|Handley Page Halifax B.III showing the later rectangular fins and Bristol Hercules radial engines|
|First flight||25 October 1939|
|Introduction||13 November 1940|
|Retired||1961 (Pakistani Air Force)|
|Primary users||Royal Air Force|
Royal Canadian Air Force
Royal Australian Air Force
Free French Air Force
|6,176+ 2 HP.57 Prototypes|
The Handley Page Halifax is a British Royal Air Force (RAF) four-engined heavy bomber of the Second World War. It was developed by Handley Page to the same specification as the contemporary twin-engine Avro Manchester.
The Halifax has its origins in the twin-engine HP56 proposal of the late 1930s, produced in response to the British Air Ministry's Specification P.13/36 for a capable medium bomber for "world-wide use." The HP56 was ordered as a backup to the Avro 679, both aircraft being designed to use the underperforming Rolls-Royce Vulture engine. The Handley Page design was altered at the Ministry to a four-engine arrangement powered by the Rolls-Royce Merlin engine; the rival Avro 679 was produced as the twin-engine Avro Manchester which, while regarded as unsuccessful mainly due to the Vulture engine, was a direct predecessor of the famed Avro Lancaster. Both the Lancaster and the Halifax would emerge as capable four-engined strategic bombers, thousands of which would be built and operated by the RAF and several other services during the War.
On 25 October 1939, the Halifax performed its maiden flight, and it entered service with the RAF on 13 November 1940. It quickly became a major component of Bomber Command, performing routine strategic bombing missions against the Axis Powers, many of them at night. Arthur Harris, the Air Officer Commanding-in-Chief of Bomber Command, described the Halifax as inferior to the rival Lancaster, in part due to its inability to carry larger individual bombs such as the 4,000 pound "Cookie" blast bomb. Nevertheless, production of the Halifax continued until April 1945. During their service with Bomber Command, Halifaxes flew a total of 82,773 operations and dropped 224,207 tons of bombs, while 1,833 aircraft were lost. The Halifax was also flown in large numbers by other Allied and Commonwealth nations, such as the Royal Canadian Air Force (RCAF), Royal Australian Air Force (RAAF), Free French Air Force and Polish forces.
Various improved versions of the Halifax were introduced, incorporating more powerful engines, a revised defensive turret layout and increased payload. It remained in service with Bomber Command until the end of the war, performing a variety of duties in addition to bombing. Additionally, specialised versions of the Halifax were developed for troop transport and paradrop operations. Following the end of the Second World War, the RAF quickly phased the Halifax out of service, after the type was succeeded in the strategic bombing role by the Avro Lincoln, an advanced derivative of the Lancaster. During the post-war years, the Halifax was operated by the Royal Egyptian Air Force, the French Air Force and the Royal Pakistan Air Force. The type also entered commercial service for a number of years, used mainly as a freighter. A dedicated civil transport variant, the Handley Page Halton, was also developed and entered airline service. 41 civil Halifax freighters were used during the Berlin Airlift. In 1961, the last remaining Halifax bombers were retired from operational use.
In the 1930s, the Royal Air Force (RAF) was primarily interested in twin-engine bombers. These designs put significant demands on engine production and maintenance, both of which were already stretched with the introduction of many new types of aircraft into service. Power limitations were so serious that the British invested heavily in the development of huge engines in the 2,000 horsepower (1,500 kW) class in an effort to improve performance. However, during the late 1930s, none of these engines was ready for production. Meanwhile, both the United States and the Soviet Union were developing bombers powered by arrangements of four smaller engines with favorable results, including excellent range and fair lifting capacity. Accordingly, in 1936, the RAF decided to investigate the feasibility of a four-engined bomber.
