Delta II

This article is about the rocket. For the submarine see Delta class submarine.
Delta II

A Delta II rocket launches from Cape Canaveral carrying the Dawn spacecraft.
Function Launch vehicle
Manufacturer United Launch Alliance (Boeing IDS)
Country of origin United States
Cost per launch US$51 million in 1987 (7920-10 mod.)[1]
Size
Height 38.2–39 m (125–128 ft)
Diameter 2.44 m (8 ft 0 in)
Mass 151,700–231,870 kg (334,440–511,190 lb)
Stages 2 or 3
Capacity
Payload to
LEO
2,700–6,100 kg (6,000–13,400 lb)
Payload to
GTO
900–2,170 kg (1,980–4,780 lb)
Payload to
HCO
1,000 kg (2,200 lb)
Launch history
Status Active
Launch sites Cape Canaveral SLC-17
Vandenberg AFB SLC-2W
Total launches 153
Delta 6000: 17
Delta 7000: 130
Delta 7000H: 6
Successes 151
Delta 6000: 17
Delta 7000: 128
Delta 7000H: 6
Failures 1 (Delta 7000)
Partial failures 1 (Delta 7000)
First flight Delta 6000: 14 February 1989
Delta 7000: 26 November 1990
Delta 7000H: 8 July 2003
Last flight Delta 6000: 24 July 1992
Delta 7000H: 10 September 2011
Boosters (6000 Series) - Castor 4A
No boosters 9
Motor Solid
Thrust 478 kN (107,000 lbf)
Specific impulse 266 s
Burn time 56 s
Fuel HTPB
Boosters (7000 Series) - GEM 40
No boosters 3, 4, or 9
Motor Solid
Thrust 492.9 kN (110,800 lbf)
Specific impulse 274 s
Burn time 64 s
Fuel HTPB
Boosters (7000 Heavy) - GEM 46
No boosters 9
Motor Solid
Thrust 628.3 kN (141,200 lbf)
Specific impulse 278 s
Burn time 75 s
Fuel HTPB
First Stage - Thor/Delta XLT(-C)
Engines 1 RS-27 (6000 series) or RS-27A (7000 series)[2]
Thrust 1,054 kN (237,000 lbf)
Specific impulse 302 s
Burn time 265 s
Fuel RP-1/LOX
Second Stage - Delta K
Engines 1 AJ10-118K
Thrust 43.6 kN (9,800 lbf)
Specific impulse 319 s
Burn time 431 s
Fuel Dinitrogen tetroxide/Aerozine
Third Stage - PAM-D (optional)
Motor Star 48B
Thrust 66 kN (15,000 lbf)
Specific impulse 286 s
Burn time 87 s
Fuel HTPB

Delta II is an American space launch system, originally designed and built by McDonnell Douglas. Delta II is part of the Delta rocket family and entered service in 1989. Delta II vehicles included the Delta 6000, and two Delta 7000 variants ("Light" and "Heavy").

History

In the early 1980s, all United States expendable launch vehicles were planned to be phased out in favor of the Space Shuttle, which would be responsible for all government and commercial launches. Production of Delta, Atlas-Centaur, and Titan 34D had ended.[3] The Challenger disaster of 1986 and the subsequent halt of Shuttle operations changed this policy, and President Ronald Reagan announced in December of that year that the Space Shuttle would no longer launch commercial payloads, and NASA would seek to purchase launches on expendable vehicles for missions that did not require crew or Shuttle support.[4] McDonnell Douglas, at that time the manufacturer of the Delta family, signed a contract with the U.S. Air Force in 1987 to provide seven Delta IIs. These were intended to launch a series of GPS Block II satellites, which had previously been manifested for the Space Shuttle. The Air Force exercised additional contract options in 1988, expanding this order to 20 vehicles, and NASA purchased its first Delta IIs in 1990 for the launch of three Earth-observing satellites.[5][6] The first Delta II launch occurred in 1989, with a Delta 6925 boosting the first GPS Block II satellite into a 20,000 km high orbit.

The first Delta II 7000-series flew in 1990, replacing the RS-27 engine of the 6000-series with the more powerful RS-27A. Additionally, the steel-cased Castor 4A solid boosters of the 6000 series were replaced with the composite-cased GEM 40. All further Delta II launches except three were of this upgraded configuration, and the 6000-series was retired in 1992.[7]

McDonnell Douglas began Delta III development in the mid-90s as increasing satellite mass required more powerful launch vehicles.[5] Delta III, with its liquid hydrogen second stage and more powerful GEM 46 boosters, could bring twice as much mass as Delta II to geostationary transfer orbit (GTO), but a string of two failures and one partial failure, along with the development of the much more powerful Delta IV, lead to the cancellation of Delta III program.[8] The upgraded boosters would still find use on the Delta II, leading to the Delta II Heavy.

