GPS IIR-1

Last updated

GPS IIR-1
GPS-IIR.jpg
A Block IIR GPS satellite
NamesNavstar 42
GPS SVN-42
Mission type Navigation
Operator U.S. Air Force
Mission duration10 years (planned) [1]
Failed to orbit
Spacecraft properties
Spacecraft GPS IIR
Spacecraft type GPS Block IIR [1]
Bus AS-4000
Manufacturer Lockheed Martin
Launch mass2,030 kg (4,480 lb)
Start of mission
Launch date17 January 1997, 16:28:01 UTC
Rocket Delta II 7925-9.5
(Delta D241)
Launch site Cape Canaveral SLC-17A
Contractor McDonnell Douglas
Orbital parameters
Reference system Geocentric orbit (planned)
Regime Medium Earth orbit
(Semi-synchronous)
Perigee altitude 20,200 km
Apogee altitude 20,200 km
Inclination 55.0°
Period 720.0 minutes
  USA-128 (GPS IIA-18)
USA-132 (GPS IIR-2) 
 

GPS IIR-1 or GPS SVN-42 was the first Block IIR GPS satellite to be launched. It was to have been operated as part of the United States Air Force Global Positioning System. It was launched on 17 January 1997, and was destroyed 13 seconds into its flight due to a malfunction of the Delta II launch vehicle that was carrying it. [2] It was estimated to have cost US$40 million, with its launch vehicle costing US$55 million. [2] The satellite that was used for the GPS IIR-1 mission was the second production IIR satellite, SVN-42. [3]

Contents

Launch

A Delta II solid rocket booster (SRB) Delta II GEM 40 Booster.jpg
A Delta II solid rocket booster (SRB)

GPS IIR-1 was launched on a Delta II 7925-9.5 launch vehicle, serial number D241, from Launch Complex 17A (LC-17A) at the Cape Canaveral Air Force Station (CCAFS). The launch occurred at 16:28:01 UTC, on 17 January 1997. [4] Thirteen seconds later, the rocket's flight termination system was activated by its onboard computer. This detonated explosive charges aboard the rocket, causing it to explode. At the time of explosion, the rocket was 490 m (1,610 ft) above the launch complex. It was the lowest-altitude launch failure at Cape Canaveral since Atlas-Centaur AC-5 in 1965 and only the third total loss of a Delta in the previous two decades.

Investigation

An investigation determined that the failure was caused by a crack in the casing of the number 2 GEM-40 solid rocket motor, which started to form at T+6 seconds and grew from there. [5] At T+12 seconds, the Solid rocket booster (SRB) casing ruptured and debris struck the number 8 SRB next to it, causing that motor to fail as well. [6] One second later, the range safety destruct charges automatically activated, causing the rocket to auto-terminate, which led to the self-destruction of the first stage and the detonation of the remaining SRBs. The upper stages were blasted free. At T+21 seconds, the Range Safety Officer sent a manual destruct command to terminate the upper stages for safety purposes, resulting in their destruction. The GPS satellite and payload shroud survived intact until impacting the ground. It could not be determined with certainty what had tripped the destruct system on the first stage; possible explanations including a lanyard being pulled, a shock wave from the rupture of the number 2 SRB, or heat generated by the event.

The booster had been damaged by pressure from a support in a new transportation system that had recently been introduced. [5] Following the failure, the system was revised, and ultrasound inspections of boosters on future flights were introduced. [5]

Debris

Debris from the explosion fell into the Atlantic Ocean and on the Cape Canaveral Air Force Station. Some debris landed around the launch pad, and a small fire started. Other debris landed in the parking lot outside the complex blockhouse, destroying twenty cars and trucks that were located there. Two hundred and fifty tons of debris fell within 915 m (3,002 ft) of the launch pad, to include on the grounds of the nearby Air Force Space and Missile Museum. One piece of debris made a hole in a cable track, allowing smoke to enter the blockhouse.

Personnel of the area around the launch site were advised to stay indoors, close windows, and turn off air conditioning systems as a precaution, as some vapors from the fuel could be irritant or toxic. The explosion was reported to have been felt 40 km (25 mi) away from the launch site, and damage to store windows 16 km (9.9 mi) away was reported.

