Engineering:STS-57

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Short description: 1993 American crewed spaceflight
STS-57
STS057-89-042.jpg
Endeavour's payload bay, with the SpaceHab module (foreground), EURECA (background), and astronauts David Low and Peter Wisoff performing an EVA (centre).
NamesSpace Transportation System-57
Mission typeBiosciences
EURECA satellite retrieval
OperatorNASA
COSPAR ID1993-037A
SATCAT no.22684
Mission duration9 days, 23 hours, 44 minutes, 54 seconds
Distance travelled6,608,628 km (4,106,411 mi)
Orbits completed155
Spacecraft properties
SpacecraftSpace Shuttle Endeavour
Landing mass101,657 kg (224,115 lb)
Payload mass13,074 kg (28,823 lb)
Crew
Crew size6
Members
  • Ronald J. Grabe
  • Brian Duffy
  • G. David Low
  • Nancy J. Currie-Gregg
  • Peter Wisoff
  • Janice E. Voss
Start of mission
Launch dateJune 21, 1993, 13:07 UTC
RocketSpace Shuttle Endeavour
Launch siteKennedy LC-39B
ContractorRockwell International
End of mission
Landing dateJuly 1, 1993, 12:52 UTC
Landing siteKennedy Space Center,
SLF Runway 33
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude402 km (250 mi)
Apogee altitude471 km (293 mi)
Inclination28.45°
Period93.30 minutes
Instruments
Fluid Acquisition and Resupply Experiment (FARE)
Liquid Encapsulated Melt Zone (LEMZ)
Shuttle Amateur Radio Experiment (SAREX-II)
Sts-57-patch.png
STS-57 mission patch
Sts-57 crew.jpg
Back row: Wisoff, Currie-Gregg, Voss, Low
Front row: Duffy, Grabe
← STS-55 (55)
STS-51 (57) →
 

STS-57 was a NASA Space Shuttle-Spacehab mission of Space Shuttle Endeavour that launched June 21, 1993, from Kennedy Space Center, Florida.

Crew

Position Astronaut
Commander Ronald J. Grabe
Fourth and last spaceflight
Pilot Brian Duffy
Second spaceflight
Mission Specialist 1 G. David Low
Third and last spaceflight
Mission Specialist 2 Nancy J. Currie-Gregg
First spaceflight
Mission Specialist 3 Peter J. Wisoff
First spaceflight
Mission Specialist 4 Janice E. Voss
First spaceflight

Spacewalk

  • Low and Wisoff – EVA 1
  • EVA 1 Start: June 25, 1993
  • EVA 1 End: June 25, 1993
  • Duration: 5 hours, 50 minutes

Mission highlights

Liftoff of STS-57
EURECA is stowed by Endeavour's remote manipulator system (Canadarm).

The mission was launched on the summer solstice. During the course of the ten-day flight, the astronauts successfully conducted scores of biomedical and materials sciences experiments inside the pressurized SPACEHAB module. Two astronauts participated in a spacewalk (EVA) and European Retrievable Carrier (EURECA) was retrieved by the crew and stowed inside Endeavour's payload bay. EURECA had been deployed from the Space Shuttle Atlantis in August 1992 (STS-46) and contained several experiments to study the long-term effects of exposure to microgravity.

An improperly installed electrical connector on Endeavour's Remote Manipulator System (Canadarm), installed 180° off its correct position, prevented EURECA from recharging its batteries with orbiter power. A flight rule requiring antenna stowage was waived and EURECA was lowered into the payload bay without latching its antenna. Mission specialists David Low and Peter Wisoff safely secured EURECA's dual antennas against the science satellite during the spacewalk. David Low was mounted on a foot restraint on the end of Endeavour's robotic arm while Mission specialist Nancy J. Currie-Gregg positioned the arm so David Low could gently push the arms against EURECA's latch mechanisms. Payload controllers then drove the latches to secure each antenna. The five-hour, fifty-minute spacewalk completed STS-57 mission's primary goal of retrieving the EURECA science satellite. Afterwards, Low and Wisoff completed maneuvers for an abbreviated extravehicular activity (EVA) Detailed Test Objective (DTO) using the robot arm. Activities associated with each of the areas of investigation — mass handling, mass fine alignment and high torque — were completed with both EVA crewmen taking turns on the robot arm. Low and Wisoff wrapped up their spacewalk and returned to Endeavour's airlock shortly before 3:00 p.m. CDT.