During the mid 1930s, the British Air Ministry released Specification P.13/36, seeking a twin-engine heavy-medium bomber suitable for "world-wide use". Further requirements of the specification included the use of a mid-mounted cantilever monoplane wing and all-metal construction, and encouraged use of the Rolls-Royce Vulture engine then in development. In response, Handley Page produced the twin-engine HP56 design to meet Specification P.13/36. Handley Page aircraft designer George Volkert had responsibility for the design.
Other candidates were submitted for the same specification, including the Avro 679, and designs from Fairey, Boulton Paul and Shorts; all submissions were designed around two-engine configurations, using the Rolls-Royce Vulture, Napier Sabre, Fairey P.24 or Bristol Hercules engines. The majority of these engines were under development at this point; while four-engined bomber designs were considered for specification B.12/36 for a heavy bomber, wings mounting two pairs of engines were still in the experimental stage and required additional testing at the Royal Aircraft Establishment (RAE). Adopting a stronger wing also required additional strengthening of the overall aircraft structure, resulting in an increase in overall weight.
In February 1937, following consideration of the designs, the Air Ministry selected Avro's submission, with Handley Page's bid chosen as "second string". Accordingly, during April 1937, the Air Ministry ordered two prototypes of each design. The introduction of the successful P.13/36 candidates was delayed by the necessity of ordering additional Armstrong-Whitworth Whitley and Vickers Wellington bombers first. In mid-1937, it was decided to order both the Avro 679 and HP56 designs "off the drawing board" in order to speed up delivery timetables.
During July 1937, Handley Page was instructed to redesign the HP56 to use a four-engine arrangement, instead of the original twin-engine configuration; by this point, the Vulture had already been suffering from reliability and performance problems. The rival Avro 679 proceeded into service as the Avro Manchester powered by a pair of Vulture engines, but was only built in limited quantities after suffering substantially from engine-related difficulties. The four-engine redesign increased its wingspan from 88 ft (27 m) to 99 ft (30 m) and added 13,000 pounds (5,900 kg) of weight. In September 1937, the Ministry specified the use of four Rolls-Royce Merlin engines; according to aviation author Phillip J. R. Moyes, this redesign to four Merlin engines had been done "much against the company's wishes".
Towards the end of the year, a full mock-up of the design was assessed; production of a pair of HP57 prototypes commenced in March 1938. Further design modifications resulted in the definitive aircraft, now considerably enlarged and powered by four 1,280 hp (950 kW) Rolls-Royce Merlin X engines. Such was the promise of the new model that, in January 1938, the RAF chose to place their first production order for the type, ordering 100 Mk.I Halifaxes "off the drawing board", at which point the serials which had already been assigned to HP56 were switched to HP57.
The first prototype was built at Handley Page's facility in Cricklewood, London, It was then dismantled and transported by road to RAF Bicester (the nearest non-operational RAF airfield with suitable facilities) for reassembly. On 25 October 1939, the maiden flight of the first prototype Halifax, serial number L7244, was performed by chief test pilot Jim Cordes with E A 'Ginger' Wright as flight test observer; during this flight, the undercarriage remained locked down as an extra safety precaution.
On 17 August 1940, the first flight of the second prototype, L7245, now complete with full armament and operationally-representative equipment, was performed by Cordes from Radlett Aerodrome. The HP57 was given the service name Halifax upon its acceptance. This name followed the practice of naming heavy bombers after major towns - in this case, Halifax in the West Riding of Yorkshire. In September 1941, a production Halifax Mk.I participated in an official naming ceremony of the type, officiated by Lord Halifax and Lady Halifax.
Series production of the Halifax began at Handley Page's factory at Cricklewood and at English Electric's site in Samlesbury, Lancashire. In order to speed up production, Handley Page implemented several new manufacturing techniques, including two pioneering approaches: photo-lofting and split construction. In the latter capacity, each Halifax was built from various sub-assemblies. Surface panels were flush-riveted, although the application of the matt black night bomber camouflage probably negated its benefit.
Handley Page built the assemblies and components at Cricklewood and the aircraft were assembled and flown from Radlett Aerodrome; the first production aircraft flew from Radlett on 11 October 1940.
