Hawker Siddeley Nimrod

Nimrod
Hawker Siddeley Nimrod R1
Role	Maritime patrol, ELINT
Manufacturer	Hawker Siddeley BAE Systems
First flight	23 May 1967
Introduction	2 October 1969
Retired	28 June 2011[1]
Status	MR1 inactive R1 inactive MR2 inactive
Primary user	Royal Air Force
Number built	49 (+2 prototypes)
Developed from	de Havilland Comet
Variants	Nimrod AEW.3 Nimrod MRA.4

The Hawker Siddeley Nimrod was a maritime patrol aircraft developed and operated by the United Kingdom. It is an extensive modification of the de Havilland Comet, the world's first jet airliner. It was originally designed by de Havilland's successor firm, Hawker Siddeley; further development and maintenance work was undertaken by Hawker Siddeley's own successor companies, British Aerospace and BAE Systems, respectively.

Designed in response to a requirement issued by the Royal Air Force (RAF) to replace its fleet of aging Avro Shackletons, the Nimrod MR1/MR2 were primarily fixed-wing aerial platforms for anti-submarine warfare (ASW) operations; secondary roles included maritime surveillance and anti-surface warfare. It served from the early 1970s until March 2010.^[2] The intended replacement was to be extensively rebuilt Nimrod MR2s, designated as Nimrod MRA4; however due to considerable delays, repeated cost overruns, and financial cutbacks, the development of the MRA4 was abandoned in 2010.^[3]

In addition to the three Maritime Reconnaissance variants, two further Nimrod types were developed. The RAF operated a small number of Nimrod R1, an electronic intelligence gathering (ELINT) variant. A dedicated airborne early warning platform, the Nimrod AEW3 was in development from late 1970s to the mid-1980s; however much like the MRA4, considerable development issues were encountered and thus the project was cancelled in 1986 in favour of an off-the-shelf solution in the Boeing E-3 Sentry. All Nimrod variants had been retired by mid-2011.

Development

A wind tunnel model of a Nimrod, in The Science Museum's Blythe House store

MR1

External images

Circa 1967, Nimrod XV242 taxiing at RAF Changi during the type's test and evaluation phase in the Far East

On 4 June 1964, the British Government issued Air Staff Requirement 381 to replace the Avro Shackleton.^[4] The requirement attracted a great deal of interest from both British and foreign aircraft Manufacturers, including the Lockheed P-3 Orion, the Breguet Atlantic and derivatives of the Hawker Siddeley Trident, BAC One-Eleven and de Havilland Comet.^[5] On 2 February 1965, British Prime Minister Harold Wilson announced the intention to order Hawker Siddeley's maritime patrol version of the Comet, the HS.801.^[6][7]

The Nimrod design was based on that of the Comet 4 civil airliner which had reached the end of its commercial life (the first two prototype Nimrods, XV148 & XV147 were built from two final unfinished Comet 4C airframes). The Comet's turbojet engines were replaced by Rolls-Royce Spey turbofans for better fuel efficiency, particularly at the low altitudes required for maritime patrol. Major fuselage changes were made, including an internal weapons bay, an extended nose for radar, a new tail with electronic warfare (ESM) sensors mounted in a bulky fairing, and a MAD (Magnetic anomaly detector) boom. After the first flight in May 1967, the RAF ordered a total of 46 Nimrod MR1s.^[8] The first example (XV230) entered service in October 1969.^[9] A total of five squadrons using the type were stood up, four were permanently based in the UK and a fifth was initially based in Malta.^[9]

R1

Nimrod R1 XV249 at RAF Waddington, June 2011

Three Nimrod aircraft were adapted for the signals intelligence role, replacing the Comet C2s and Canberras of No. 51 Squadron in May 1974.^[10][11] The R1 was visually distinguished from the MR2 by the lack of a MAD boom.^[12] It was fitted with an array of rotating dish aerials in the aircraft's bomb-bay, with further dish aerials in the tail cone and at the front of the wing-mounted fuel tanks. It had a flight crew of four (two pilots, a flight engineer and one navigator) and up to 25 crew operating the SIGINT equipment.^[13]

Only since the end of the Cold War has the role of the aircraft been officially acknowledged; they were once described as "radar calibration aircraft". The R1s have not suffered the same rate of fatigue and corrosion as the MR2s. One R1 was lost in a flying accident since the type's introduction; this occurred in May 1995 during a flight test after major servicing, at RAF Kinloss. To replace this aircraft an MR2 was selected for conversion to R1 standard, and entered service in December 1996.^[14]

