

References

 This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

  1. NASA (2008). "Space Shuttle STS-123". National Aeronautics and Space Administration. Retrieved 26 January 2008.
  2. Tariq Malik (26 March 2008). "Space Shuttle Lands Safely After Construction Marathon". Space.com. Retrieved 30 November 2008.
  3. JAXA (2007). "Crew Equipment Interface Test (CEIT) for Kibo". Japan Aerospace Exploration Agency.
  4. 1 2 Chris Bergin (2008). "Endeavour rolls to VAB". NASA Spaceflight.com. Retrieved 11 February 2008.
  5. Craig Covault (2008). "Endeavour Headed To Launch Pad Feb. 18". Aviation Week. Retrieved 13 February 2008.
  6. NASA (2008). "NASA's Space Shuttle Endeavour to Move to Launch Pad Monday". NASA. Retrieved 13 February 2008.
  7. Katherine Trinidad (2008). "Space Shuttle Endeavour Arrives at Launch Pad, Countdown Test Set". NASA. Retrieved 20 February 2008.
  8. "Mission Quick-Look 1". CBS. 24 February 2008. Retrieved 11 March 2008.
  9. "STS-123 Shuttle Report , Mission Status Center". Spaceflight Now. Retrieved 22 August 2010.
  10. "Endeavour set to dock at station". Archive.columbiatribune.com. 12 March 2008. Retrieved 22 August 2010.
  11. Endeavour's astronauts to begin spacewalk Archived 21 March 2008 at the Wayback Machine.
  12. "STS-123 Mission Control Center Status Report #05". NASA. 13 March 2008.
  13. "STS-123 Mission Control Center Status Report #06". NASA. 13 March 2008.
  14. Space station's new robot on blink Archived 21 May 2008 at the Wayback Machine.
  15. "STS-123 Mission Control Center Status Report #07". NASA. 14 March 2008.
  16. "Astronauts Enter JLP, Prepare for Spacewalk". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  17. "Crew Assembles Dextre During Second Spacewalk". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  18. "Astronauts Continue Outfitting JLP Today". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  19. Astronauts outfit robot with tool belt, cameras Archived 19 March 2008 at the Wayback Machine.
  20. "Dextre Moved to Destiny Lab, Crew Enjoys Time Off". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  21. "Astronauts Prepare for Fourth Spacewalk". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  22. "Endeavour Crew Tests Repair Method, Prepares for Inspection". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  23. "Astronauts Prepare for Final STS-123 Spacewalk". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  24. Endeavour crew rests before trip home Archived 24 March 2008 at the Wayback Machine.
  25. "Crews End Last Full Day Together". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  26. "STS-123 Continues Landing Preparations". Nasa.gov. 18 August 2010. Retrieved 22 August 2010.
  27. "NASA's STS-123 Landing Blog". Nasa.gov. 26 May 2010. Retrieved 22 August 2010.
  28. "STS-123 Shuttle Report, Shuttle Endeavour returns from space". Spaceflight Now. Retrieved 22 August 2010.
  29. "Hydrazine Gas Generator performance on Space Shuttle" (PDF). Retrieved 22 August 2010.
  30. Dean, Brandi (29 January 2008). "All Aboard for STS-123: The Station Goes Global". Johnson Space Center. Retrieved 26 January 2012.
  31. "NASA Sets Briefings to Preview March Space Shuttle Mission, STS-123". NASA. 29 January 2008. Retrieved 26 January 2012.
  32. Fries, Colin (25 June 2007). "Chronology of Wakeup Calls" (PDF). NASA. Retrieved 13 August 2007.
  33. 1 2 Bergin, Chris (15 April 2007). "NASA sets new launch date targets through to STS-124". NASASpaceflight. Retrieved 21 August 2007.

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