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Lockheed D-21

October 21, 2023

The Lockheed D-21 is an American supersonic reconnaissance drone. The D-21 was initially designed to be launched from the back of an M-21 carrier aircraft, a variant of the Lockheed A-12 aircraft. The drone had maximum speed in excess of Mach 3.3 (2,200 miles per hour; 3,600 kilometers per hour) at an operational altitude of 90,000 feet (27,000 meters). Development began in October 1962. Originally known by the Lockheed designation Q-12, the drone was intended for reconnaissance deep into enemy airspace.

D-21
A D-21 on display at the United States Air Force National Museum
Role High-altitude and high speed reconnaissance drone
National origin United States
Manufacturer Lockheed
First flight 22 December 1964
Introduction 1969
Retired 1971
Primary users Central Intelligence Agency
United States Air Force
Number built 38

The D-21 was designed to carry a single high-resolution photographic camera over a preprogrammed path, then release the camera module into the air for retrieval, after which the drone would self-destruct.[1] Following a fatal accident when launched from an M-21, the D-21 was modified to be launched from a Boeing B-52 Stratofortress. Several successful test flights were made, followed by at least four unsuccessful operational D-21 flights over the People's Republic of China, before the program was canceled in 1971.

Design and development Edit

In the 1960s Lockheed's secret Skunk Works developed the Mach 3 A-12 reconnaissance aircraft for the Central Intelligence Agency (CIA). After the shooting down of the U-2 piloted by Gary Powers in 1960, a number of different concepts were proposed as alternatives. Kelly Johnson, the leader of Skunk Works, developed the concept of a long-range drone that used much of the A-12's technology. In October 1962 the CIA and the United States Air Force (USAF) instructed Lockheed to study a high-speed, high-altitude drone concept. Johnson specified speeds of Mach 3.3–3.5, an operational altitude of 87,000–95,000 feet (27,000–29,000 m), and a range of 3,000 nautical miles (3,500 mi; 5,600 km). It was intended to make a one-way trip, eject its camera payload at the end of the mission for recovery, then self-destruct.[2] It had a double-delta wing similar to the A-12's wing design. The Q-12 was to be air-launched from the back of an A-12, and used key technology from the A-12 project, including titanium construction and radar cross-section reduction design features.[3]

 
Rear view of the D-21 and M-21 combination on the ground, showing the exhaust shroud used on early flights

Johnson wanted to power the Q-12 with a ramjet engine built by the Marquardt Corporation for the Boeing CIM-10 Bomarc long-range surface-to-air missile. Marquardt and Lockheed had already collaborated on several programs and had a close working relationship. The engine, the RJ43-MA-11, required modification, since it was only designed to burn as long as the missile needed to hit a target, while the Q-12's engine needed to operate at high temperatures for at least an hour and a half at high altitudes. The modified engine was designated RJ43-MA20S-4.[2]

A full-scale mockup of the Q-12 was ready by 7 December 1962, and had already undergone preliminary tests to measure its radar cross-section. Marquardt had also successfully tested the modified RJ-43 in its wind tunnel in the meantime.[4] However, the CIA was not enthusiastic about the Q-12, mostly because the agency was overextended at the time with U-2 missions, getting the A-12 up to speed and covert operations in Southeast Asia. The USAF, however, was interested in the Q-12 as both a reconnaissance platform and a cruise missile and the CIA finally decided to work with the USAF to develop the new drone. Lockheed was awarded a contract in March 1963 for full-scale development of the Q-12.[3]

The camera and its film magazines with an inertial navigation system were carried in a cramped "Q-bay" below the drone's air intake. These components were built into a module that fit into the bay and was known as a "hatch". The hatch would be ejected at the end of the mission and then snagged out of the air by a JC-130 Hercules, a technique that had been developed by the USAF to recover film canisters from satellites. If the C-130 missed, the hatch was equipped with flotation devices so it could be recovered by ship if released over water. Honeywell built the avionics systems; new construction techniques and materials had to be developed for the systems to withstand the high temperatures, extreme vibrations and lack of space in the D-21.[5]

 
M-21 carrying D-21 in flight

In late 1963 the project was named Tagboard; the Q-12 was re-designated D-21 while the A-12 version launcher became M-21 (D- for "daughter" and M- for "mother"). Two of the original 18 A-12 aircraft were designated as M-21s with serial numbers 60-6940 and 60-6941. The M-21 was a two-seat version of the A-12, with a pylon on the fuselage centerline between the vertical stabilizers to carry the drone in a nose-up attitude.[6]