The Nimrod R1 was based at RAF Waddington in Lincolnshire, England, and flown by 51 Sqn. The two remaining Nimrod R1s were originally planned to be retired at the end of March 2011, but operational requirements forced the RAF to deploy one to RAF Akrotiri, Cyprus on 16 March in support of Operation Ellamy. The last flight of the type was on 28 June 2011 from RAF Waddington, in the presence of the Chief of the Air Staff, ACM Sir Stephen Dalton.^[1][15] Aircraft XW664 was transferred to East Midlands Aeropark on 12 July 2011 and will go on public display once classified systems have been removed.^[16]

The R1 is to be replaced by ex-USAF Boeing RC-135W Rivet Joint aircraft, which will be known as the Air Seeker in RAF service.^[17][18] The three Air Seekers will be delivered between 2014 and 2018.^[19]

MR2

Nimrod MR2 XV254 at the Royal International Air Tattoo, 2006

Starting in 1975, 35 aircraft were upgraded to MR2 standard, being re-delivered from August 1979.^[20] The upgrade included extensive modernisation of the aircraft's electronic suite. Changes included the replacement of the obsolete ASV Mk 21 radar used by the Shackleton and Nimrod MR1 with the new EMI Searchwater radar, a new acoustic processor (GEC-Marconi AQS-901) capable of handling more modern sonobouys, a new mission data recorder (Hanbush) and additional ESM pods on the wingtips.^[20][21]

Provision for in-flight refuelling was introduced during the Falklands War (as the MR2P), as well as hardpoints to allow the Nimrod to carry the AIM-9 Sidewinder missile to counter enemy Argentine Air Force maritime surveillance aircraft.^[22] In preparation for operations in the Gulf War theatre, several MR2s were fitted with new communications and ECM equipment to deal with anticipated threats; at the time these modified aircraft were given the designation MR2P(GM) (Gulf Mod).^[23]

The Nimrod MR2 carried out three main roles – Anti-Submarine Warfare (ASW), Anti-Surface Unit Warfare (ASUW) and Search and Rescue (SAR). Its extended range enabled the crew to monitor maritime areas far to the north of Iceland and up to 4,000 km out into the Western Atlantic. With Air-to-Air Refuelling (AAR), range and endurance was greatly extended. The crew consisted of two pilots and one flight engineer, two navigators (one tactical navigator and a routine navigator), one Air Electronics Officer (AEO), the sonobuoy sensor team of two Weapon System Operators (WSOp ACO) and four Weapon System Operators (WSOp EW) to manage passive and active electronic warfare systems.

The Nimrod MR2 was based at RAF Kinloss in Scotland and flown by 201, 120, 206, and 42(R) Squadrons. The Nimrod MR2 aircraft was withdrawn on 31 March 2010, a year earlier than planned, for financial reasons.^[24][25] The last official flight of a Nimrod MR2 took place on 26 May 2010, with XV229 flying from RAF Kinloss to Kent International Airport to be used as an evacuation training airframe at the nearby MOD Defence Fire Training and Development Centre.^[26]

AEW3

Nimrod AEW3 XZ286 at the 1980 Farnborough Air Show

Main article: British Aerospace Nimrod AEW3

In the mid-1970s a modified Nimrod was proposed for the Airborne Early Warning (AEW) mission – again as a replacement for the Lancaster-derived, piston-engined Shackleton AEW.2. Eleven existing Nimrod airframes were to be converted by British Aerospace at the former Avro plant at Woodford to house the GEC Marconi radars in a bulbous nose and tail. The Nimrod AEW3 project was plagued by cost over-runs and problems with the GEC 4080M computer used.^[27] Eventually, the MoD recognised that the cost of developing the radar system to achieve the required level of performance was prohibitive and the probability of success very uncertain, and in December 1986 the project was cancelled. The RAF eventually received seven Boeing E-3 Sentry aircraft instead.^[27]

MRA4

Main article: BAE Systems Nimrod MRA4

The Nimrod MRA4 was intended to replace the capability provided by the MR2. It was essentially a new aircraft, with current-generation Rolls-Royce BR710 turbofan engines, a new larger wing, and fully refurbished fuselage. However the project was subject to delays, cost over-runs, and contract re-negotiations; the type had been originally intended to enter service in 2003.^[28] The MRA4 was cancelled in 2010 as a result of the Strategic Defence and Security Review at which point it was £789 million over-budget and nine years late;^[29] the development airframes were also scrapped.^[30] The cancellation of the MRA4 marked an abortive end of the Nimrod's era; the functions it provided were largely abandoned leading to a significant UK capability gap. A few functions were dispersed to other assets, including the use of unmanned aerial vehicles (UAVs) to conduct limited maritime survillence.^[31][32]