In total, the Delta II family has launched 153 times. Its only unsuccessful launches have been Koreasat-1 in 1995, a partial failure caused by one booster not separating from the first stage, which resulted in the satellite being placed in a lower than intended orbit,[9] and another failure in 1997 when a Delta II carrying GPS IIR-1 exploded 13 seconds after launch when a damaged SRM casing ruptured and triggered the vehicle's flight termination system.[10] No one was injured, and the launch pad itself was not seriously impacted, though several cars were destroyed and a few buildings were damaged.[11]

In 2007, Delta II completed its 75th consecutive successful launch,[12] surpassing the 74 consecutive successful launches of the Ariane 4.[13] With the launch of SMAP in 2015, the Delta II has enjoyed 98 consecutive successful launches, with two more scheduled.[14][15] Should these launches be successful, the Delta II would achieve an unprecedented 100 consecutive launch successes.[16]

Vehicle description

A Delta II 7425
A Delta-K stage

The first stage of the Delta II is propelled by a Rocketdyne RS-27 main engine burning RP-1 and liquid oxygen. This stage is technically referred to as the "Extra-Extended Long Tank Thor", a derivative of the Thor ballistic missile[17] as were all Delta rockets until the Delta IV. The RS-27 used on the 6000-series Delta II produced 915 kN,[18] while the upgraded RS-27A used by the 7000-series produces 1,054 kN.[19] The stage is 26 meters long and 2.4 meters wide, weighs over 100 t when fueled, and burns for 260 seconds.[20] In addition, two LR101-NA-11 vernier engines provide guidance for the first stage.

For additional thrust during launch, the Delta II uses solid boosters. For the 6000-series, Delta II used Castor 4A boosters, while the 7000-series uses Graphite-Epoxy Motors manufactured by ATK. The vehicle can be flown with three, four, or, most commonly, nine boosters. When three or four boosters are used, all ignite on the ground at launch, while models using nine boosters would ignite six on the ground, then the remaining three in flight after the burnout and jettison of the first six.[20]

The second stage of Delta II is the Delta-K, powered by a restartable Aerojet AJ10-118K engine burning hypergolic Aerozine-50 and N2O4. These propellants are highly toxic and corrosive, and once loaded the launch must occur within approximately 37 days or the stage will have to be refurbished or replaced.[21] This stage also contains a combined inertial platform and guidance system that controls all flight events. The Delta-K stage is 6 meters long and 2.4 meters wide, contains up to 6 t of propellant, and burns for up to 430 seconds.[20]

For low Earth orbit, Delta II is not equipped with a third stage. Payloads bound for higher energy orbits such as GTO or to reach Earth escape velocity for trans-Mars injection or other destinations beyond Earth use a solid propellant third stage. This stage is spin-stabilized and depends on the second stage for proper orientation prior to stage separation, but was sometimes equipped with a nutation control system to maintain proper spin axis.[22] It also included a yo-weight system to induce tumbling in the third stage after payload separation to prevent recontact, or a yo-yo de-spin mechanism to slow the rotation before payload release.[22]

Naming system

The Delta II family uses a four-digit system to generate its technical names:[23]

For example, a Delta 7925H used an RS-27A, nine GEM-46 boosters, and a PAM third stage. A Delta 7320 is a two-stage vehicle with three GEM-40 boosters and no third stage.

Launch description

Launch vehicle build-up 
A Delta II launch vehicle is assembled vertically on the launch pad. Assembly starts by hoisting the first stage into position. The solid rocket boosters are then hoisted into position and mated with the first stage. Launch vehicle build-up then continues with the second stage being hoisted atop the first stage.[24]
Fueling 
It takes approximately 20 minutes to load the first stage with 37,900 liters (10,000 U.S. gal) of fuel.[25]

Delta II launches

Delta II lifting off with MER-A on June 10, 2003
Delta II Heavy (7925H-9.5) lifting off from pad 17-B carrying MER-B

Notable payloads

Furthermore, between May 1997 and November 1998, Delta II vehicles placed 55 Iridium satellites into orbit.[26]

Post MLV-3

Delta rocket evolution.

A 2007 article published by the Wall Street Journal speculated about the fate of the Delta II launch system after the U.S. Air Force discontinues its use of the Delta II.[27] Thomas Young, who was director of Goddard Space Flight Center from 1980 to 1982, is quoted as saying, "It's definitely an item people are quite worried about."

As of January 2015, two further Delta II launches are scheduled; the JPSS-1 and ICESat-2 satellites in 2017 and 2018.[15][28][29] ULA had previously indicated that it had "around half a dozen" unsold Delta II rockets on hand.[30] A spokesperson indicated that ULA will change some aspects of the Delta II system once the current Medium Launch Vehicle 3 contract with the Air Force ends and requirements imposed by the contract are lifted. The Air Force contract required that Delta II be kept ready to launch within 40 days of call up, which led ULA to maintain two launch pads at Cape Canaveral. ULA indicated it would not continue to operate two launch pads.[30]