Testing and carrier change Edit

A D-21 mounted on an M-21 began captive flight-testing on 22 December 1964. Aerodynamic covers were initially placed over the D-21's intake and exhaust to reduce drag, but had to be removed after the first few tests, as no way of discarding them at Mach 3 without damaging the drone or carrier plane could be devised.[7]

The D-21 was first launched from an M-21 on 5 March 1966.[8] The drone was released but stayed close to the M-21's back for a few seconds, which seemed like "two hours" to the M-21 crew.[9] A second launch took place on 27 April 1966; the D-21 reached its operational altitude of 90,000 ft (27,000 m) and speed of over Mach 3.3 (2,200 mph; 3,600 km/h), though it was lost due to a hydraulic pump failure after a flight of over 1,200 nmi (1,400 mi; 2,200 km). The USAF's interest in the program continued and more D-21s were ordered after the second launch.[8] A third flight took place on 16 June with the D-21 flying 1,550 nmi (1,800 mi; 2,900 km) through its complete flight profile, though its camera hatch was not released due to an electronics failure.[10]

The fourth and final launch from an M-21 on 30 July ended in disaster. Unlike the three previous launches this one was performed straight and level, not in an outside loop to assist in the separation of the drone from the aircraft. The D-21 suffered engine problems and struck the M-21's tail after separation, leading to the destruction of both aircraft. The two crew ejected and landed at sea. The pilot, Bill Park, survived, but the Launch Control Officer, Ray Torrick, drowned.[10][11]

 
A modified D-21 carried on the wing of a B-52

Following the accident, Johnson suggested launching the D-21 from the Boeing B-52 Stratofortress bomber and adding a solid rocket booster to get it up to speed.[12] The drone was modified by adding attachment points on its spine to mate with the carrying pylon on the B-52 and its belly attachment points were adapted to accommodate the rocket booster necessary to increase its speed and allow its ramjet to operate. Its vertical stabilizer was increased in size by approximately 20%. The modified drone version was designated D-21B (there was no D-21A). Two B-52Hs were modified to carry a pair of drones each by means of two large underwing pylons that replaced the smaller pylons used for the AGM-28 Hound Dog cruise missiles. The tail gunner's and electronic warfare officer's stations were replaced with two launch control stations. Command and telemetry systems were added, and high-speed cameras were installed to track the drones as they separated from the pylons. The launch control officer on the B-52H could communicate with the D-21B and could make it self-destruct.[13]

 
A D-21B being launched, illustrating the size of the booster relative to the drone

The solid-propellant rocket booster was both larger and heavier than the drone; it was 44 feet 4 inches (14 m) long and weighed 13,286 pounds (6,000 kg). It had a folding tail fin on the bottom to stabilize it while the rocket was firing. The booster had a burn time of 87 seconds and a thrust of 27,300 pounds-force (121 kN).[14] During ground handling everyone within 25 feet (7.6 m) was required to wear anti-static straps to prevent any discharge of static electricity that might ignite the booster.[15]

The first attempted launch of a D-21B was on 28 September 1967, but the drone fell off the B-52's launch pylon due to a stripped nut on the pylon before the aircraft reached its intended launch point. Johnson admitted that the incident was "very embarrassing". Three more launches were performed from November 1967 through January 1968. None were completely successful, so Johnson ordered his team to conduct a thorough review before renewing launch attempts.[16] The next launch was on 10 April 1968. It also failed as the engine did not ignite. On 16 June the D-21B finally made a completely successful flight; it flew at the specified altitude and course for its full range, and the hatch was recovered.[17] The next two launches were failures, followed by another successful flight in December. A test in February 1969 to check the inertial navigation system using an actual mission profile was a failure. The next two flights in May and July succeeded.[18]

Operational history Edit

 
A full view of same B-52 as above with both D-21B drones shown

Four operational missions with the D-21B took place under the codename of Senior Bowl. These were conducted over the People's Republic of China from 9 November 1969 to 20 March 1971 to spy on the Lop Nor nuclear test site. The USAF's 4200th Support Squadron, based at Beale Air Force Base, California, flew the missions, usually from Andersen Air Force Base in Guam.[19]