Design

Overview

The Nimrod was the first jet-powered maritime patrol aircraft (MPA) to enter service, being powered by the Rolls-Royce Spey turbojet engine.^[8][33] Aircraft in this role have been commonly propelled by piston or turboprop powerplants instead to maximise fuel economy and enable maximum patrol time on station; advantages of the Nimrod's turbojet engines include greater speed and altitude capabilities, it is also more capable to evade detection methods by submarines, whereas propeller-driven aircraft are more detectable underwater to standard acoustic sensors.^[34] Inflight, the Nimrods had a flight endurance of ten hours without aerial refuelling; the MR2s were later fitted to receive mid-air refuelling in response to demands in the Falklands War.^[35]

Nimrod R1 flying into RAF Waddington, January 2011

At the start of a patrol mission all four engines would normally be running, but as the aircraft's weight is reduced by the consumption of onboard fuel up to two engines may be intentionally shut down, allowing the remaining engines to be operated in a more efficient manner.^[8] Instead of relying on ram air to restart an inactive engine, compressor air could be crossfed from a live engine to a starter turbine; the crossfeed duct was later discovered to be a potential fire hazard.^[36][37] Similarly, the two hydraulic systems on board were designed to be powered by the two inner engines that would always be running.^[37] Electrical generation was designed to far exceed the consumption of existing equipment in order to accommodate additional systems installed over the Nimrod's operational service.^[37]

The standard Nimrod fleet carried out three basic operational roles during their RAF service: Anti-Submarine Warfare duties typically involved survelliance over an allocated area of the North Atlantic to detect the presence of Soviet submarines in that area and to track their movements. In the event of war, reconnaissance information gathered during these patrols would be shared with other allied aircraft to enable coordinated strikes at both submarines and surface targets.^[34] Search and Rescue (SAR) missions were another important duty of the RAF's Nimrod fleet, operating under the Air Rescue Coordination Center at RAF Kinloss, and were a common sight in both military and civil maritime incidents. Throughout the Nimrod's operational life, a minimum of one aircraft was being held in a state of readiness to respond to SAR demands at all times.^[34]

Avionics

Nimrod MRA4 ZJ518 at the 2007 RIAT

The Nimrod featured a large crew of up to 25 personnel, although a typical crew numbers roughly 12 members,^[8] most of which operate the various onboard sensor suites and specialist detection equipment.^[35] A significant proportion of the onboard sensor equipment was housed outside the pressure shell inside the Nimrod's distinctive pannier lower fuselage.^[33] Sensor systems included radar, sonar, and the magnetic anomaly detector; a 'sniffer' could detect exhaust fumes from diesel submarines as well.^[38] The Nimrod and its detection capabilities was an important component of Britain's military defence during the height of the Cold War.^[39]

The Nimrod's navigational functions were computerised, and were managed from a central tactical compartment housed in the forward cabin; various aircraft functions such as weapons control and information from sensors such as the large forward doppler radar were displayed and controlled at the tactical station.^[40] The flight systems and autopilot could be directly controlled by navigator's stations in the tactical compartment, giving the navigator nearly complete aircraft control.^[41] The navigational systems comprised digital, analogue, and electro-mechanical elements; the computers were directly integrated with most of the Nimrod's guidance systems such as the air data computer, astrocompass, inertial guidance and doppler radar, navigation information could also be manually input by the operators.^[42]

Upon its introduction to service, the Nimrod was hailed as possessing advanced electronic equipment such as onboard digital computers; the increased capability of these electronic systems allowed the RAF's fleet of 46 Nimrod aircraft to provide equal coverage to that of the larger fleet of retiring Avro Shackletons.^[8] The design philosophy of these computerised systems was that of a 'man-machine partnership'; while onboard computers performed much of the data sift and analysis processes, decisions and actions on the basis of that data remained in the operator's hands.^[9] To support the Nimrod's anticipated long lifespan, onboard computers were designed to be capable of integrating with various new components, systems, and sensors that could be added in future upgrades.^[43] After a mission, gathered information could be extracted for review purposes and for further analysis.^[41]

Armaments and equipment

The Nimrod features a sizable bomb bay in which, in addition to armaments such as torpedos and missiles, could be housed a wide variety of specialist equipment for many purposes, such as up to 150 sonobuoys for ASW purposes or multiple air-deployed dinghies and droppable survival packs such as Lindholme Gear for SAR missions; additional fuel tanks and cargo could also be carried in the bomb bay during ferrying flights.^[33] Other armaments equippable in the bomb bay include mines, bombs, and nuclear depth charges; later munitions included the Sting Ray torpedo and Harpoon missile for increased capabilities.^[11]

