Supermarine Sea Otter

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Sea Otter
A prototype Supermarine Sea Otter.jpg
One of the two constructed prototypes, photographed in 1942
General information
TypeAir-Sea rescue
National originUnited Kingdom
Manufacturer Supermarine
StatusOut of production, out of service
Primary users Royal Air Force
Number built292
History
Manufactured1942–1945
Introduction dateNovember 1944
First flight23 September 1938
Developed from Supermarine Walrus

The Supermarine Sea Otter was an amphibious aircraft designed and built by the British aircraft manufacturer Supermarine. It was the final biplane flying boat to be designed by the company, and the last biplane to enter service with both the Royal Navy and the Royal Air Force (RAF).

Contents

The Sea Otter was developed as a refinement of the Supermarine Walrus. It was designed to be used for longer range operations, to perform dive bombing and to operate from a wider range of vessels than its predecessor. It was first known as the Stingray. The aircraft's development was protracted by Supermarine's commitments to the Walrus and the Spitfire programmes.

The Sea Otter first flew on 23 September 1938. A production order was issued in 1942. Upon its introduction during the latter years of the Second World War, the Sea Otter was primarily tasked with maritime patrol and air-sea rescue duties by both the RAF and the Royal Navy. After the war, the type was procured by the Royal Danish Air Force, Dutch Naval Aviation Service, and the Royal Australian Navy. Supermarine undertook the conversion of surplus Sea Otters to be used by civil operators.

Design and development

Background

The origins of the Sea Otter can be traced back to the Supermarine Walrus. [1] Even prior to the Walrus's maiden flight, the company's design team, headed by R. J. Mitchell, were working on an improved version of the aircraft that was powered by either Bristol Aquila and Bristol Perseus radial engines. In February 1936, Mitchell approached the Air Ministry's Director of Technical Development to determine desirable performance attributes in the tentative aircraft prior to the detailed design commencing. From these discussions, it was decided to pursue a dive bombing capability, an elevated loaded weight, longer range, and for it to be fitted with equipment for operating from both aircraft carriers and cruisers. [1]

On 17 April 1936, following Supermarine's submission of technical details, including detailed drawings and costings, the Air Ministry issued instructions to proceed with a pair of prototypes. [1] Progress on these two prototypes was slow, due to production commitments associated with both the Walrus and the Spitfire programmes. The most visible difference between the Walrus and the Sea Otter was in the mounting of the powerplant; while the Walrus had a rear-facing engine with a pusher propeller, the Sea Otter's engine faced forward with a tractor propeller. [2] In general, the exterior of the Sea Otter was cleaner than that of the Walrus, particularly in its engine arrangement, having disposed of the offset engine alignment to counteract torque by handling this via the vertical stabiliser instead. [3]

Into flight

The first prototype, K8854T, performed the type's maiden flight on 23 September 1938, piloted by Supermarine's chief test pilot George Pickering. [3] During the flight, it was quickly determined that the original two-blade wooden propeller was inadequate. It was later replaced by a three-blade counterpart produced by de Havilland, although this also failed to produce entirely satisfactory results. The propeller was changed again, this time to a four-bladed unit of which the pairs of blades were unusually set at an angle of 35° instead of the usual 90° so that the aircraft could be more easily moved within shipborne hangars and other enclosed areas. [3]

After the prototype's third flight, the name Stingray was changed to Sea Otter. [3] Pickering observed its performance during the flight was noticeably better, particularly during takeoff. Over following flights, minor defects were identified and promptly resolved. [3] During February 1939, sea recovery trials were begun from HMS Pegasus, resulting in some deviations being made from the standard practices used for deploying the earlier Walrus. The British Admiralty requested some changes, including that the nose be reprofiled to reduce its tendency to spray water, as well as the installation of a three-blade Rotol constant speed propeller. [4] Five months later, catapult trials were conducted involving HMS Pegasus. General seaworthiness trials started during September 1939. They took place at Southampton on account of a possible German attacks upon Felixstowe. [5]

Into production

On 26 January 1940, following the visit of a high-level technical delegation to Supermarine, the Sea Otter was ordered into production. [5] It was stipulated that the aircraft needed to land at a lower speed; this was achieved via alterations to the wings. Other requested alterations included the addition of a nose-mounted Vickers K machine gun and greater headroom on the flight deck. [5] A contract for 190 Sea Otters was issued to Blackburn Aircraft later in 1940, but the contact with the company was cancelled the following year, as it was unable to accommodate the extra workload. [6]

Accordingly, it wasn't until January 1942 that the Air Ministry placed a production order for the Sea Otter with Saunders-Roe, who had previously manufactured the Walrus as well. [7] Due to cooling troubles found with the Perseus engine, the powerplant was changed for production aircraft to the Bristol Mercury XXX engine, which drove a three-bladed propeller. The first production Sea Otter, piloted by Jeffrey Quill, performed its first flight during January 1943. [8] It was promptly transferred to RAF Worthy Down for its initial flight trials, and subsequently to Helensburgh for further water handling trials. Several minor alterations, including an elongated water rudder and a sting-type arrestor hook, occurred around this time. [9]

Of the 592 aircraft that were at one point on order, only 292 Sea Otters were constructed. This was largely due to type's production run being disrupted by limited production capacity and by a sharp reduction in military demand following Victory in Europe Day and the end of the conflict.