The sizeable production run envisioned required the involvement of several external parties in addition to Handley Page. The resulting Halifax Group was established to oversee the manufacturing programme, comprising English Electric (who had previously been a valued contributor in the production of the Handley Page Hampden), various firms within the London Aircraft Production Group, Fairey Aviation, and Rootes Motors. Because of this scheme and other initiatives, the Halifax was manufactured by a variety of aviation companies at sites across the British isles.
The Halifax was produced in large numbers during the war: of the 10,018 heavy bombers produced in Britain between 1940 and 1944, 4,046 were various models of the Halifax - in excess of 40%. In all, 6,178 Halifaxes were built, the last delivered in April 1945. At the peak, 41 separate factories and dispersed units were involved in production, along with 600 subcontractors and 51,000 employees, with one Halifax completed every hour. The first English Electric-built aircraft was flown from Salmesbury on 15 August 1941.
The first production standard Halifax, the Mk.I, had a 22 ft (6.7 m) long bomb bay as well as six bomb cells in the wings, providing a bomb capacity of 13,000 lb (5,900 kg). Defensive armament consisted of two .303 in (7.7 mm) Browning machine guns in a Boulton Paul Type C nose turret, with an additional four in a Boulton Paul Type E tail turret. Some aircraft included two additional .303 in (7.7 mm) Vickers K machine guns in beam (side, or "waist") positions. Subtle modifications distinguished the Mk I aircraft. Aircraft of the first batch of fifty Mk I Halifaxes were designated Mk I Series I.
|London Aircraft Production Group||Leavesden[a]||710|
The Halifax Mk.I was quickly followed by 25 of the Mk I Series II; these featured an increased gross weight (from 58,000 lb/26,310 kg to 60,000 lb/27,220 kg) but with maximum landing weight unchanged at 50,000 lb (23,000 kg). The Halifax Mk I Series III featured increased fuel capacity (1,882 gal/8,556 L), and larger oil coolers, the latter of which having been adopted in order to accommodate the Merlin XX engine. A dorsally-mounted two-gun Boulton Paul Type C turret replaced the beam guns.
Introduction of 1,390 hp (1,040 kW) Merlin XX engines and a twin .303 in (7.7 mm) dorsal turret instead of waist guns resulted in the Halifax B Mk II Series I. The Mk II Series I (Special) achieved improved performance via the removal of the nose and dorsal turrets. The Halifax Mk II Series IA was fitted with a moulded Perspex nose (this nose became standard upon future Halifax variants), a four-gun Defiant-type dorsal turret, Merlin 22 engines and larger, trapezoidal-shaped vertical tail surfaces which solved control deficiencies from fin-stall produced by the roughly triangular-shape original surfaces, leading to rudder overbalance in the early marks. Halifax IIs were built by both English Electric and Handley Page; 200 and 100 aircraft respectively.
Owing to a shortage of Messier-built landing gear and hydraulics, Dowty-built landing gear were used on some aircraft instead. As it was incompatible with the Messier equipment, this led to these Halifax bombers being given new designations: a Mark II built with Dowty gear was the Mark V. The use of castings rather than forgings in the Dowty undercarriage had resulted in an increased production rate but had also led to a reduced landing weight of 40,000 lb (18,000 kg). The Halifax Mark V were manufactured by Rootes Group at Speke and Fairey at Stockport; operationally, these were generally used by Coastal Command and for training purposes. Some 904 had been built when Mark V production ended at the start of 1944, compared to 1,966 Halifax Mk IIs.
The most numerous Halifax variant was the B Mk III of which 2,091 were built. First appearing in 1943, the Mk III featured the Perspex nose and modified tail of the Mk II Series IA but replaced the Merlin with the more powerful 1,650 hp (1,230 kW) Bristol Hercules XVI radial engine. Other changes included the adoption of de Havilland Hydromatic propellers and rounded wing tips. The Halifax Mk IV was a non-production design using a turbocharged Hercules powerplant.