Open bomb bay of a Nimrod MR2, 2010

The Nimrod could also be fitted with two detachable pylons mounted underneath the wings to be used with missiles such as the Martel;^[33] two specialised pylons were later added to enable the equipping of Sidewinder missiles, used for self-defence purposes from hostile aircraft.^[35] A powerful remote-controlled searchlight was installed underneath the starboard wing for SAR operations.^[33] For reconnaissance missions, a pair of downward-facing cameras suited to low and high-altitude photography were also equipped on the Nimrod;^[33] in later years a newer electro-optical camera system was installed for greater imaging quality.^[44]

Various new ECMs and electronic support systems were retrofitted onto the Nimrod fleet in response to new challenges and to increase the type's defensive capabilities; additional equipment also provided more effective means of identification and communication.^[45][46] A number of modifications were introduced during the 1991 Gulf War, a small number of MR2s were fitted with improved Link 11 datalinks, new defensive ECM equipment including the first operational use of a towed radar decoy, and a forward looking infrared turret under the starboard wing.^[23]

Operational history

At first the crews, who were transferred to the Nimrod from the piston-engine Avro Shackletons, were not enthusiastic with the craft, mainly because its sensor suite was only marginally superior to the Shackleton's. In fact most sensors were the same, although the aircraft had a new digital data fusion computer. The Nimrod gave sterling service during the "Cod Wars" between Iceland and the UK over fishing rights. During the Falklands war (Operation Corporate), several Nimrods combed the sea for enemy submarines. The Nimrods took part in Operation Granby (the Gulf War 1990/1991), the NATO operations against Serbia in 1999, Operation Telic (the Iraq war in 2003 and beyond), the campaign in Afghanistan, and over Libya in 2011. They also were a routine component of British search and rescue (SAR) operations in the North Sea.

Falklands War

Nimrods were first deployed to Wideawake airfield on Ascension Island on 5 April 1982,^[47] the type at first being used to fly local patrols around Ascension to guard against potential Argentine attacks, and to escort the British Task Force as it sailed south towards the Falkands, with Nimrods also being used to provide search and rescue as well as communications relay support of the Operation Black Buck bombing raids by Avro Vulcans.^[48] As the Task Force neared what would become the combat theatre and the threat from Argentine submarines rose, the more capable Nimrod MR2s took on operations initially performed by older Nimrod MR1s.^[49] Aviation author Chris Chant has claimed that the Nimrod R1 also conducted electronic intelligence missions operating from Punta Arenas in neutral Chile.^[50]

The addition of air-to-air refuelling probes allowed operations to be carried out in the vicinity of the Falklands, while the aircraft's armament was supplemented by the addition of 1,000 lb (450 kg) general purpose bombs, BL755 cluster bombs and AIM-9 Sidewinder air-to-air missiles.^[51] The use of air-to-air refuelling allowed extremely long reconnaissance missions to be mounted, one example being a 19-hour 15 minute patrol conducted on 15 May 1982, which passing within 60 miles (97 km) of the Argentine coast to confirm that Argentine surface vessels were not at sea. Another long-range flight was carried out by an MR2 on the night of 20/21 May, covering a total of 8,453 miles (13,609 km), the longest distance flight carried out during the Falklands War.^[52] In all, Nimrods flew 111 missions from Ascension in support of British operations during the Falklands War.^[53]

Gulf War

A detachment of three Nimrod MR2s was deployed to Seeb in Oman in August 1990 as a result of the Iraqi invasion of Kuwait, carrying out patrols over the Gulf of Oman and Persian Gulf. Due to the level of threats present in the Gulf theatre, operational Nimrods were quickly retrofitted with a Marconi towed active decoy.^[54] Once hostilities commenced, the Nimrod detachment, by now increased to five aircraft, concentrated on night patrols, with daylight patrols carried out by US Navy Lockheed P-3 Orions. Nimrods were used to guide Westland Lynx helicopters and Grumman A-6 Intruder attack aircraft against Iraqi patrol vessels, being credited with assisting in sinking or damaging 16 Iraqi vessels.^[23] Britain elected to maintain an RAF presence with the Nimrod and other assets following the Gulf War.^[55]

