STS-27: Difference between revisions
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The problem was compounded by the fact that the crew was prohibited from using their standard method of sending images to ground control due to the classified nature of the mission. The crew was forced to use a slow, [[Encryption|encrypted]] transmission method, likely causing the images NASA engineers received to be of poor quality, causing them to think the damage was actually "just lights and shadows". They told the crew the damage did not look any more severe than on past missions.<ref name="Harwood 2009-03-27"/> |
The problem was compounded by the fact that the crew was prohibited from using their standard method of sending images to ground control due to the classified nature of the mission. The crew was forced to use a slow, [[Encryption|encrypted]] transmission method, likely causing the images NASA engineers received to be of poor quality, causing them to think the damage was actually "just lights and shadows". They told the crew the damage did not look any more severe than on past missions.<ref name="Harwood 2009-03-27"/> |
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One report describes the crew as " |
One report describes the crew as "infuriated" that [[Christopher C. Kraft Jr. Mission Control Center|Mission Control Center]] seemed unconcerned.<ref name="Astronautix STS-27">{{cite web |url=http://www.astronautix.com/s/sts-27.html|title=STS-27|last=Wade|first=Mark|publisher=Astronautix|url-status=live|archive-url=https://web.archive.org/web/20200128164705/http://www.astronautix.com/s/sts-27.html|archive-date=2020-01-28|access-date=2021-01-06}}</ref><ref name="Mullane 2006">{{cite book|last1=Mullane|first1=Mike|author-link=Mike Mullane|url=https://books.google.com/books?id=fvWZsjorXJIC |title=Riding Rockets: The Outrageous Tales of a Space Shuttle Astronaut|location=New York, New York|publisher=Charles Scribner's Sons|year=2006|page=290|isbn=978-0743296762}}</ref> When Gibson saw the damage he thought to himself, "We are going to die";<ref name="Tell Me A Story 2015-04-25"/> he and others did not believe that the shuttle would survive [[Atmospheric reentry|reentry]]. Gibson advised the crew to relax because "No use dying all tensed-up", he said,<ref name="AmericaSpace 2012-01-30"/><ref name="AmericaSpace 2018-12-09"/> but if instruments indicated that the shuttle was disintegrating, Gibson planned to "tell mission control what I thought of their analysis" in the remaining seconds before his death.<ref name="Harwood 2009-03-27"/><ref name="AmericaSpace 2012-01-30"/> |
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Mullane recalled that while filming the reentry through the upper deck's overhead windows, "I had visions of molten aluminum being smeared backwards, like rain on a windshield". Although the shuttle landed safely "The damage was much worse than any of us had expected", he wrote.<ref name="AmericaSpace 2012-01-30"/> Upon landing, the magnitude of the damage to the shuttle astonished NASA; over 700 damaged tiles were noted, and one tile was missing altogether. The missing tile had been located over the aluminum mounting plate for an [[L band|L-band]] antenna (one of six, part of the [[Tactical air navigation system]] (TACAN) landing system), perhaps preventing a burn-through of the sort that would ultimately [[Space Shuttle Columbia disaster|doom ''Columbia'' in 2003]].<ref name="Spacefacts STS-27"/><ref name="Harwood 2009-03-27"/> There was almost no damage present on the orbiter's left side. STS-27 ''Atlantis'' was the most damaged launch-entry vehicle to return to Earth successfully.<ref name="NASASpaceflight 2011-07-02">{{cite news|last=Gebhardt|first=Chris|url=https://www.nasaspaceflight.com/2011/07/ov-104atlantis-international-vehicle-changing-world/|title=OV-104/ATLANTIS: An International Vehicle for a Changing World |