The definitive version of the Halifax was the B Mk VI, powered by the 1,800 hp (1,300 kW) Hercules 100. The final bomber version, the Mk VII, reverted to the less powerful Hercules XVI. However, these variants were produced in relatively small quantities.
The remaining variants were the Halifax C Mk VIII, an unarmed transport that was fitted with an 8,000 lb/3,630 kg cargo pannier instead of a bomb bay, which could accommodate a maximum of 11 passengers and the Mk A IX paratroop transport, which had space for up to 16 paratroopers and their equipment. A transport/cargo version of the Halifax was also produced, known as the Handley Page Halton.
The Handley Page Halifax was a mostly orthodox design, a mid-wing monoplane with a tail unit featuring twin fins and rudders. The Halifax featured all-metal construction with a smooth, stressed skin covering the majority of the exterior surfaces; the flight control surfaces were an exception, being fabric-covered instead. The slab-sided fuselage contained a 22-foot bomb bay, which contained the majority of the Halifax's payload, while the cockpit was flush with the upper fuselage.
The Halifax was powered by four engines, two spaced evenly on each wing. Early production Halifax bombers were powered by models of the Rolls-Royce Merlin engine; later aircraft were commonly powered by the larger Bristol Hercules radial engine. To contain and attach the engines to the airframe, Handley Page developed their own design for the power egg instead of using the typical, slimmer Rolls-Royce counterpart; despite generating increased drag, this in-house design was readily adaptable to the alternative Hercules engine on later aircraft.
Each engine drove a Rotol-built compressed wood constant-speed propeller, enabling the Halifax B.I to attain a maximum speed of 265 MPH at 17,500 feet. With a typical payload of 5,800lbs of bombs and 2,242 Imp gal of fuel, it had a range of 1,860 miles. The defensive armaments included power-assisted gun turrets in various positions located across the aircraft. Different models of the Halifax used different numbers and combinations of turrets, effectively trading speed for firepower and vice versa.
The bomb aimer's position was in the extreme nose with the navigator's table located behind it, both roles fulfilled by the same crew member. Above the navigator's position was the forward gun turret. The wireless (radio) operator was behind the navigator's position, separated by a half-width partition.
The pilot (left side) and co-pilot (right side) occupied the cockpit, above the wireless operator. (The flight engineer filled in as a co-pilot, seated on a folding seat, during crucial manoeuvres such as take-off.) Aft of the pilots and on the same level as the navigator and wireless operator was the flight engineer's compartment. Another compartment aft of the flight engineer contained two bunks originally intended for resting crew members, but almost always used for treating and berthing injured crew. This area led to the two-gun dorsal turret. The tail gunner occupied a four-gun turret at the extreme aft end of the aircraft.
Starting with the Halifax Mk II Series IA and from the Mk III onwards, the nose turret was deleted; instead the bomb-aimer occupied a streamlined perspex nose containing a single hand-held machine gun. On later-built aircraft, the two-gun dorsal turret was replaced by a four-gun Boulton Paul turret.
The maximum bomb load was 14,500 lb (6,600 kg), which was primarily carried in a bomb bay housed within the fuselage, divided into six separate bomb compartments, with three bomb compartments in the inboard sections of each wing; this division of the payload between multiple compartments limited the maximum size of the individual bombs which could be carried to 2,000 lb (910 kg).
In November 1940, the Handley Page Halifax entered service with No. 35 Squadron at RAF Linton-on-Ouse. Its operational debut occurred on the night of 10-11 March 1941, when six Halifax bombers flew a bombing raid against Le Havre, targeting the area around the docks and any shipping that might be present. The existence of the Halifax was not officially acknowledged until July 1941, after it was used in a daylight attack on La Pallice, France, against the German battleship Scharnhorst. At the end of 1941, the Halifax was withdrawn from daylight bombing operations after intensifying fighter opposition had increased the casualty rates to unsustainable levels.