During the postwar era, a large number of Sea Otters were converted for civilian use. The cabin was soundproofed and furnished with heating systems. In the cabin, seating for four passengers, a chemical toilet and a stowage area for baggage were provided. As they were intended for use as bush airplanes in remote areas, versatility was an important aspect; to allow cargo to be carried, the cabin floor was strengthened and fitted with lashing points, and the passenger seats made easily removable. [10]

Operational history

Sea Otter I of the Marine Aircraft Experimental Establishment in 1948 Supermarine Sea Otter I JM952 MAEE Ringway 19.08.48 edited-2.jpg
Sea Otter I of the Marine Aircraft Experimental Establishment in 1948

During November 1944, the Sea Otter was introduced to operational service; by the time that the type was inducted by its fourth squadron, the Second World War had ended. [11] The aircraft was primarily operated by both the RAF and the Royal Navy for both air-sea rescue and maritime patrol roles. While the aircraft primarily performed naval reconnaissance missions , it proved to be superior to its Walrus predecessor in the secondary role of retrieving aircrews from the sea. [8] This role comprised a major portion of the Sea Otter's postwar activities into the 1950s. [11]

On 19 July 1950, Lieutenant P. Cane performed the last operational sea rescue of a Sea Otter, taking off from HMS Triumph (R16). [12] A F4U Corsair had been shot down by anti-aircraft fire, forcing the American pilot to ditch into rough seas. Cane's aircraft landed and the American pilot was rescued. Cane succeeded in returning the Sea Otter to HMS Triumph, and was later awarded the US Air Medal in recognition of his actions. [13]

Overseas military airwings were quick to procure the Sea Otter following the end of the war, often purchasing aircraft from the British Government. [14] The Royal Danish Air Force acquired eight aircraft, while another eight were supplied to the Dutch Naval Aviation Service. Troupes Coloniales , the French colonial service, purchased six Sea Otters, which were operated in French Indochina.

Variants

Sea Otter Mk I
Reconnaissance and communications amphibian aircraft.
Sea Otter Mk II
Air Sea Rescue amphibian aircraft.

Operators

Flag of Australia (converted).svg  Australia
Flag of Denmark.svg  Denmark
Flag of Egypt (1922-1958).svg  Egypt
Flag of France.svg  France
Flag of the Netherlands.svg  Netherlands
Flag of the United Kingdom.svg  United Kingdom

Specifications (Sea Otter)

Data fromJane's All the World's Aircraft 1947, [18] Supermarine Aircraft since 1914 [19]

General characteristics

6,475 lb (2,937 kg) flying boat
206 imp gal (247 US gal; 940 L) maximum fuel capacity as a flying boat
855 hp (638 kW) maximum at 4,500 ft (1,372 m)
740 hp (552 kW) maximum continuous at 5,000 ft (1,524 m)

Performance

Armament

Survivors

No museum holds a complete aircraft. The Fleet Air Arm Museum (Australia) at Nowra, New South Wales, Australia, has the nose section of JN200, a Sea Otter which served with the Royal Australian Navy. [20]

See also

Related development

Aircraft of comparable role, configuration, and era

Related lists

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References

  1. 1 2 3 Andrews and Morgan 1981, p. 156.
  2. Andrews and Morgan 1981, pp. 156–157.
  3. 1 2 3 4 5 Andrews and Morgan 1981, p. 157.
  4. Andrews and Morgan 1981, pp. 157–158.
  5. 1 2 3 Andrews and Morgan 1981, p. 158.
  6. Andrews and Morgan 1981, pp. 158–159.
  7. Andrews and Morgan 1981, p. 159.
  8. 1 2 Andrews and Morgan 1981, p. 160.
  9. Andrews and Morgan 1981, pp. 159–160.
  10. "Civil Sea Otter". Flight : 383–384. 10 October 1946.
  11. 1 2 Andrews and Morgan 1981, p. 161.
  12. Paul, James; Spirit, Martin (2008). "HMS Triumph: Tour: 25/6/50-29/9/50". britains-smallwars.com. Archived from the original on 21 June 2010. Retrieved 13 April 2010.
  13. Cull and Newton 2000, p. 261.
  14. Andrews and Morgan 1981, p. 161-162.
  15. Kightly Aeroplane March 2022, p. 124
  16. 1 2 3 4 5 6 Halley 1980, p. 354.
  17. Sturtivant and Ballance 1994, p.363.
  18. Bridgman 1947, pp. 84c-85c.
  19. Andrews and Morgan 1987, p. 162.
  20. Lambert, Roger. "RAN Sea Otter Dataplate" (PDF). www.adf-serials.com. Retrieved 16 May 2013.

Sources