In August 2009, the NASA assistant associate administrator for the Launch Services Program stated that NASA might purchase additional Delta II launches beyond those it had planned at that time.[31] However on September 30, 2011, NASA modified the NASA Launch Services II (NLS-II) contract[32] to allow for the continuing order of Delta II launchers in agreement with ULA. Components for five additional Delta II vehicles had been built and two now remain unassigned to planned flights.[33] Under the terms of the revised NLS-II contract, only three Delta II configurations are available the 7320-10, 7420-10 and 7920-10 and launches are only available from SLC-2W at Vandenberg Air Force Base.[34] ULA has continued to update its product website[35] and continues to state that the vehicle is available for order for commercial or government offices.[36]

On July 16, 2012 NASA selected the Delta II for the launch of Soil Moisture Active Passive (SMAP), Orbiting Carbon Observatory-2 (OCO-2) and Joint Polar Satellite System-1 (JPSS-1) spacecraft. OCO-2 was launched on July 2, 2014 and SMAP was launched on January 31, 2015.[37] Both launches were aboard Delta II rockets placed into orbit from Complex 2 at Vandenberg Air Force Base in California.[38]

Comparable rockets

See also

References

  1. http://www.spaceflight101.com/delta-ii-7920h-10.html
  2. http://www.boeing.com/defense-space/space/delta/delta2/delta2.htm
  3. Dawson, Virginia (2004). Taming Liquid Hydrogen (PDF). p. 233.
  4. "Reagan Orders NASA To Halt Launch of Commercial Payloads". AP. Aug 16, 1986.
  5. 1 2 Rumerman, Judy (2009). NASA Historical Data Book, Vol. VII: NASA Launch Systems, Space Transportation, Human Spaceflight, and Space Science, 1989-1998 (PDF). NASA. pp. 49–51. NASA SP-4012.
  6. "Delta II, Atlas II" (PDF). U.S. Air Force. May 2003. Retrieved 28 June 2013.
  7. "ULA Delta II successfully lofts OCO-2 to orbit". NASASpaceflight.com. July 2, 2014. Retrieved July 26, 2014.
  8. "Delta III Data Sheet". Space Launch Report. Retrieved July 2014.
  9. Krebs, Gunter Dirk. "Koreasat 1, 2 (Mugungwha 1, 2) / Europe*Star B".
  10. The Deadly Aftermath of a Rocket Explosion Seconds After Launch
  11. "Unmanned rocket explodes after liftoff". CNN.com. 1997-01-17. Retrieved 2009-03-31.
  12. "DigitalGlobe Successfully Launches Worldview-1". DigitalGlobe.
  13. Ray, Justin. "Mission Status Center (Delta 326)". Spaceflight Now. Retrieved 2007-09-26.
  14. "Workhorse Delta 2 returns to launch NASA observatory". Spaceflight Now. Retrieved July 2014.
  15. 1 2 3 Graham, William (July 2, 2014). "ULA Delta II successfully lofts OCO-2 to orbit". NASASpaceflight.com. Retrieved July 23, 2014.
  16. "Delta II Data Sheet". Space Launch Report. Retrieved 31 January 2015.
  17. http://www.spacelaunchreport.com/thorh12.html
  18. "RS-27". Astronautix. Retrieved July 2014.
  19. "RS-27A". Astronautix. Retrieved July 2014.
  20. 1 2 3 "Delta II Data Sheet". Space Launch Report. Retrieved July 2014.
  21. Dr. Marc D. Rayman (2007-07-15). "DAWN Journal". JPL NASA. Retrieved 2008-09-06.
  22. 1 2 "Delta II Payload Planner's Guide 2007" (PDF). ULA. Retrieved 24 July 2014.
  23. Forsyth, Kevin S. (2007-08-10). "Vehicle Description and Designations". History of the Delta Launch Vehicle. Retrieved 2008-03-15.
  24. "Expendable Launch Vehicle Status Report". NASA. June 6, 2007.
  25. "Swift Launch Pad Activities". 2004-11-18.
  26. "Boeing Delta II to Launch New Additions to Iridium Constellation". Boeing.
  27. Pasztor, Andy (2007-05-29). "Delta II's Fate Worries Nonmilitary Users". WSJ.
  28. "NASA Selects Launch Services Contract For Three Missions". MarketWatch. 16 July 2012. Retrieved 16 July 2012.
  29. "NASA Selects Launch Services for ICESat-2 Mission". NASA Kennedy Space Center. 22 February 2013. Retrieved 15 March 2013.
  30. 1 2 Berger, Brian (2008-06-30). "Delta 2 Rockets to Remain Competitive Until 2015". Space News.
  31. Stephen Clark (August 29, 2009). "NASA looking to solve medium-lift conundrum".
  32. "NASA Launch Services Program Update".
  33. Ray, Justin. "NASA gives the Delta 2 rocket a new lease on life". SpaceFlightNow. Retrieved 17 July 2012.
  34. "NASA Launch Services Program".
  35. "Delta II website".
  36. "2010 Delta II product card" (PDF).
  37. "Mission - Orbiting Carbon Observatory". Jet Propulsion Laboratory. Pasadena, California: NASA. 2015. Archived from the original on 2015-01-31. Retrieved 31 January 2015.
  38. "NASA Selects Launch Services Contract for Three Missions". NASA. 16 July 2012.

External links

Media related to Delta II at Wikimedia Commons

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