The Chinese government never reported spotting the D-21B in flight. The first one failed to turn around and continued straight on, crashing in the Soviet Union.[20] Another test flight was conducted on 20 February 1970 in a successful attempt to correct any problems. The second operational mission, however, was not until 16 December 1970. The D-21B reached Lop Nor and returned to the recovery point, but the hatch had a partial parachute failure and was lost at sea with its photographs.[17]

During the third operational mission, on 4 March 1971, the D-21B flew to Lop Nor and returned, and released the hatch, which deployed its parachute, but the midair recovery failed and the hatch fell into the water. The destroyer that tried to retrieve the hatch ran it down and it sank. The fourth, and last, operational flight of the D-21B was on 20 March 1971. It was lost over China on the final segment of the route over China's Yunnan province;[21] wreckage was found by local authorities. In 2010, after being in the junkyard of the China Aviation Museum for years, the wreckage was moved to the exhibition area.[22]

On 23 July 1971, the D-21B program was canceled due to its poor success rate, the introduction of a new generation of photo reconnaissance satellites, and President Richard Nixon's rapprochement with China.[23] A total of 38 D-21 and D-21B drones had been built, 21 of which were expended in launches. The remaining 17 were initially stored at Norton Air Force Base, California, then moved to the Davis-Monthan Air Force Base "boneyard" near Tucson, Arizona,[24] in 1976 and 1977. With the base open to the public, the D-21 drones were quickly spotted and photographed. The Air Force called them GTD-21Bs with the GT standing for Ground Training.[25]

The fate of the D-21 that had disappeared on the first operational flight was finally revealed in February 1986 when an official from the CIA returned a panel to Ben Rich that he had been given by a Soviet KGB agent. The drone had self-destructed over Siberia and the Soviets had recovered the wreckage.[26] The Tupolev design bureau reverse-engineered the wreck and produced plans for a Soviet copy, named the Voron (Raven), but it was never built.[27]

In the late 1990s NASA considered using a D-21 to test a hybrid rocket-based combined cycle engine, which operates as a ramjet or rocket, depending on its flight regime. Ultimately NASA used a derivative of the agency's X-43A hypersonic test vehicle for the experiments.[28]

Aircraft on display Edit

 
D-21 on display at the Blackbird Airpark, Air Force Plant 42, Palmdale, California
 
A close-up rear view of D-21 on M-21 at the Museum of Flight in Seattle
 
SR-71 and D-21 at the Pima Air & Space Museum, Tucson, Arizona
 
D-21 wreck in the Chinese Aviation Museum

Specifications (Lockheed D-21) Edit

Data from Pace,[40] Landis & Jenkins,[41] Donald[42]

General characteristics

  • Length: 42 ft 10 in (13.06 m)
  • Wingspan: 19 ft 0.25 in (5.7976 m)
  • Height: 7 ft 0.25 in (2.1400 m)
  • Gross weight: 11,000 lb (4,990 kg)
  • Powerplant: 1 × Marquardt RJ43-MA-20S4 ramjet, 1,500 lbf (6.7 kN) thrust

Performance

  • Maximum speed: Mach 3.35
  • Cruise speed: 2,524 mph (4,062 km/h, 2,193 kn) (Mach 3.32)[43]
  • Range: 3,500 mi (5,600 km, 3,000 nmi)
  • Service ceiling: 95,000 ft (29,000 m)