In the second half of 1942, No. 35 Squadron and four other squadrons were selected to form the Pathfinder Force, later expanded to become No. 8 Group. Pathfinder crews flying the Halifax would mark routes and identify and mark targets for the Main Force. Effective marking greatly increased the accuracy and destructive power of Bomber Command. As a Pathfinder and Main Force aircraft, the Halifax was a core part of the bombing offensive against Germany and its Axis allies.
By the end of 1943, No. 4 Group had been entirely equipped with the Halifax, and would continue to operate the aircraft til the end of the war. The No. 6 Group of the Royal Canadian Air Force (RCAF) also adopted the Halifax around the same time, and would to on to operate it in each of its 14 squadrons, although it was never solely equipped with the type. At its peak strength, Bomber Command operated a total of 76 Halifax-equipped squadrons.
While the early-built models of the Halifax were heavily used by Bomber Command and made valuable contributions to operations, the aircraft's performance was considered unsatisfactory for the most part, mainly due to the underpowered Merlin engine, which meant that it could not fly at the higher altitudes needed to avoid enemy fighters, which were becoming increasingly effective throughout 1943. This was answered by the Halifax Mk III, which was powered by Bristol Hercules radial engines in place of the Merlins. Introduced into service in November 1943, the Mk III was first delivered to No. 433 Squadron and No. 466 Squadron. By January 1944, the Hercules-powered Halifax was available in quantity and quickly proved to have superior performance in the face of German fighter defences.
Early on, Air Chief Marshal Arthur Harris, head of Bomber Command, was scathing in his criticism of the Halifax's performance in comparison to the new Avro Lancaster, primarily of its bomb-carrying capability: an average Halifax was calculated to drop 100 tons of bombs in its lifetime, compared to a Lancaster's 154. Harris continued to have a poor opinion of the Halifax, despite the fact that later Hercules-engined machines had lower loss rates and higher crew survival rates after abandoning the aircraft than Lancasters, and came very close to the Lancaster's speed and altitude performance. Unlike the Lancaster, the Halifax's bomb bay could not be adapted to carry the 4,000 pound "Cookie" blast bomb, which was an integral part of Harris's fire-bombing tactics. The Halifax was progressively outnumbered in front-line service over occupied Europe as more Lancasters became available from 1943 onwards; many squadrons converted to the Lancaster.[note 1]
Production of the Halifax continued, supposedly because it was more efficient to keep building it than to stop its production and convert to building another aircraft. But any new facilities were devoted to the Lancaster.
Harris's view of the Halifax changed sometime after spring 1942. On 2 June 1942, in a response to a telegram sent by Frederick Handley Page, congratulating Harris on the success of the first 1000 bomber Cologne raid, he stated: "My Dear Handley Page. We much appreciate your telegram of congratulation on Saturday night's work, the success of which was very largely due to your support in giving us such a powerful weapon to wield. Between us we will make a job of it."
Following the invasion of Europe in 1944, the Halifax resumed daylight bombing operations, performing semi-tactical strikes upon enemy troop concentrations, gun emplacements, and strongpoints along the French coastline with a reportedly high degree of accuracy. Other common targets were enemy communications and the launch sites for V-1 flying bombs. Bombing activity became increasingly brazen throughout late 1944 as the Luftwaffe became incapable of putting up effective opposition against them. The Halifax also found itself being increasingly tasked with transport duties around this time; in one instance, around half a million gallons of petrol was delivered to Brussels in support of the advancing Second Army, then engaged in heavy fighting at Arnhem.