Nimrod MR2 operating in the Middle East, 2003

Afghanistan and Iraq War

Nimrods were again deployed to the Middle East as part of the British contribution to the US-led invasion of Afghanistan; missions in this theatre involved the Nimrods performing lengthy overland flights for intelligence-gathering purposes.^[56] On 2 September 2006, 12 RAF personnel were killed when a Nimrod MR2 was destroyed in a midair explosion following an onboard fire over Afghanistan, it was the single greatest loss of British life since the Falklands War.^[57][58] The outbreak of the Iraq War in March 2003 saw the RAF's Nimrods being used for operations over Iraq, using the aircraft's sensors to detect hostile forces and to direct attacks by friendly coalition forces.^[59]

Search and rescue

While the Nimrod MR1/MR2 was in service, one aircraft from each of the squadrons on rotation was available for search and rescue operations at one-hour standby. The standby aircraft carried two sets of Lindholme Gear in the weapons bay. Usually one other Nimrod airborne on a training mission would also carry a set of Lindholme Gear. As well as using the aircraft sensors to find aircraft or ships in trouble, it was used to find survivors in the water, with a capability to search areas of up to 20,000 square miles (52,000 km²). The main role would normally be to act as on-scene rescue coordinator to control ships, fixed-wing aircraft, and helicopters in the search area.^[60]

Because of the search and rescue role, Nimrod aircraft often appeared in the media in connection with major rescue incidents. In August 1979, several Nimrods were involved in locating yachting competitors during the disaster-stricken 1979 Fastnet race and coordinated with helicopters in searches for survivors from lost vessels.^[61] In March 1980, the Alexander L. Kielland was a Norwegian semi-submersible drilling rig that capsized whilst working in the Ekofisk oil field killing 123 people; six different Nimrods searched for survivors and took turns to provide rescue co-ordination, involving the control of 80 surface ships and 20 British and Norwegian helicopters.^[60][62] In an example of the search capabilities, in September 1977 when an attempted crossing of the North Atlantic in a Zodiac inflatable dinghy went wrong, a Nimrod found the collapsed dinghy and directed a ship to it.^[60]

Offshore Tapestry

Nimrods at RAF Kinloss, 1999

Tapestry is a codeword for the activities by ships and aircraft that protect the United Kingdom's Sovereign Sea Areas, including the protection of fishing rights and oil and gas extraction. Following the establishment of a 200 nautical miles (370 km) Exclusive Economic Zone (EEZ) at the beginning of 1977 the Nimrod fleet was given the task of patrolling the 270,000 square miles (700,000 km²) area. The aircraft would locate, identify, and photograph vessels operating in the EEZ. The whole area was normally covered every week, with each vessel being photographed. The aircraft would also check and communicate with all oil and gas platforms. In 1978 a Nimrod arrested an illegal fishing vessel from the air in the Western Approaches and made the vessel proceed to Milford Haven for further investigation. During the Icelandic Cod Wars of 1972 and 1975–1976 the Nimrod aircraft operated with Royal Navy surface vessels protecting British fishing fleets.^[60][63]

Operators

 United Kingdom

• Royal Air Force

Squadron	Dates	Aircraft	Station
42 Squadron	1971–1984	Nimrod MR1	RAF St Mawgan
	1983–2010	Nimrod MR2	RAF St Mawgan, RAF Kinloss
51 Squadron	1971–2011	Nimrod R1	RAF Wyton, RAF Waddington
120 Squadron	1970–1982	Nimrod MR1	RAF Kinloss
	1981–2010	Nimrod MR2	RAF Kinloss
201 Squadron	1970–1983	Nimrod MR1	RAF Kinloss
	1982–2010	Nimrod MR2	RAF Kinloss
203 Squadron	1971–1977	Nimrod MR1	RAF Luqa
206 Squadron	1970–1981	Nimrod MR1	RAF Kinloss
	1980–2005	Nimrod MR2	RAF Kinloss
236 OCU	1970–1992	Nimrod MR1 and MR2	RAF St Mawgan
Joint Trials Unit	1984–1987	Nimrod AEW3	RAF Waddington

Survivors

External video

Nimrod arriving at Manchest Airport aviation viewing park

Nimrod conducts flyover prior to landing at Coventry Airport

Nimrod MR2 take-off from RAF Kinloss

MR2

• XV226 – Bruntingthorpe Aerodrome^[64]
• XV231 – Manchester Airport aviation viewing park^[65]
• XV229 – Manston Airport, Kent, used as MOD evacuation trainer^[66]
• XV232 – Coventry airport^[67]
• XV244 – Stored at RAF Kinloss for preservation.^[68]
• XV250 – Yorkshire Air Museum^[69]
• XV255 – City of Norwich Aviation Museum^[70]