See also Edit

Related development

Related lists

References Edit

Citations Edit

  1. ^ Donald 2003, pp. 154–56.
  2. ^ a b Goodall and Goodall 2002, p. 106.
  3. ^ a b Pace 2004, p. 55.
  4. ^ Goodall and Goodall 2002, pp. 106–107.
  5. ^ Goodall and Goodall 2002, pp. 112–114.
  6. ^ Goodall and Goodall 2002, p. 107.
  7. ^ Goodall and Goodall 2002, p. 109.
  8. ^ a b Donald 2003, p. 155.
  9. ^ Peebles 1999, p. 125.
  10. ^ a b Goodall and Goodall 2002, p. 108.
  11. ^ Landis and Jenkins 2005, pp. 24–25.
  12. ^ Landis and Jenkins 2005, pp. 25–26.
  13. ^ Goodall and Goodall 2002, pp. 109, 113, 117.
  14. ^ Peebles 1999, p. 127.
  15. ^ Goodall and Goodall 2002, pp. 115–116.
  16. ^ Peebles 1999, p. 129.
  17. ^ a b Goodall and Goodall 2002, p. 118.
  18. ^ Miller 1995, p. 141.
  19. ^ Goodall and Goodall 2002, pp. 112, 118.
  20. ^ . CIA. 4 October 1983. Archived from the original on 23 January 2017.
  21. ^ Peebles 1999, p. 131.
  22. ^ . Airforceworld.com. Archived from the original on 18 April 2019. Retrieved 29 August 2011.
  23. ^ Peebles 1999, pp. 133–34.
  24. ^ Landis and Jenkins 2005, p. 28.
  25. ^ Peebles 1999, p. 132.
  26. ^ Peebles 1999, p. 134.
  27. ^ Gordon and Rigamant 2005, pp. 325–27.
  28. ^ Landis and Jenkins 2005, pp. 28–29.
  29. ^ "Lockheed D-21B Drone". The Museum of Flight. Retrieved 5 April 2011.
  30. ^ "D-21 Drone". Retrieved 4 May 2018.
  31. ^ "U.S. Air Force Fact Sheet Lockheed D-21B". National Museum of the US Air Force. Retrieved 4 May 2018.
  32. ^ a b Pace 2004, p. 64.
  33. ^ "Lockheed D-21 No. 527 SR-71 Drone". flickr.com, 5 August 2010.
  34. ^ "GTD-21 TAGBOARD DRONE". Retrieved 4 May 2018.
  35. ^ . Pima Air & Space Museum. Archived from the original on 5 May 2018. Retrieved 4 May 2018.
  36. ^ "Support Aircraft". Evergreen Aviation Museum. Retrieved 15 March 2011.
  37. ^ "Lockheed D-21B (#537) Drone". March Field Air Museum. Retrieved 4 May 2018.
  38. ^ "The Story of our D21: Article "#538?"" (PDF). Southern Museum of Flight. Retrieved 16 August 2021.
  39. ^ "Cold War drone calls Beale home". Beale Air Force Base. 29 March 2013. Retrieved 18 November 2017.
  40. ^ Pace 2004, p. 63.
  41. ^ Landis and Jenkins 2005, pp. 23–25.
  42. ^ Donald 2003, pp. 154–55.
  43. ^ Cantrell Jr; Cassidy, C. R.; M. D. (1 August 1967). "Operational Limits and Characteristics During Mated Flight and Launch" (PDF). Retrieved 29 March 2022.{{cite web}}: CS1 maint: multiple names: authors list (link)

Bibliography Edit

  • Donald, David, ed. (2003). "Lockheed's Blackbirds: A-12, YF-12 and SR-71". Black Jets. Norwalk, Connecticut: AIRtime Publishing. ISBN 1-880588-67-6.
  • Goodall, James C. and Nora D. (2002). "Senior Bowl–the Lockeed D-21". International Air Power Review. Norwalk, Connecticut: AIRtime Publishing. 3: 106–119. ISSN 1473-9917.
  • Gordon, Yefim; Rigamant, Vladimir (2005). OKB Tupolev: A History of the Design Bureau and its Aircraft. Hinckley, England: Midland Publishing. ISBN 1-85780-214-4. OCLC 475344733.
  • Landis, Tony R.; Dennis R. Jenkins (2005). Lockheed Blackbirds. Warbird Tech. Vol. 10 (Revised ed.). North Branch, Minnesota: Specialty Press. ISBN 1-58007-086-8.
  • Miller, Jay (1995). Lockheed Martin's Skunk Works (Revised ed.). Leicester, England: Midland Publishing. ISBN 1-85780-037-0.
  • Pace, Steve (2004). Lockheed SR-71 Blackbird. Swindon: Crowood Press. ISBN 1-86126-697-9.
  • Peebles, Curtiss (1999). Dark Eagles: A History of Top Secret U.S. Aircraft Programs (Revised ed.). Novato, California: Presidio Press. ISBN 0-89141-696-X.
  • Rich, Ben; Janos, Leo (1996). Skunk Works. Boston: Little, Brown & Company. ISBN 0-316-74300-3.