Mullane recalled that while filming the reentry through the upper deck's overhead windows, "I had visions of molten aluminum being smeared backwards, like rain on a windshield". Although the shuttle landed safely "The damage was much worse than any of us had expected", he wrote.<ref name="AmericaSpace 2012-01-30"/> Upon landing, the magnitude of the damage to the shuttle astonished NASA; over 700 damaged tiles were noted, and one tile was missing altogether. The missing tile had been located over the aluminum mounting plate for an [[L band|L-band]] antenna (one of six, part of the [[Tactical air navigation system]] (TACAN) landing system), perhaps preventing a burn-through of the sort that would ultimately [[Space Shuttle Columbia disaster|doom ''Columbia'' in 2003]].<ref name="Spacefacts STS-27"/><ref name="Harwood 2009-03-27"/> There was almost no damage present on the orbiter's left side. STS-27 ''Atlantis'' was the most damaged launch-entry vehicle to return to Earth successfully.<ref name="NASASpaceflight 2011-07-02">{{cite news|last=Gebhardt|first=Chris|url=https://www.nasaspaceflight.com/2011/07/ov-104atlantis-international-vehicle-changing-world/|title=OV-104/ATLANTIS: An International Vehicle for a Changing World |
Revision as of 14:42, 2 February 2022
Names | Space Transportation System-27 STS-27R |
---|---|
Mission type | DoD satellite deployment |
Operator | NASA |
COSPAR ID | 1988-106A |
SATCAT no. | 19670 |
Mission duration | 4 days, 9 hours, 5 minutes, 37 seconds (achieved) |
Distance travelled | 2,916,252 km (1,812,075 mi) |
Orbits completed | 68 |
Spacecraft properties | |
Spacecraft | Space Shuttle Atlantis |
Payload mass | 14,500 kg (32,000 lb) |
Crew | |
Crew size | 5 |
Members | |
Start of mission | |
Launch date | 2 December 1988, 14:30:34 UTC |
Rocket | Space Shuttle Atlantis |
Launch site | Kennedy Space Center, LC-39B |
Contractor | Rockwell International |
End of mission | |
Landing date | 6 December 1988, 23:36:11 UTC |
Landing site | Edwards Air Force Base, Runway 17 |
Orbital parameters | |
Reference system | Geocentric orbit |
Regime | Low Earth orbit |
Perigee altitude | 437 km (272 mi) |
Apogee altitude | 447 km (278 mi) |
Inclination | 57.00° |
Period | 93.40 minutes |
STS-27 mission patch Back row: William M. Shepherd, Richard M. Mullane Front row: Guy S. Gardner, Robert L. Gibson, Jerry L. Ross |
STS-27 was the 27th NASA Space Shuttle mission, and the third flight of Space Shuttle Atlantis. Launching on 2 December 1988 on a four-day mission, it was the second shuttle flight after the Space Shuttle Challenger disaster of January 1986. STS-27 carried a classified payload for the U.S. Department of Defense, ultimately determined to be a Lacrosse surveillance satellite. The vessel's heat shielding was substantially damaged during lift-off, and crew members thought that they would die during reentry.[1][2] This was a situation that was similar to the one that would prove fatal 15 years later on STS-107. Compared to the damage that Columbia sustained on STS-107, Atlantis experienced more extensive damage. However, this was over less critical areas and the missing tile was over an antenna which gave extra protection to the spacecraft structure (and not part of a wing as cited initially). The mission landed successfully, although intense heat damage needed to be repaired.