During the rest of the mission, the crew worked on experiments in the Spacehab module in the Shuttle's lower deck. These experiments included studying body posture, the spacecraft environment, crystal growth, metal alloys, wastewater recycling and the behavior of fluids. Among the experiments was an evaluation of maintenance equipment that may be used on Space Station Freedom. The diagnostic equipment portion of the Tools and Diagnostics System experiment was performed by Nancy J. Currie-Gregg. Using electronics test instruments including an oscilloscope and electrical test meter, Currie-Gregg conducted tests on a mock printed circuit board and communicated with ground controllers via computer messages on suggested repair procedures and their results.

On June 22, 1993, all six crew members talked with President Clinton.[1]

In addition, Brian Duffy and Jeff Wisoff ran experiments in transferring fluids in weightlessness without creating bubbles in the fluid. The experiment, called the Fluid Acquisition and Resupply Experiment (FARE), studied filters and processes that could improve methods of refueling spacecraft in orbit. By transferring water between 61 cm (24 in)-diameter transparent tanks on Endeavour's middeck, engineers evaluated how the fluids behaved while the shuttle's steering jets fired for small maneuvers. Janice Voss worked on the Liquid Encapsulated Melt Zone (LEMZ) experiment, which used a process called floating zone crystal growth. The low-gravity conditions of space flight permit large crystals to be grown in space.

Ron Grabe, Brian Duffy and Janice Voss participated in the Neutral Body Position study. Flight surgeons had noted on previous flights that the body's basic posture changes while in microgravity. This postural change, sometimes called the "zero-g crouch", is in addition to the 26 mm (1.0 in) to 51 mm (2.0 in) lengthening of the spine during space missions. To better document this phenomenon over the duration of a space mission, still and video photography of crew members in a relaxed position were taken early and late in the mission. Researchers included these findings in the design specifications of future spacecraft to make work stations and living areas more efficient and comfortable for astronauts.

Currie-Gregg conducted the electronics procedures portion of the Human Factors Assessment. She set up a work platform, then hooked up a notebook computer and went through a simulated computer procedure for a space station propulsion system.

On June 28, 1993, Currie-Gregg performed an impromptu plumbing job on the Environmental Control Systems Flight Experiment, a study of wastewater purification equipment that may be used aboard future spacecraft. The EFE used a solution of water and potassium iodide to simulate wastewater, which was then pumped through a series of filters to purify it. During the flight, experimenters observed a reduced flow of water through the device and opted to perform maintenance. Currie-Gregg loosened a fitting on one water line inside the experiment, wrapped the loose fitting with an absorbent diaper, and, using a laptop computer on board, reversed a pump on the experiment for about 20 minutes in an attempt to flush out the clog. She then retightened the fitting and resumed normal operation of the experiment. Ground experimenters proceeded to monitor the EFE for about an hour and a half to ensure the clog had been cleared.

Mission insignia

The five stars and shape of the robotic arm of the insignia symbolize the flight's numerical designation in the Space Transportation System's mission sequence. The SpaceHab overall contours are represented as the inner red lining of the patch. Also visible is the EURECA, with 3 yellow contrails, that are representative of the astronaut insignia (EURECA replacing the traditional star atop), with the orbiter circling the Earth.

See also

References

  1. "STS-57". NASA. March 31, 2010. https://www.nasa.gov/mission_pages/shuttle/shuttlemissions/archives/sts-57.html.  This article incorporates text from this source, which is in the public domain.

External links