External links Edit

 
Wikimedia Commons has media related to Lockheed D-21.
  • Loss of M-21 and D-21, including video of successful launches and the midair collision
  • Directory of U.S. Military Rockets and Missiles
  • Weapons of Precise Destruction

October 21, 2023
lockheed, american, supersonic, reconnaissance, drone, initially, designed, launched, from, back, carrier, aircraft, variant, lockheed, aircraft, drone, maximum, speed, excess, mach, miles, hour, kilometers, hour, operational, altitude, feet, meters, developme. The Lockheed D 21 is an American supersonic reconnaissance drone The D 21 was initially designed to be launched from the back of an M 21 carrier aircraft a variant of the Lockheed A 12 aircraft The drone had maximum speed in excess of Mach 3 3 2 200 miles per hour 3 600 kilometers per hour at an operational altitude of 90 000 feet 27 000 meters Development began in October 1962 Originally known by the Lockheed designation Q 12 the drone was intended for reconnaissance deep into enemy airspace D 21A D 21 on display at the United States Air Force National MuseumRole High altitude and high speed reconnaissance droneNational origin United StatesManufacturer LockheedFirst flight 22 December 1964Introduction 1969Retired 1971Primary users Central Intelligence AgencyUnited States Air ForceNumber built 38The D 21 was designed to carry a single high resolution photographic camera over a preprogrammed path then release the camera module into the air for retrieval after which the drone would self destruct 1 Following a fatal accident when launched from an M 21 the D 21 was modified to be launched from a Boeing B 52 Stratofortress Several successful test flights were made followed by at least four unsuccessful operational D 21 flights over the People s Republic of China before the program was canceled in 1971 Contents 1 Design and development 1 1 Testing and carrier change 2 Operational history 3 Aircraft on display 4 Specifications Lockheed D 21 5 See also 6 References 6 1 Citations 6 2 Bibliography 7 External linksDesign and development EditIn the 1960s Lockheed s secret Skunk Works developed the Mach 3 A 12 reconnaissance aircraft for the Central Intelligence Agency CIA After the shooting down of the U 2 piloted by Gary Powers in 1960 a number of different concepts were proposed as alternatives Kelly Johnson the leader of Skunk Works developed the concept of a long range drone that used much of the A 12 s technology In October 1962 the CIA and the United States Air Force USAF instructed Lockheed to study a high speed high altitude drone concept Johnson specified speeds of Mach 3 3 3 5 an operational altitude of 87 000 95 000 feet 27 000 29 000 m and a range of 3 000 nautical miles 3 500 mi 5 600 km It was intended to make a one way trip eject its camera payload at the end of the mission for recovery then self destruct 2 It had a double delta wing similar to the A 12 s wing design The Q 12 was to be air launched from the back of an A 12 and used key technology from the A 12 project including titanium construction and radar cross section reduction design features 3 nbsp Rear view of the D 21 and M 21 combination on the ground showing the exhaust shroud used on early flightsJohnson wanted to power the Q 12 with a ramjet engine built by the Marquardt Corporation for the Boeing CIM 10 Bomarc long range surface to air missile Marquardt and Lockheed had already collaborated on several programs and had a close working relationship The engine the RJ43 MA 11 required modification since it was only designed to burn as long as the missile needed to hit a target while the Q 12 s engine needed to operate at high temperatures for at least an hour and a half at high altitudes The modified engine was designated RJ43 MA20S 4 2 A full scale mockup of the Q 12 was ready by 7 December 1962 and had already undergone preliminary tests to measure its radar cross section Marquardt had also successfully tested the modified RJ 43 in its wind tunnel in the meantime 4 However the CIA was not enthusiastic about the Q 12 mostly because the agency was overextended at the time with U 2 missions getting the A 12 up to speed and covert operations in Southeast Asia The USAF however was interested in the Q 12 as both a reconnaissance platform and a cruise missile and the CIA finally decided to work with the USAF to develop the new drone Lockheed was awarded a contract in March 1963 for full scale development of the Q 12 3 The camera and its film magazines with an inertial navigation