The mission is technically designated STS-27R, as the original STS-27 designator belonged to STS-51I, the twentieth Space Shuttle mission. Official documentation for that mission contained the designator STS-27 throughout. The R stood for Recycled or Re-manifested. As STS-51L was designated STS-33, future flights with the STS-26 through STS-33 designators would require the 'R' in their documentation to avoid conflicts in tracking data from one mission to another.[3]
Crew
Position | Astronaut | |
---|---|---|
Commander | Robert L. Gibson Third spaceflight | |
Pilot | Guy S. Gardner First spaceflight | |
Mission Specialist 1 | Richard M. Mullane Second spaceflight | |
Mission Specialist 2 | Jerry L. Ross Second spaceflight | |
Mission Specialist 3 | William M. Shepherd First spaceflight |
Crew seating arrangements
Seat[4] | Launch | Landing | Seats 1–4 are on the Flight Deck. Seats 5–7 are on the Middeck. |
---|---|---|---|
S1 | Gibson | Gibson | |
S2 | Gardner | Gardner | |
S3 | Mullane | Shepherd | |
S4 | Ross | Ross | |
S5 | Shepherd | Mullane |
Mission summary
The Space Shuttle Atlantis (OV-104), at the time the youngest in NASA's shuttle fleet, made its third flight on a classified mission for the United States Department of Defense (DoD). It deployed a single satellite, USA-34.[5] NASA archival information has identified USA-34 as Lacrosse 1, a side-looking radar, all-weather surveillance satellite for the U.S. National Reconnaissance Office (NRO) and the Central Intelligence Agency (CIA).[6]
The mission was originally scheduled to launch on 1 December 1988, but the launch was postponed one day because of cloud cover and strong wind conditions at the launch site. Liftoff occurred from Launch Complex 39, Pad B (LC-39B) at Kennedy Space Center, Florida, on 2 December 1988 at 09:30 EST. Atlantis touched down on 6 December 1988 on Runway 17 at Edwards Air Force Base, California, at 18:35 EST. The total mission elapsed time at wheels-stop was 4 days, 9 hours and 6 minutes. Atlantis was returned to the Kennedy Space Center on 13 December 1988 and moved into an OPF on 14 December 1988.
There has been speculation that an EVA was conducted during this mission.[7] Interviews with members of the crew several years after the flight confirmed there had been a problem with the satellite upon release, whereupon a rendezvous with the satellite was effected and repairs performed.[8][9] These unspecified repairs could have necessitated a spacewalk, likely performed by Ross and Shepherd. As a classified DoD mission, details or confirmation of such an EVA remain unreleased.[7]
The day after Atlantis landed, the 1988 Armenian earthquake killed tens of thousands in the Soviet Union. At an astronaut meeting Gibson said, "I know many of you may have been very curious about our classified payload. While I can't go into its design features, I can say Armenia was its first target!" As military astronauts laughed and civilians cringed, Gibson continued, "And we only had the weapon set on stun!"[8]
Tile damage
Atlantis' Thermal Protection System tiles sustained extensive damage during the flight. Ablative insulating material from the right-hand solid rocket booster nose cap had hit the orbiter about 85 seconds into the flight, as seen in footage of the ascent.[1] The STS-27 crew also commented that white material was observed on the windshield at various times during ascent.[10] The crew made an inspection of the shuttle's impacted starboard side using the shuttle's Canadarm robot arm, but the limited resolution and range of the cameras made it impossible to determine the full extent of the tile damage.
The problem was compounded by the fact that the crew was prohibited from using their standard method of sending images to ground control due to the classified nature of the mission. The crew was forced to use a slow, encrypted transmission method, likely causing the images NASA engineers received to be of poor quality, causing them to think the damage was actually "just lights and shadows". They told the crew the damage did not look any more severe than on past missions.[1]
One report describes the crew as "infuriated" that Mission Control Center seemed unconcerned.[11][12] When Gibson saw the damage he thought to himself, "We are going to die";[2] he and others did not believe that the shuttle would survive reentry. Gibson advised the crew to relax because "No use dying all tensed-up", he said,[8][9] but if instruments indicated that the shuttle was disintegrating, Gibson planned to "tell mission control what I thought of their analysis" in the remaining seconds before his death.[1][8]
Mullane recalled that while filming the reentry through the upper deck's overhead windows, "I had visions of molten aluminum being smeared backwards, like rain on a windshield". Although the shuttle landed safely "The damage was much worse than any of us had expected", he wrote.[8] Upon landing, the magnitude of the damage to the shuttle astonished NASA; over 700 damaged tiles were noted, and one tile was missing altogether. The missing tile had been located over the aluminum mounting plate for an L-band antenna (one of six, part of the Tactical air navigation system (TACAN) landing system), perhaps preventing a burn-through of the sort that would ultimately doom Columbia in 2003.[4][1] There was almost no damage present on the orbiter's left side. STS-27 Atlantis was the most damaged launch-entry vehicle to return to Earth successfully.[13] Gibson believed that had the shuttle been destroyed, Congress would have ended the shuttle program given that only one successful mission had occurred between his flight and the loss of Challenger.[8]
A review team investigated the cause beginning with a detailed inspection of the Atlantis TPS damage, and a review of related inspection reports to establish an in-depth anomaly definition. An exhaustive data review followed to develop a fault tree and several failure scenarios. This and other information gained during the review formed the basis for the team's findings and recommendations.[10]
Wake-up calls
NASA began a tradition of playing music to astronauts during the Project Gemini, and first used music to awaken a flight crew during Apollo 15. Each track is specially chosen, often by the astronauts' families, and usually has a special meaning to an individual member of the crew, or is applicable to their daily activities.[14]
Flight Day | Song | Artist/Composer |
---|---|---|
Day 2 | Army fight song | |
Day 3 | "Rawhide" parody | Dimitri Tiomkin |
Day 4 | "Do You Want to Know a Secret" parody | Mike Cahill |
Gallery
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Atlantis on its launchpad
-
The Brahmaputra River imaged from orbit.