Impact

A number of Delta II launches were delayed while the cause of the failure was investigated and corrective action was taken. It returned to service on 5 May 1997, making the first Delta II launch from Vandenberg Air Force Base SLC-2W. That launch was successful. [7]

With the retirement of the Delta II launch system, the GPS IIR-1 mission stands as the only outright failure of a Delta II rocket. The only partial failure of a Delta II was the launch of Koreasat 1, where one of the solid rocket motors failed to separate; the satellite still reached its correct orbit by using onboard propellant, which left it with a shorter than planned operational life expectancy. [8]

GPS IIR-1 was to have replaced an older satellite, which was still operational at the time of its replacement's launch. This satellite was able to continue operating until another replacement could be launched. [5]

The launch of GPS IIR-1 was the last to use the Complex 17 blockhouse, with future launches being controlled from a Launch Control Center in the 1st Space Launch Squadron Operations Building, 3 km (1.9 mi) south of the pad. [9] This was already under construction at the time of the failure, as the blockhouse was unable to support the Delta III rocket, which was then under development. Following the failure, construction on the new control facilities was accelerated. [10]

See also

Related Research Articles

<span class="mw-page-title-main">Delta II</span> American space launch system

Delta II was an expendable launch system, originally designed and built by McDonnell Douglas, and sometimes known as the Thorad Delta 1. Delta II was part of the Delta rocket family and entered service in 1989. Delta II vehicles included the Delta 6000, and the two later Delta 7000 variants. The rocket flew its final mission ICESat-2 on 15 September 2018, earning the launch vehicle a streak of 100 successful missions in a row, with the last failure being GPS IIR-1 in 1997.

<span class="mw-page-title-main">GPS satellite blocks</span> Generations of GPS satellites

GPS satellite blocks are the various production generations of the Global Positioning System (GPS) used for satellite navigation. The first satellite in the system, Navstar 1, was launched on 22 February 1978. The GPS satellite constellation is operated by the 2nd Space Operations Squadron (2SOPS) of Space Delta 8, United States Space Force.

<span class="mw-page-title-main">USA-201</span>

USA-201, also known as GPS IIR-19(M), GPS IIRM-6 and GPS SVN-48, is an American navigation satellite which forms part of the Global Positioning System. It was the sixth of eight Block IIRM satellites to be launched, and the nineteenth of twenty one Block IIR satellites overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">Titan 34D</span>

The Titan 34D was a United States expendable launch vehicle used to launch a number of satellites for military applications.

<span class="mw-page-title-main">Delta 3000</span> American rocket

The Delta 3000 series was an American expendable launch system which was used to conduct 38 orbital launches between 1975 and 1989. It was a member of the Delta family of rockets. Several variants existed, which were differentiated by a four digit numerical code.

<span class="mw-page-title-main">USA-206</span> American navigation satellite

USA-206, also GPS SVN-50, PRN-05 and NAVSTAR 64 and known before launch as GPS IIR-21, GPS IIRM-8 or GPS IIR-21(M), is an American navigation satellite which forms part of the Navstar Global Positioning System. It was the twenty-first and last Block IIR GPS satellite to be launched, and the eighth to use the modernized IIRM configuration.

<span class="mw-page-title-main">USA-213</span>

USA-213, also known as GPS SVN-62, GPS IIF SV-1 and NAVSTAR 65, is the first satellite in the Block IIF series of Global Positioning System navigation satellites. It will be used to relay signals for the United States Air Force Navstar Global Positioning System (GPS). The satellite was launched at 03:00:00 UTC on 28 May 2010. It will be placed into plane B of the GPS constellation, and will transmit the PRN-25 signal. PRN-25 was previously broadcast by USA-79, which was retired in late 2009 after almost eighteen years of service.