system were carried in a cramped Q bay below the drone s air intake These components were built into a module that fit into the bay and was known as a hatch The hatch would be ejected at the end of the mission and then snagged out of the air by a JC 130 Hercules a technique that had been developed by the USAF to recover film canisters from satellites If the C 130 missed the hatch was equipped with flotation devices so it could be recovered by ship if released over water Honeywell built the avionics systems new construction techniques and materials had to be developed for the systems to withstand the high temperatures extreme vibrations and lack of space in the D 21 5 nbsp M 21 carrying D 21 in flightIn late 1963 the project was named Tagboard the Q 12 was re designated D 21 while the A 12 version launcher became M 21 D for daughter and M for mother Two of the original 18 A 12 aircraft were designated as M 21s with serial numbers 60 6940 and 60 6941 The M 21 was a two seat version of the A 12 with a pylon on the fuselage centerline between the vertical stabilizers to carry the drone in a nose up attitude 6 Testing and carrier change Edit A D 21 mounted on an M 21 began captive flight testing on 22 December 1964 Aerodynamic covers were initially placed over the D 21 s intake and exhaust to reduce drag but had to be removed after the first few tests as no way of discarding them at Mach 3 without damaging the drone or carrier plane could be devised 7 The D 21 was first launched from an M 21 on 5 March 1966 8 The drone was released but stayed close to the M 21 s back for a few seconds which seemed like two hours to the M 21 crew 9 A second launch took place on 27 April 1966 the D 21 reached its operational altitude of 90 000 ft 27 000 m and speed of over Mach 3 3 2 200 mph 3 600 km h though it was lost due to a hydraulic pump failure after a flight of over 1 200 nmi 1 400 mi 2 200 km The USAF s interest in the program continued and more D 21s were ordered after the second launch 8 A third flight took place on 16 June with the D 21 flying 1 550 nmi 1 800 mi 2 900 km through its complete flight profile though its camera hatch was not released due to an electronics failure 10 The fourth and final launch from an M 21 on 30 July ended in disaster Unlike the three previous launches this one was performed straight and level not in an outside loop to assist in the separation of the drone from the aircraft The D 21 suffered engine problems and struck the M 21 s tail after separation leading to the destruction of both aircraft The two crew ejected and landed at sea The pilot Bill Park survived but the Launch Control Officer Ray Torrick drowned 10 11 nbsp A modified D 21 carried on the wing of a B 52Following the accident Johnson suggested launching the D 21 from the Boeing B 52 Stratofortress bomber and adding a solid rocket booster to get it up to speed 12 The drone was modified by adding attachment points on its spine to mate with the carrying pylon on the B 52 and its belly attachment points were adapted to accommodate the rocket booster necessary to increase its speed and allow its ramjet to operate Its vertical stabilizer was increased in size by approximately 20 The modified drone version was designated D 21B there was no D 21A Two B 52Hs were modified to carry a pair of drones each by means of two large underwing pylons that replaced the smaller pylons used for the AGM 28 Hound Dog cruise missiles The tail gunner s and electronic warfare officer s stations were replaced with two launch control stations Command and telemetry systems were added and high speed cameras were installed to track the drones as they separated from the pylons The launch control officer on the B 52H could communicate with the D 21B and could make it self destruct 13 nbsp A D 21B being launched illustrating the size of the booster relative to the droneThe solid propellant rocket booster was both larger and heavier than the drone it was 44 feet 4 inches 14 m long and weighed 13 286 pounds 6 000 kg It had a folding tail fin on the bottom to stabilize it while the rocket was firing The booster had a burn time of 87 seconds and a thrust of 27 300 pounds force 121 kN 14 During ground handling everyone within 25 feet 7 6 m was required to wear anti static straps to prevent any discharge of static electricity that might ignite the booster 15 The first attempted launch of a D 21B was on 28 September 1967 but the drone fell off the B 52 s launch pylon due to a stripped nut on the pylon before the aircraft