STS-86
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This is a mission of the United States Space Shuttle
Space Shuttle program | |
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Mission Insignia | |
Mission Statistics | |
Mission: | STS-86 |
Shuttle: | Atlantis |
Launch Pad: | 39-A |
Launch: | Launch September 25, 1997 10:34:19 pm EDT. |
Landing: | KSC October 6, 1997 at 5:55 p.m. EDT Runway 15 |
Duration: | 10 days, 19 hours, 22 minutes, 12 seconds. |
Orbit Altitude: | 184 statute miles |
Orbit Inclination: | 51.6 degrees |
Distance Traveled: | 7 million km |
Crew photo | |
Missing image Sts-86_crew.jpg | Previous Mission: STS-85 |
Next Mission: STS-87 |
Contents |
Crew
- James D. Wetherbee (4), Commander
- Michael J. Bloomfield (1), Pilot
- Vladimir G. Titov (5), (RSA) Mission Specialist
- Scott E. Parazynski (2), Mission Specialist
- Jean-Loup Chrétien (3), (CNES) Mission Specialist
- Wendy B. Lawrence (2), Mission Specialist
Launched and stayed on Mir
- David A. Wolf (2), Mission Specialist
Landed and returned from Mir
- C. Michael Foale (4)
NOTE: Wendy B. Lawrence was scheduled to replace C. Michael Foale onboard MIR. However, due to concerns about the minimum size restrictions of the Russian MIR Orlan EVA Spacesuit, her backup David A. Wolf was selected in her place. Wolf was originally scheduled to fly on the STS-89 mission to MIR and join the Mir 24 crew.
Mission Parameters
- Mass:
- Orbiter landing with payload: 114,185 kg
- Payload: 8,375 kg
- Perigee: 354 km
- Apogee: 381 km
- Inclination: 51.6°
- Period: 91.9 min
7th Mir docking mission
- Docked: September 27, 1997, 19:58 UTC
- Undocked: October 3, 1997, 17:28:15 UTC
- Time Docked: 5 days, 21 h, 30 min, 15 s
Space walk
- Parazynski and Titov - EVA 1
- EVA 1 Start: October 1, 1997 - 17:29 UTC
- EVA 1 End: October 1, - 22:30 UTC
- Duration: 5 hours, 01 minutes
Mission Highlights
The 7th Mir Docking mission carries a SPACEHAB double module for a docking with Mir, cargo transfer and an astronaut exchange. The shuttle previously Mir missions were STS-71, STS-74, STS-76, STS-79, STS-81 and STS-84.
Highlights of the 10 day mission include five days of docked operations between Atlantis and Mir and the exchange of crew members Foale and Wolf to continue a permanent American presence of the Russia complex. A spacewalk is scheduled to retrieve the four Mir Environmental Effects Payloads which were attached to the Mir's docking module by Linda Godwin and Rich Clifford during STS-76 to characterize the environment surrounding the Mir space station. Atlantis will carry the SPACEHAB double module to support the transfer of logistics and supplies for Mir and the return of experiment hardware and specimens to Earth.
The seventh Mir docking mission continued the presence of a U.S. astronaut on the Russian space station with the transfer of physician David A. Wolf to Mir. Wolf became the sixth U.S. astronaut in succession to live on Mir to continue Phase 1B of the NASA/Russian Space Agency cooperative effort.
Foale returned to Earth after spending 145 days in space, 134 of them aboard Mir. His estimated mileage logged was 58 million miles (93 million kilometers), making his the second longest U.S. space flight, behind Shannon Lucid's record of 188 days. His stay was marred by a collision June 25 between a Progress resupply vehicle and the station's Spektr module, damaging a radiator and one of four solar arrays on Spektr. The mishap occurred while Mir 23 Commander Vasili Tsibliev was guiding the Progress capsule to a manual docking and depressurized the station. The crew sealed the hatch to the leaking Spektr module, leaving inside FoaleĠs personal effects and several NASA science experiments, and repressurized the remaining modules.
