STS-28 was the 30th NASA Space Shuttle mission, the fourth shuttle mission dedicated to United States Department of Defense (DoD) purposes, and the eighth flight of Space Shuttle Columbia. The mission launched on August 8, 1989, and traveled 3,400,000 km (2,100,000 mi) during 81 orbits of the Earth, before landing on runway 17 of Edwards Air Force Base, California, on August 13, 1989. STS-28 was also Columbia's first flight since January 1986, when it had flown STS-61-C, the mission directly preceding the Challenger disaster of STS-51-L. The mission details of STS-28 are classified, but the payload is widely believed to have been the first SDS-2 relay communications satellite. The altitude of the mission was between 295 km (183 mi) and 307 km (191 mi).^[1]

Quick Facts Names, Mission type ...

STS-28

Infrared view of Columbia's left wing during reentry, photographed by the SILTS experiment.
Names	Space Transportation System-28 STS-28R
Mission type	DoD satellites deployment
Operator	NASA
COSPAR ID	1989-061A
SATCAT no.	20164
Mission duration	5 days, 1 hour, 0 minutes, 8 seconds (achieved)
Distance travelled	3,400,000 km (2,100,000 mi)
Orbits completed	81
Spacecraft properties
Spacecraft	Space Shuttle Columbia
Landing mass	90,816 kg (200,215 lb)
Payload mass	19,600 kg (43,200 lb)
Crew
Crew size	5
Members	Brewster H. Shaw Richard N. Richards James C. Adamson David Leestma Mark N. Brown
Start of mission
Launch date	August 8, 1989, 12:37:00 UTC
Rocket	Space Shuttle Columbia
Launch site	Kennedy Space Center, LC-39B
Contractor	Rockwell International
End of mission
Landing date	August 13, 1989, 13:37:08 UTC
Landing site	Edwards Air Force Base, Runway 17
Orbital parameters
Reference system	Geocentric orbit
Regime	Low Earth orbit
Perigee altitude	289 km (180 mi)
Apogee altitude	306 km (190 mi)
Inclination	57.00°
Period	90.50 minutes
Instruments
In-flight Radiation Dose Distribution (IDRD) Shuttle Lee-side Temperature Sensing (SILTS)
STS-28 mission patch Standing: Mark N. Brown, James C. Adamson Seated: Richard N. Richards, Brewster H. Shaw, David Leestma Space Shuttle program ← STS-30 (29) STS-34 (31) →

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The mission was officially designated STS-28R as the original STS-28 designator belonged to STS-51-J, the 21st Space Shuttle mission. Official documentation for that mission contained the designator STS-28 throughout. As STS-51-L 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.

Space Shuttle Columbia (OV-102) lifted off from Pad 39B, Launch Complex 39 at Kennedy Space Center, Florida, on August 8, 1989. The launch took place at 8:37:00 a.m. EDT.

During STS-28, Columbia deployed two satellites: USA-40^[3] and USA-41.^[4] Early reports speculated that STS-28's primary payload was an Advanced KH-11 photo-reconnaissance satellite. Later reports, and amateur satellite observations, suggest that USA-40 was instead a second-generation Satellite Data System (SDS) relay,^[5] similar to those likely launched on STS-38 and STS-53. These satellites had the same bus design as the LEASAT satellites deployed on other shuttle missions, and were likely deployed in the same fashion.^{[citation needed]}

The mission marked the first flight of a 5 kg (11 lb) human skull, which served as the primary element of "Detailed Secondary Objective 469", also known as the In-flight Radiation Dose Distribution (IDRD) experiment. This joint NASA/DoD experiment was designed to examine the penetration of radiation into the human cranium during spaceflight. The female skull was seated in a plastic matrix, representative of tissue, and sliced into ten layers. Hundreds of thermoluminescent dosimeters were mounted in the skull's layers to record radiation levels at multiple depths. This experiment, which also flew on STS-36 and STS-31, was located in the shuttle's mid-deck lockers on all three flights, recording radiation levels at different orbital inclinations.^[6]

During the flight, the crew shut down a thruster in the reaction control system (RCS) after receiving indications of a leak. An RCS heater also malfunctioned during the flight. Post-flight analysis of STS-28 discovered unusual heating of the thermal protection system (TPS) during re-entry, caused by an early transition to turbulent plasma flow around the vehicle. A detailed report identified protruding gap filler as the likely cause.^[7] This filler material was the same material that was removed during a spacewalk during STS-114, the Space Shuttle's post-Columbia disaster Return to Flight mission, in 2005.

The Shuttle Lee-side Temperature Sensing (SILTS) infrared camera package made its second flight aboard Columbia on this mission. The cylindrical pod and surrounding black tiles on the orbiter's vertical stabilizer housed an imaging system, designed to map thermodynamic conditions during reentry, on the surfaces visible from the top of the tail fin. Ironically, the camera faced the port wing of Columbia, which was breached by superheated plasma on its disastrous final flight, destroying the wing and, later, the orbiter. The SILTS system was used for only six missions before being deactivated, but the pod remained for the duration of Columbia's career.^[8] Columbia's thermal protection system was also upgraded to a similar configuration as Discovery and Atlantis in between the loss of Challenger and STS-28, with many of the white LRSI tiles replaced with felt insulation blankets in order to reduce weight and turnaround time. One other minor modification that debuted on STS-28 was the move of Columbia's name from its payload bay doors to the fuselage, allowing the orbiter to be easily recognized while in orbit.

Columbia landed at Edwards Air Force Base, California, at 9:37:08 a.m. EDT on August 13, 1989, after a mission lasting 5 days, 1 hour, 0 minutes, and 8 seconds. Because of a software glitch with the weight-on-wheels sensors installed on the landing gear, the crew was instructed to touch down on the runway as softly as possible. This instruction resulted in a touchdown airspeed of 154 knots, the slowest of the entire Shuttle program by a wide margin and barely above the Orbiter's stall speed.^[9]

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