reached its intended launch point Johnson admitted that the incident was very embarrassing Three more launches were performed from November 1967 through January 1968 None were completely successful so Johnson ordered his team to conduct a thorough review before renewing launch attempts 16 The next launch was on 10 April 1968 It also failed as the engine did not ignite On 16 June the D 21B finally made a completely successful flight it flew at the specified altitude and course for its full range and the hatch was recovered 17 The next two launches were failures followed by another successful flight in December A test in February 1969 to check the inertial navigation system using an actual mission profile was a failure The next two flights in May and July succeeded 18 Operational history Edit nbsp A full view of same B 52 as above with both D 21B drones shownFour operational missions with the D 21B took place under the codename of Senior Bowl These were conducted over the People s Republic of China from 9 November 1969 to 20 March 1971 to spy on the Lop Nor nuclear test site The USAF s 4200th Support Squadron based at Beale Air Force Base California flew the missions usually from Andersen Air Force Base in Guam 19 The Chinese government never reported spotting the D 21B in flight The first one failed to turn around and continued straight on crashing in the Soviet Union 20 Another test flight was conducted on 20 February 1970 in a successful attempt to correct any problems The second operational mission however was not until 16 December 1970 The D 21B reached Lop Nor and returned to the recovery point but the hatch had a partial parachute failure and was lost at sea with its photographs 17 During the third operational mission on 4 March 1971 the D 21B flew to Lop Nor and returned and released the hatch which deployed its parachute but the midair recovery failed and the hatch fell into the water The destroyer that tried to retrieve the hatch ran it down and it sank The fourth and last operational flight of the D 21B was on 20 March 1971 It was lost over China on the final segment of the route over China s Yunnan province 21 wreckage was found by local authorities In 2010 after being in the junkyard of the China Aviation Museum for years the wreckage was moved to the exhibition area 22 On 23 July 1971 the D 21B program was canceled due to its poor success rate the introduction of a new generation of photo reconnaissance satellites and President Richard Nixon s rapprochement with China 23 A total of 38 D 21 and D 21B drones had been built 21 of which were expended in launches The remaining 17 were initially stored at Norton Air Force Base California then moved to the Davis Monthan Air Force Base boneyard near Tucson Arizona 24 in 1976 and 1977 With the base open to the public the D 21 drones were quickly spotted and photographed The Air Force called them GTD 21Bs with the GT standing for Ground Training 25 The fate of the D 21 that had disappeared on the first operational flight was finally revealed in February 1986 when an official from the CIA returned a panel to Ben Rich that he had been given by a Soviet KGB agent The drone had self destructed over Siberia and the Soviets had recovered the wreckage 26 The Tupolev design bureau reverse engineered the wreck and produced plans for a Soviet copy named the Voron Raven but it was never built 27 In the late 1990s NASA considered using a D 21 to test a hybrid rocket based combined cycle engine which operates as a ramjet or rocket depending on its flight regime Ultimately NASA used a derivative of the agency s X 43A hypersonic test vehicle for the experiments 28 Aircraft on display Edit nbsp D 21 on display at the Blackbird Airpark Air Force Plant 42 Palmdale California nbsp A close up rear view of D 21 on M 21 at the Museum of Flight in Seattle nbsp SR 71 and D 21 at the Pima Air amp Space Museum Tucson Arizona nbsp D 21 wreck in the Chinese Aviation MuseumD 21B 510 Museum of Flight Seattle Washington mounted on remaining M 21 60 6940 29 D 21B 522 Pacific Coast Air Museum Sonoma County California 30 D 21B 524 National Museum of the United States Air Force Wright Patterson Air Force Base Ohio 31 D 21B 525 Blackbird Airpark Palmdale California 32 D 21B 527 Chinese Aviation Museum Beijing China wreckage of the unit lost over China on 20 March 1971 33 D 21B 528 Grissom Air Museum near Peru Indiana 34 D 21B 530 Aerospace Maintenance and Regeneration Group AMARG on Davis Monthan Air Force Base Tucson Arizona 32 D 21B 533 Pima