<span class="mw-page-title-main">USA-145</span>

USA-145, also known as GPS IIR-3 and GPS SVN-46, is an American navigation satellite which forms part of the Global Positioning System. It was the third Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-150</span>

USA-150, also known as GPS IIR-4 and GPS SVN-51, is an American navigation satellite which forms part of the Global Positioning System. It was the fourth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-154</span>

USA-154, also known as GPS IIR-6 and GPS SVN-41, is an American navigation satellite which forms part of the Global Positioning System. It was the sixth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-156</span>

USA-156, also known as GPS IIR-7 and GPS SVN-54, is an American navigation satellite which forms part of the Global Positioning System. It was the seventh Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-166</span>

USA-166, also known as GPS IIR-8 and GPS SVN-56, is an American navigation satellite which forms part of the Global Positioning System. It was the eighth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-168</span> American navigation satellite

USA-168, also known as GPS IIR-9 and GPS SVN-45, is an American navigation satellite which forms part of the Global Positioning System. It was the ninth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-175</span> American navigation satellite

USA-175, also known as GPS IIR-10 and GPS SVN-47, is an American navigation satellite which forms part of the Global Positioning System. It was the tenth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-177</span>

USA-177, also known as GPS IIR-11 and GPS SVN-59, is an American navigation satellite which forms part of the Global Positioning System. It was the eleventh Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-178</span>

USA-178, also known as GPS IIR-12 and GPS SVN-60, is an American navigation satellite which forms part of the Global Positioning System. It was the twelfth Block IIR GPS satellite to be launched, out of thirteen in the original configuration, and twenty one overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-180</span>

USA-180, also known as GPS IIR-13 and GPS SVN-61, is an American navigation satellite which forms part of the Global Positioning System. It was the thirteenth of twenty one Block IIR GPS satellites to be launched, and the last in the original configuration. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-199</span> American GPS satellite

USA-199, also known as GPS IIR-18(M), GPS IIRM-5 and GPS SVN-57, is an American navigation satellite which forms part of the Global Positioning System. It was the fifth of eight Block IIRM satellites to be launched, and the eighteenth of twenty one Block IIR satellites overall. It was built by Lockheed Martin, using the AS-4000 satellite bus.

<span class="mw-page-title-main">USA-203</span>

USA-203, also known as GPS IIR-20(M), GPS IIRM-7 and GPS SVN-49, is an American navigation satellite which was intended to become part of the Global Positioning System. It was the sixth of seven Block IIRM satellites to be launched, and the twentieth of twenty one Block IIR satellites overall. It was built by Lockheed Martin, using the AS-4000 satellite bus, and had a mass of 2,032 kilograms (4,480 lb).

Navstar 7, also known as GPS I-7 and GPS SVN-7, was an American navigation satellite which was lost in a launch failure in 1981. It was intended to be used in the Global Positioning System development program. It was the seventh of eleven Block I GPS satellites to be launched, and the only one to fail to achieve orbit.

References

  1. 1 2 Krebs, Gunter. "GPS-2R (Navstar-2R)". Gunter's Space Page. Retrieved 11 July 2012.
  2. 1 2 "Unmanned rocket explodes after liftoff". CNN. 17 January 1997. Retrieved 21 June 2009.
  3. McDowell, Jonathan (22 January 1997). "Issue 311". Jonathan's Space Report. Archived from the original on 10 August 2011. Retrieved 21 June 2009.
  4. McDowell, Jonathan. "Launch Log". Jonathan's Space Report. Retrieved 21 June 2009.
  5. 1 2 3 4 Harland, David M; Lorenz, Ralph D. (2005). Space Systems Failures (2006 ed.). Chichester: Springer-Praxis. pp. 55–59. ISBN   0-387-21519-0.
  6. "NAVSTAR GPS 2R-1 - Summary". Space and Tech. Archived from the original on 26 February 2009. Retrieved 21 June 2009.
  7. "IRIDIUM". Decode Systems. Retrieved 21 June 2009.
  8. "Koreasat 1". The Satellite Encyclopedia. Retrieved 21 June 2009.
  9. "Space Launch Complex 17". Delta Launch Report. Spaceflight Now. Retrieved 21 June 2009.
  10. Chien, Philip (9 November 1997). "Viewing Delta launches - was Iridium Launch and Flare from VAFB". Seesat-L. Retrieved 21 June 2009.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.