During the latter half of 1944, the bombing of German-held oil facilities became a major priority of the offensive. On 27 August, a force of 216 Halifax bombers, alongside smaller numbers of de Havilland Mosquitos and Lancasters and a sizable escort of Supermarine Spitfires, conducted the first major daylight operation by Bomber Command against a target inside Germany that year, attacking the oil refinery at Homberg on the Ruhr. In spite of heavy fire from anti-aircraft defenses, no bombers were downed and the refinery was severely damaged in places. Attacks upon oil production facilities throughout Germany would become commonplace within the remaining months of the war.
The only Victoria Cross to be awarded to any Halifax pilot went to Cyril J. Barton of No. 578 Squadron for displaying great gallantry in bringing his heavily damaged aircraft back after a raid on Nuremberg on the night of 30/31 March 1944. Barton continued to fly the Halifax while other crew members bailed out, he was killed in the aircraft's crash-landing, but the remaining crew survived due to his actions.
Large numbers of Halifax bombers were also operated by Coastal Command, which used it to conduct anti submarine warfare, reconnaissance and meteorological operations. The Halifax was heavily used to deploy mines in the vicinity of enemy-held ports. It served increasingly in other support capacities as the war progressed, being used as a glider tug, an electronic warfare aircraft for No. 100 Group and to conduct special operations, such as parachuting agents and arms into occupied Europe, for the Special Operations Executive (SOE).
Throughout early 1945, the Halifax was frequently dispatched against cities within the German homeland, including Hannover, Magdeburg, Stuttgart, Cologne, Münster, Osnabrück and others. During these months, infrastructure such as oil facilities and railways were given a high priority; these targets were attacked right up until the end of the war. According to Moyes, within the final few months, bomber losses had fallen to all-time lows while raids were frequently regarded as having been highly successful. During the final months of the war the improved Halifax Mk VI and Mk VII were introduced. In particular, these models had been 'tropicalised' with an eye towards their potential use in the Pacific War against the Empire of Japan. While some of these Mk VI and Mk VII machines were deployed to the theatre, they played little meaningful role as the war ended before larger numbers could be brought to bear against Japanese forces.
On 25 April 1945, the Halifax performed its last major operation against the enemy during an attack upon coastal gun batteries on Wangerooge in the Frisian Islands of the North Sea. While the type continued to fly operations after this, these were primarily diversions to other operations and sporadic, uncoordinated attacks against targets of opportunity. Upon the end of the conflict, Bomber Command quickly disbanded the majority of its Halifax-equipped squadrons; the aircraft themselves were transferred to Transport Command. During the type's service with Bomber Command, Halifaxes flew 82,773 operations and dropped 224,207 tons of bombs. 1,833 aircraft were lost.
By 1947, the majority of Halifax bombers were deemed to be surplus and scrapped. The Halifax remained in widespread service with Coastal Command and RAF Transport Command, Royal Egyptian Air Force and the Armée de l'Air until early 1952. The Pakistan Air Force, which had inherited a number of Halifax bombers from the RAF, also continued to operate them and become the last military user of the type, retiring the last aircraft in 1961.
In September 1997 Halifax 57 Rescue of Canada excavated Halifax LW682 from a bog near the River Dender in Belgium. The plane was part of RCAF 426 Squadron, and had been shot down near Geraardsbergen during a raid on Leuven, Belgium on 12 May 1944. During the excavation, the bodies of three crew members were recovered and later given proper burial. Several items from the plane were used in restoration of NA337, while other items were transferred to museums. The airframe was melted down and used to construct the ceiling of the RAF Bomber Command Memorial in London, which was unveiled in 2012.
A number of former RAF Halifax C.8s were sold from 1945 and used as freighters by a number of mostly British airlines. In 1948, 41 civil Halifax freighters were used during the Berlin Air Lift, operating a total of 4,653 sorties carrying freight and 3,509 carrying bulk diesel fuel. Nine aircraft were lost during the airlift. The Low-cost airline business pioneer Freddie Laker bought and serviced war-surplus Halifaxes for Bond Air Services operations in the Berlin airlift.
With the airfreight market in decline, most of the civilian Halifaxes were scrapped on their return to England. The last civilian-operated Halifaxes were withdrawn from service in late 1952.