-
Fiji imaged from orbit.
See also
References
- ^ a b c d e Harwood, William (27 March 2009). "Legendary commander tells story of shuttle's close call". Spaceflight Now. Retrieved 1 April 2018.
- ^ a b "Tell Me A Story: Astronaut Hoot Gibson's and Atlantis' Close Call". Kennedy Space Center Visitor Complex. 25 April 2015. This article incorporates text from this source, which is in the public domain.
- ^ Jenkins, Dennis R. (2016). "Chapter 18 - Destiny Fulfilled - The Intended Purpose". Space Shuttle: Developing an Icon - 1972-2013. Vol. III: The Flight Campaign (1 ed.). Forest Lake, Minnesota: Specialty Press. p. 132. ISBN 978-1580072496.
- ^ a b Becker, Joachim. "Spaceflight mission report: STS-27". SPACEFACTS. Archived from the original on 28 September 2020. Retrieved 26 February 2014.
- ^ "NASA - NSSDCA - Spacecraft - Details". nssdc.gsfc.nasa.gov. NASA. This article incorporates text from this source, which is in the public domain.
- ^ "Lacrosse 1". Space Science Data Coordinated Archive. NASA. Archived from the original on 15 August 2020. Retrieved 12 August 2010. This article incorporates text from this source, which is in the public domain.
- ^ a b Cassutt, Michael (August 2009). "Secret Space Shuttles". Air & Space/Smithsonian. Washington, D.C.: Smithsonian Institution. Archived from the original on 6 January 2021.
- ^ a b c d e f Evans, Ben (30 January 2012). "Into the Black: NASA's Secret Shuttle Missions – Part Two". AmericaSpace. Archived from the original on 6 January 2021.
- ^ a b Evans, Ben (9 December 2018). "'Dying All Tensed-Up': 30 Years Since the Troubled Secret Mission of STS-27". AmericaSpace. Archived from the original on 6 January 2021.
- ^ a b STS-27R OV-104 Orbiter TPS Damage Review Team (February 1989). "Summary Report - Volume I" (PDF). NASA. Retrieved 3 July 2011.
{{cite web}}
: CS1 maint: numeric names: authors list (link) This article incorporates text from this source, which is in the public domain. - ^ Wade, Mark. "STS-27". Astronautix. Archived from the original on 28 January 2020. Retrieved 6 January 2021.
- ^ Mullane, Mike (2006). Riding Rockets: The Outrageous Tales of a Space Shuttle Astronaut. New York, New York: Charles Scribner's Sons. p. 290. ISBN 978-0743296762.
- ^ Gebhardt, Chris (2 July 2011). "OV-104/ATLANTIS: An International Vehicle for a Changing World". NASASpaceFlight.com. Archived from the original on 1 December 2020.
- ^ Fries, Colin (13 March 2015). "Chronology of Wakeup Calls" (PDF). History Division. NASA. Archived (PDF) from the original on 5 January 2021. Retrieved 5 January 2021. This article incorporates text from this source, which is in the public domain.