An internal space walk by Tsibliev and Mir 23 Flight Engineer Aleksandr Lazutkin was planned to reconnect power cables to the three undamaged solar arrays, but during a routine medical exam July 13 Tsibliev was found to have an irregular heartbeat. Foale then began training for the space walk, but during one of the training exercises a power cable was inadvertently disconnected, leaving the station without power. On July 21, it was announced that the internal space walk would not be conducted by the Mir 23 crew but their successors on Mir 24. On July 30, NASA announced that Wendy Lawrence, originally assigned to succeed Foale on Mir, was being replaced by Wolf. The change was deemed necessary to allow Wolf to act as a backup crew member for the space walks planned over the next several months to repair Spektr. Unlike Wolf, Lawrence could not fit in the Orlan suit that is used for Russian space walks and she did not undergo space walk training.
Following their arrival at the station Aug. 7, Mir 24 Commander Anatoly Solovyev and Flight Engineer Pavel Vinogradov conducted the internal space walk inside the depressurized Spektr module Aug. 22, reconnecting 11 power cables from the Spektr's solar arrays to a new custom-made hatch for the Spektr. During the space walk, Foale remained inside the Soyuz capsule attached to Mir, in constant communication with the cosmonauts as well as ground controllers.
On Sept. 5, Foale and Solovyev conducted a six-hour external extravehicular activity to survey damage outside Spektr and to try and pinpoint where the breach of the moduleĠs hull occurred. Two undamaged arrays were manually repositioned to better gather solar energy, and a radiation device left previously by Jerry Linenger was retrieved.
Docking of Atlantis and Mir took place at 3:58 p.m. EDT, Sept. 27, with the two mission commanders opening the spacecraft hatches at 5:45 p.m. Wolf officially joined the Mir 24 at noon EDT, Sept. 28. At the same time, Foale became a member of the STS-86 crew and began moving his personal belongings back into Atlantis. Wolf will be replaced by the seventh and last U.S. astronaut to transfer to Mir, Andrew S. W. Thomas, when the orbiter Endeavour docks with the Russian space station during the STS-89 mission in January 1998.
First joint U.S.-Russian extravehicular activity during a Shuttle mission, which was also the 39th in the Space Shuttle program, was conducted by Titov and Parazynski. During the five-hour, one-minute space walk on Oct. 1, the pair affixed a 121 pound (55 kg) Solar Array Cap to the docking module for future use by Mir crew members to seal off the suspected leak in Spektr's hull. Parazynski and Titov also retrieved four Mir Environmental Effects Payloads (MEEPS) from the outside of Mir and tested several components of the Simplified Aid for EVA Rescue (SAFER) jet packs. The space walk began at 1:29 p.m. EDT and ended at 6:30 p.m.
During the six days of docked operations, the joint Mir 24 and STS-86 crews transferred more than four tons of material from the SPACEHAB Double Module to Mir, including approximately 1,700 pounds (771 kg) of water, experiment hardware for International Space Station Risk Mitigation experiments to monitor the Mir for crew health and safety, a gyrodyne, batteries, three air pressurization units with breathing air, an attitude control computer and many other logistics items. The new motion control computer replaced one that had experienced problems in recent months. The crew also moved experiment samples and hardware and an old Elektron oxygen generator to Atlantis for return to Earth. Undocking took place at 1:28 p.m. EDT, Oct 3. After undocking, Atlantis performed a 46 minute flyaround visual inspection of Mir. During this maneuver, Solovyev and Vinogradov opened a pressure regulation valve to allow air into the Spektr module to see if STS-89 crew members could detect seepage or debris particles that could indicate the location of the breach in the damaged module's hull.
During the flight, Wetherbee and Bloomfield fired small jet thrusters on Atlantis to provide data for the Mir Structural Dynamics Experiment (MISDE), which measures disturbances to space station components and its solar arrays. Other experiments conducted during the mission were the Commercial Protein Crystal Growth investigation; the Cell Culture Module Experiment (CCM-A), the Cosmic Radiation Effects and Activation Monitor (CREAM) and the Radiation Monitoring Experiment-III (RME-III); the Shuttle Ionospheric Modification with Pulsed Local Exhaust (SIMPLE) experiment; and the Midcourse Space Experiment. Two NASA educational outreach programs were also conducted, Seeds in Space-II and Kidsat.
Orbiter performance was nominal.
Related articles
- Space science
- Space shuttle
- List of space shuttle missions
- List of human spaceflights chronologically
External links
- NASA mission summary (http://science.ksc.nasa.gov/shuttle/missions/sts-86/mission-sts-86.html)
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Space Shuttle program | Next Mission: STS-87 |