R1

• XV249 – RAF Museum Cosford^[71]
• XW664 – East Midlands Airport^[16]

Accidents and incidents

Five Nimrods have been lost in accidents:^[72][73]

• On 17 November 1980, a Nimrod MR2 XV256 crashed near RAF Kinloss after three engines failed following multiple birdstrikes. Both pilots were killed but the remaining crew survived.^[74]

• On 3 June 1984, a Nimrod MR2 XV257 stationed at RAF St Mawgan suffered extensive damage when a reconnaissance flare ignited in the bomb bay during flight. The aircraft successfully returned to base but was subsequently written-off due to fire damage. There were no casualties.^[75]

• On 16 May 1995, XW666, a Nimrod R1 from RAF Waddington, ditched in the Moray Firth 4.5 miles (7.2 km) from Lossiemouth after an engine caught fire during a post-servicing test flight from RAF Kinloss. The Ministry of Defence (MoD) inquiry identified a number of technical issues as the cause. There were no casualties.^[76]

• On 2 September 1995, a Nimrod MR2 XV239 crashed into Lake Ontario while participating in the Canadian International Air Show, killing the seven crew members.^[77][78]

• On 2 September 2006, a Nimrod MR2 XV230 crashed near Kandahar in Afghanistan, killing 12 airmen, one marine and one soldier – the largest single day loss of UK personnel since the Falklands War.^[79] This was the first Nimrod to enter operational service, originally as a MR1 but upgraded to MR2 standard in the 1980s.^[80] On 23 February 2007, the Ministry of Defence grounded all MR2 aircraft while fuel pumps were inspected. The MoD stressed that this was not necessarily related to the crash in Afghanistan.^[81]

• On 5 November 2007, XV235 was involved in a midair incident over Afghanistan when the crew noticed a fuel leak during air-to-air refuelling.^[82] After transmitting a mayday call, the crew landed the aircraft successfully. The incident came only a month before the issue of the report of a Board of Enquiry into the 2 September 2006 fatal accident to XV230 in (likely) similar circumstances. The RAF subsequently suspended air-to-air refuelling operations for this type.

Specifications

External images

Nimrod MR1 cutaway and weapon loadout

1970s cutaway of Nimrod MR1 XV230 retouched by Flight Global in 2006.

RAF Nimrod MR2 at Avalon Airport, Australia, 2005

Data from Wilson^[83]

General characteristics

• Crew: 13
• Capacity: 24
• Length: 38.65 m (126 ft 9 in)
• Wingspan: 35.00 m (114 ft 10 in)
• Height: 9.14 m (31 ft)
• Wing area: 197.05 m² (2,121 sq ft)
• Empty weight: 39,009 kg (86,000 lb)
• Max. takeoff weight: 87,090 kg (192,000 lb)
• Powerplant: 4 × Rolls-Royce Spey turbofans, 54.09 kN (12,160 lbf) each

Performance

• Maximum speed: 923 km/h (575 mph)
• Cruise speed: 787 km/h (490 mph)
• Range: 8,340–9,265 km (5,180–5,755 mi)
• Service ceiling: 13,411 m (44,000 ft)

Armament

• Guns: None
• Hardpoints: 2× under-wing pylon stations and an internal bomb bay with a capacity of 20,000 lb (9,100 kg) and provisions to carry combinations of:
  • Rockets: None
  • Missiles: ***Air-to-air missile: 2× AIM-9 Sidewinder (non-standard in RAF service, only mounted on the MR2 during the Falklands War)
    • Air-to-surface missile: Nord AS.12, Martel missile, AGM-65 Maverick, AGM-84 Harpoon
  • Bombs: ***Depth charges, US-owned B57 nuclear depth bombs (2) (until 1992)^[84]
  • Other: ***Air-dropped Mk.46 torpedoes, Sting Ray torpedoes
    • Naval mines
    • Sonobuoys

See also

• de Havilland Comet
• Boeing P-8 Poseidon
• Breguet Atlantic
• Ilyushin Il-38
• Kawasaki XP-1
• Lockheed P-3 Orion