Air amp Space Museum adjacent to Davis Monthan AFB Tucson Arizona 35 D 21B 534 Evergreen Aviation Museum McMinnville Oregon 36 D 21B 537 March Field Air Museum March Air Reserve Base Riverside California 37 D 21B 538 Southern Museum of Flight Birmingham Alabama 38 D 21B 539 Beale Air Force Base near Marysville California 39 Specifications Lockheed D 21 EditData from Pace 40 Landis amp Jenkins 41 Donald 42 General characteristicsLength 42 ft 10 in 13 06 m Wingspan 19 ft 0 25 in 5 7976 m Height 7 ft 0 25 in 2 1400 m Gross weight 11 000 lb 4 990 kg Powerplant 1 Marquardt RJ43 MA 20S4 ramjet 1 500 lbf 6 7 kN thrustPerformance Maximum speed Mach 3 35 Cruise speed 2 524 mph 4 062 km h 2 193 kn Mach 3 32 43 Range 3 500 mi 5 600 km 3 000 nmi Service ceiling 95 000 ft 29 000 m See also EditRelated development Lockheed M 21Related lists List of military aircraft of the United States List of Lockheed aircraftReferences EditCitations Edit Donald 2003 pp 154 56 a b Goodall and Goodall 2002 p 106 a b Pace 2004 p 55 Goodall and Goodall 2002 pp 106 107 Goodall and Goodall 2002 pp 112 114 Goodall and Goodall 2002 p 107 Goodall and Goodall 2002 p 109 a b Donald 2003 p 155 Peebles 1999 p 125 a b Goodall and Goodall 2002 p 108 Landis and Jenkins 2005 pp 24 25 Landis and Jenkins 2005 pp 25 26 Goodall and Goodall 2002 pp 109 113 117 Peebles 1999 p 127 Goodall and Goodall 2002 pp 115 116 Peebles 1999 p 129 a b Goodall and Goodall 2002 p 118 Miller 1995 p 141 Goodall and Goodall 2002 pp 112 118 Interview with James A Cunningham Jr Director of Development Projects Division CIA 4 October 1983 Archived from the original on 23 January 2017 Peebles 1999 p 131 Lockheed D 21B No 527 now in the China Aviation Museum Airforceworld com Archived from the original on 18 April 2019 Retrieved 29 August 2011 Peebles 1999 pp 133 34 Landis and Jenkins 2005 p 28 Peebles 1999 p 132 Peebles 1999 p 134 Gordon and Rigamant 2005 pp 325 27 Landis and Jenkins 2005 pp 28 29 Lockheed D 21B Drone The Museum of Flight Retrieved 5 April 2011 D 21 Drone Retrieved 4 May 2018 U S Air Force Fact Sheet Lockheed D 21B National Museum of the US Air Force Retrieved 4 May 2018 a b Pace 2004 p 64 Lockheed D 21 No 527 SR 71 Drone flickr com 5 August 2010 GTD 21 TAGBOARD DRONE Retrieved 4 May 2018 Lockheed D 21B Pima Air amp Space Museum Archived from the original on 5 May 2018 Retrieved 4 May 2018 Support Aircraft Evergreen Aviation Museum Retrieved 15 March 2011 Lockheed D 21B 537 Drone March Field Air Museum Retrieved 4 May 2018 The Story of our D21 Article 538 PDF Southern Museum of Flight Retrieved 16 August 2021 Cold War drone calls Beale home Beale Air Force Base 29 March 2013 Retrieved 18 November 2017 Pace 2004 p 63 Landis and Jenkins 2005 pp 23 25 Donald 2003 pp 154 55 Cantrell Jr Cassidy C R M D 1 August 1967 Operational Limits and Characteristics During Mated Flight and Launch PDF Retrieved 29 March 2022 a href Template Cite web html title Template Cite web cite web a CS1 maint multiple names authors list link Bibliography Edit Donald David ed 2003 Lockheed s Blackbirds A 12 YF 12 and SR 71 Black Jets Norwalk Connecticut AIRtime Publishing ISBN 1 880588 67 6 Goodall James C and Nora D 2002 Senior Bowl the Lockeed D 21 International Air Power Review Norwalk Connecticut AIRtime Publishing 3 106 119 ISSN 1473 9917 Gordon Yefim Rigamant Vladimir 2005 OKB Tupolev A History of the Design Bureau and its Aircraft Hinckley England Midland Publishing ISBN 1 85780 214 4 OCLC 475344733 Landis Tony R Dennis R Jenkins 2005 Lockheed Blackbirds Warbird Tech Vol 10 Revised ed North Branch Minnesota Specialty Press ISBN 1 58007 086 8 Miller Jay 1995 Lockheed Martin s Skunk Works Revised ed Leicester England Midland Publishing ISBN 1 85780 037 0 Pace Steve 2004 Lockheed SR 71 Blackbird Swindon Crowood Press ISBN 1 86126 697 9 Peebles Curtiss 1999 Dark Eagles A History of Top Secret U S Aircraft Programs Revised ed Novato California Presidio Press ISBN 0 89141 696 X Rich Ben Janos Leo 1996 Skunk Works Boston Little Brown amp Company ISBN 0 316 74300 3 External links Edit nbsp Wikimedia Commons has media related to Lockheed D 21 Loss of M 21 and D 21 including video of successful launches and the midair collision Directory of U S Military Rockets and Missiles Weapons of Precise Destruction Photos of Lockheed D 21B No 527 in China Aviation Museum Beijing Retrieved from https en wikipedia org w index php title Lockheed D 21 amp oldid 1180512518, wikipedia, wiki, book, books, library,

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