Of the 6,176 Halifaxes built, only three complete planes remain.
|Serial||Geographic location||Institutional location||History||Photo|
|HR792||Elvington, North Yorkshire
||Yorkshire Air Museum||Built by Handley Page. 58 Squadron. Flew 67 sorties between 15 July 1943 and 9 December 1944. Crash landed near Stornoway, 13 January 1945. Fuselage was purchased by a chicken farmer and used as a coop. Recovered and restored in 1984 using parts from Halifaxes LW687 and JP158 as well as wings from Hastings TG536. Painted as LV907 "Friday the 13th" of 158 Squadron.|
|NA337||Trenton, Ontario||National Air Force Museum of Canada||Built by Rootes Motors. Delivered to 644 Squadron at RAF Tarrant Rushton 5 March 1945. On 24 March 1945 it towed a glider as part of Operation Varsity - the airborne operation in support of crossing the Rhine. Completed three supply drops in Norway and Denmark in March and April 1945. On fourth sortie, 23 April 1945, piloted by Alexander Turnbull, NA337 was sent to drop 13 supply containers and two packages at Mikkelsberget, Norway. After successful drop, it was hit by flak in starboard wing at 0131 hours on 24 April. After both starboard engines caught fire, ditched in Lake Mjøsa at 0145 hours. All but one crew member, Thomas Weightman, died of hypothermia. It was discovered in 1991 by Tore Marsoe and Rolf Liberg. Raised in 1995 by Halifax 57 Rescue. Restoration was completed in November 2005.|
||RAF Museum London||Built by English Electric. Assigned to 102 Squadron at RAF Topcliffe on 27 March 1942. Sent to 35 Squadron at RAF Linton-on-Ouse on 9 April 1942. On 27 April 1942, it was one of 31 Halifaxes that flew from RAF Kinloss as part of raid on the German battleship Tirpitz. W1048 made her attack at 0300 hours, during which she was hit by the intense flak which set the outer starboard engine on fire. Pilot Don MacIntyre completed a wheels-up landing on frozen Lake Hoklingen in Norway but the aircraft sank 12 hours later. It was discovered by divers in 1971 and subsequently recovered on 30 June 1973 by the RAF Sub-Aqua Association. It has been left unrestored.|
Halifax 57 Rescue is a Canadian organization dedicated to the recovery and restoration of Handley Page Halifaxes. Since its inception in 1994 the organization has recovered two aircraft, including Halifax NA337, one of only three complete examples in the world.
The organization was founded in 1994 by Karl Kjarsgaard, a Canadian former Air Canada pilot, and Ian Foster of Scotland. In 1995 they participated in their first recovery project, that of Halifax NA337 from 750 feet underwater in Lake Mjøsa, Norway. The aircraft was moved to the National Air Force Museum of Canada in Trenton, Ontario where it was unveiled in 2005 after a full restoration. Their second project was the 1997 recovery of Halifax LW682 from a bog near Geraardsbergen, Belgium. During the recovery, the bodies of three crew members were removed and given a proper burial. Several parts of the aircraft were used in the restoration of NA337, and the airframe was melted down and later used to construct the RAF Bomber Command Memorial in London, which was unveiled in 2012.
At present, Halifax 57 Rescue is working to recover two aircraft. The first is HR871, located off the coast of Sweden. Preparations are currently underway for underwater excavation. Once the aircraft has been raised, it will be moved to the Bomber Command Museum of Canada in Nanton, Alberta for restoration. The second aircraft the organization is seeking to recover is LW170 off the coast of Scotland. This aircraft has yet to be located, although its general position is known.
Aircraft of comparable role, configuration and era
Recommendations 'The rudder overbalance, which is manifest when both port airscrews are feathered, would cause great fatigue to a pilot attempting to keep straight and level under such conditions, and modification action is necessary in order to overcome this defect.'