References

Notes

1. "Nimrod R1 makes final flight" Defence Management Journal, 28 June 2011. Retrieved 28 June 2011.
2. Cook, James. "Final air miles for 'spy in the sky' crews." BBC, 26 March 2010. Retrieved 20 October 2010.
3. ""RAF Kinloss to close as ministers cancel Nimrod order." BBC News, 19 October 2010. Retrieved 20 October 2010.
4. Haddon-Cave 2009, pp. 16-17.
5. Chartres 1986, p. 12.
6. "Aircraft Decisions: Mr Wilson's Statement". Flight International, Vol. 87 No. 2918, p. 224.
7. "The Maritime Comet". Flight International, Vol. 87 No. 2924, 25 March 1965, pp. 465–466.
8. Fricker 1972, p. 593.
9. Neal 1970, p. 119.
10. Lake Air International July 2001, p. 31.
11. Fricker 1972, p. 594.
12. Haddon-Cave 2009, p. 17.
13. Lake Air International July 2001, pp. 30–31.
14. Lake Air International July 2001, p. 34.
15. "Nimrod R1 aircraft in final flight for RAF." BBC, 28 June 2011. Retrieved 13 July 2011.
16. "Nimrod R1 aircraft leaves RAF Waddington for museum." BBC, 12 July 2011. Retrieved 13 July 2011.
17. Peruzzi, Luca. "RAF prepares for final Afghan deployment with Nimrod R1." Flight International, 20 May 2010. Retrieved 20 October 2010.
18. Hoyle, Craig. "First RAF personnel to start Rivet Joint conversion in January." Flight International, 20 December 2010. Retrieved 21 January 2011.
19. Dorr, Robert F. "British RC-135W Air Seeker Crews in Training." Defense Media Network, 22 April 2011. Retrieved 13 July 2011.
20. Donald 1996, p. 95.
21. Air International July 1981, pp. 9–10, 12–14.
22. Brown 1987, p. 110.
23. Lake 2005, pp. 53–54.
24. "Last flight of the Nimrod MR2." Ministry of Defence, 31 March 2010.
25. "Planning Round 10 is Going to be a Tough One." RAF Families Federation, 6 January 2010.
26. Wilson, Tom. "Historic plane ends its career at Manston." This is Kent, 8 June 2010. Retrieved 13 July 2011.
27. "BAe Nimrod AEW 3." Spyflight. Retrieved: 20 October 2010.
28. Haddon-Cave 2009, p. 19.
29. "Report by the Comptroller and Auditor General, HC 489-II." nao.org, Session 2010–2011, 15 October 2010.
30. "Scrapping RAF Nimrods 'perverse' say military chiefs." BBC News, 27 January 2011.
31. "Nimrod Loss 'Leaves Massive Gap'." Daily Express, 27 January 2011.
32. Hopkins, Nick. "Unmanned drones likely to take over Nimrod spy duties." The Guardian, 5 December 2012.
33. Neal 1970, p. 120.
34. Rininger 2006, p. 69.
35. Rininger 2006, p. 125.
36. Haddon-Cave 2009, p. 20.
37. Neal 1970, p. 121.
38. Neal 1970, pp. 127-128.
39. Armfield, Hugh "Air Force Takes Over as Britain's Watchdog." The Age, 26 October 1971. p. 8.
40. Neal 1970, p. 122.
41. Neal 1970, p. 128.
42. Neal 1970, pp. 122, 126.
43. Neal 1970, p. 123.
44. Haddon-Cave 2009, p. 18.
45. Neal 1970, p. 127.
46. Friedman 1997, pp. 522, 567.
47. Burden et al. 1986, p. 401.
48. Burden et al. 1986, pp. 402–403.
49. Chant 2001, p. 34.
50. Chant 2001, p. 33.
51. Chant 2001, p. 82.
52. Chant 2001, p. 61.
53. Burden et al. 1986, p. 403.
54. Friedman 1997, p. 522.
55. Haddon-Cave 2009, p. 23.
56. Haddon-Cave 2009, p. 16.
57. "Afghan air crash victims named." The Guardian, 3 September 2006.
58. Stringer, Robert. "U.K. Says Fuel Caused Afghanistan Plane Explosion." Bloomberg, 3 December 2007.
59. Lake 2005, pp. 55–56.
60. Chartres 1986, pp. 71–83.
61. "Death Toll At 17, Last Yacht Seen In Ill Fated Race." The Bulletin, 16 August 1979.
62. Crighton, Ryan. "UK survivor relives horror of North Sea rig disaster." Press and Journal, 20 March 2010.
63. "UK Navy Protecting Trawlers." The Calgary Herald, 22 May 1973.
64. "RAF Nimrod." Bruntingthorpe Aerodrome, Retrieved: 11 December 2012.
65. "In pics: Nimrod takes its place at Manchester Airport." BBC News, 26 May 2010.
66. "Historic plane ends its career at Manston." This is Kent, 8 June 2010.
67. Hoyle, Craig. "PICTURE: Record-breaking Nimrod flown to Coventry air museum." Flight International, 13 May 2010.
68. "The real saviours of Nimrod XV244." Forres Gazette, 14 June 2011.
69. "Hawker Siddeley Nimrod MR2 XV250." Yorkshire Air Museum, Retrieved: 11 December 2012.
70. "Aircraft." City of Norwich Aviation Museum, Retrieved: 11 December 2012.
71. "Nimrod R.1 unveiled at Museum". Royal Air Force Museum Cosford. 28 September 2012. Retrieved 13 October 2012.
72. "ASN Aviation Safety Database results." Aviation Safety Network. Retrieved: 20 October 2010.
73. Baldock, Michael. "Aviation Photos: XV257." airliners.net, 23 June 1990. Retrieved 20 October 2010.
74. "Accident description: Nimrod MR2, 17 November 1980." Aviation Safety Network. Retrieved: 20 October 2010.
75. "Accident description: Nimrod MR2, 3 June 1984." Aviation Safety Network. Retrieved: 20 October 2010.
76. "Accident description: Nimrod R1, 16 May 1995." Aviation Safety Network. Retrieved: 20 October 2010.
77. "Timeline: Air show crashes." BBC News, 3 June 2001. Retrieved 20 October 2010.
78. "Accident description: Nimrod MR2, 2 September 1995." Aviation Safety Network. Retrieved: 20 October 2010.
79. Haddon-Cave 2009, p. 25.
80. "Inquiry into Afghan crash begins." BBC News, 3 September 2006.
81. "Report on the grounding of MR2 aircraft." BBC News, 23 February 2007.
82. Adams, Paul. "New safety fears for RAF Nimrods." BBC News, 10 November 2007.
83. Wilson 2000, p. 22.
84. "B57 nuclear bomb (United States), Offensive weapons." Jane's Strategic Weapon Systems, 27 October 2011.

Bibliography

• Brown, David. The Royal Navy and the Falklands War. Annapolis, Maryland: Naval Institute Press, 1987. ISBN 978-0-87021-572-8.
• Burden, Rodney A., Michael A. Draper, Douglas A. Rough, Colin A. Smith and David Wilton. Falklands: The Air War. Twickenham, UK: British Air Review Group, 1996. ISBN 0-906339-05-7.
• Chant, Chris. Air War in the Falklands 1982. Osprey Publishing, 2001. ISBN 1-8417-6293-8.
• Chartres, John. BAe Nimrod (Modern Combat Aircraft 24). Shepperton, Surrey, UK: Ian Allan, 1986. ISBN 0-7110-1575-9.
• Donald, David and Jon Lake. Encyclopedia of World Military Aircraft. London: Aerospace Publishing, Single Volume Edition, 1996. ISBN 1-874023-95-6.
• "A Face-Lift For The Nimrod". Air International, Volume 21, No 1, July 1981, pp. 7–16. ISSN 0306-5634.
• Fricker, John. MR2 "Nimrod: ASW Specialist." Flight International, 27 April 1972. pp. 593–594.
• Friedman, Norman. World Naval Weapons Systems, 1997-98. Naval Institute Press, 1997. ISBN 1-5575-0268-4.
• Haddon-Cave, Charles. The Nimrod Review: An Independent Review into the Broader Issues Surrounding the Loss of the RAF Nimrod MR2 Aircraft XV230 in Afghanistan in 2006. London: The Stationery Office, 2009. ISBN 0-10-296265-0.
• Lake, Jon. "Nimrod R.1: The RAF's SIGINT Platform Extraordinaire". Air International, Vol. 61, No. 1, July 2001, pp. 29–35. ISSN 0306-5634.
• Lake, Jon. "New Roles for the Mighty Hunter". Air International, Vol. 69, No. 3, September 2005, pp. 52–56. ISSN 0306-5634.
• Neal, Molly. "Nimrod: Systematic Sub Hunter". Flight International, Vol. 97, No. 3176, 22 January 1970, pp. 119–128.
• Rininger, Tyson V. Red Flag: Air Combat for the 21st Century. Zenith Imprint, 2006. ISBN 0-760325-30-8.
• Wilson, Stewart. Combat Aircraft since 1945. London: Aerospace Publications, 2000. ISBN 1-875671-50-1.

External links

Wikimedia Commons has media related to Hawker Siddeley Nimrod.

• Royal Air Force: Nimrod MR2
• Nimrod MRA4 Maritime Reconnaissance Aircraft on Airforce Technology
• Nimrod production and conversion list

All or a portion of this article consists of text from Wikipedia, and is therefore Creative Commons Licensed under GFDL.
The original article can be found at Hawker Siddeley Nimrod and the edit history here.