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The BMW 003 (full RLM designation 109-003) is an early
axial Axial may refer to: * one of the anatomical directions describing relationships in an animal body * In geometry: :* a geometric term of location :* an axis of rotation * In chemistry, referring to an axial bond * a type of modal frame, in music * ...
turbojet engine produced by BMW AG in Germany during World War II. The 003 and the
Junkers Jumo 004 The Junkers Jumo 004 was the world's first production turbojet engine in operational use, and the first successful axial compressor turbojet engine. Some 8,000 units were manufactured by Junkers in Germany late in World War II, powering the Mess ...
were the only German turbojet engines to reach production during World War II. Work had begun on the design of the BMW 003 before its contemporary, the Jumo 004, but prolonged developmental problems meant that the BMW 003 entered production much later, and the aircraft projects that had been designed with it in mind were re-engined with the Jumo powerplant instead. The most famous case of this was the Messerschmitt Me 262, which used the 003 in two of the V-series prototypes and in the two experimental A-1b aircraft. The only production aircraft to use the BMW 003 were the Heinkel He 162 and the later C-series, four-engined versions of the Arado Ar 234. About 3500 BMW 003 engines were built in Germany, but very few were ever installed in aircraft. The engine also formed the basis for turbojet development in
Japan Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...
during the war, and in the Soviet Union following the war. A larger derivative was the
BMW 018 The BMW 018 ( ''RLM'' designation 109-018) was an early axial-flow turbojet engine project by BMW AG in Germany. Design The 018 design was begun in 1940. It was generally similar to the BMW 003, but had a twelve-stage axial compressor and th ...
, but only three prototypes had been built by the end of the war. This version was used as the basis for the successful post-war French Snecma Atar.


Design and development

The practicality of jet propulsion had been demonstrated in Germany in early 1937 by Hans von Ohain working with the
Heinkel Heinkel Flugzeugwerke () was a German aircraft manufacturing company founded by and named after Ernst Heinkel. It is noted for producing bomber aircraft for the Luftwaffe in World War II and for important contributions to high-speed flight, with ...
company. Recognising the potential of the invention, the Reich Air Ministry (german: Reichsluftfahrtministerium, abbreviated RLM) encouraged Germany's aero engine manufacturers to begin their own programmes of jet engine development, offering contracts to both Junkers and BMW for an engine capable of static thrust. The BMW 003 began development as a project of the
Brandenburgische Motorenwerke Siemens-Schuckert (or Siemens-Schuckertwerke) was a German electrical engineering company headquartered in Berlin, Erlangen and Nuremberg that was incorporated into the Siemens AG in 1966. Siemens Schuckert was founded in 1903 when Siemens & Ha ...
( Brandenburg Motor Works, known as "''Bramo''"), under the direction of
Hermann Östrich Hermann Oestrich (30 December 1903 – 2 April 1973) was a German-French engineer. He was involved in the development of jet engines as an employee of BMW and later of Snecma. Life Born in Duisburg- Beeckerwerth, Oestrich studied at the Techn ...
and assigned the RLM designation 109-003 (using the RLM's "109-" prefix, common to all jet and rocket engine projects). Bramo was also developing another turbojet, the 109-002. In 1939, BMW bought out Bramo, and in the acquisition, obtained both engine projects. The 109-002 had a very sophisticated contra-rotating
compressor A compressor is a mechanical device that increases the pressure of a gas by reducing its volume. An air compressor is a specific type of gas compressor. Compressors are similar to pumps: both increase the pressure on a fluid and both can transp ...
design intended to eliminate torque, but was abandoned in favour of the simpler engine, which in the end proved to have enough development problems of its own. Construction began late in the same year and the engine ran for the first time in August 1940, but produced only thrust, just half what was desired. The first flight test took place in mid-1941, mounted underneath a Messerschmitt Bf 110 testbed airframe. Problems continued, however, so delaying the program that while the Me 262 V1 prototype airframe (the first aircraft intended to use the engine) was ready for flight-testing, there were no power plants available for it and it actually began flight tests with a supplementary, conventional
Junkers Jumo 210 The Jumo 210 was Junkers Motoren's first production inverted V12 gasoline aircraft engine, first produced in the early 1930s. Depending on the version it produced between 610 and 730 PS and can be considered a counterpart of the Rolls-Royce Kest ...
piston engine in the nose. It was not until November 1941 that the Me 262 V1 was flown with BMW engines, which both failed during the test. The prototype aircraft had to return to the airfield on the power of the piston engine, which was still fitted. The general usage of the BMW powerplant was abandoned for the Me 262, except for two experimental examples of the plane known as the Me 262 A-1b. The few ''Messerschmitt Me 262 A-1b'' test examples built used the more developed version of the 003 jet, recording an official top speed of . The Me 262A-1a production version used the competing Jumo 004, whose heavier weight required the wings to be swept back in order to move the center of gravity into the correct position. Work on the 003 continued anyway, and by late 1942 it had been made far more powerful and reliable. The improved engine was flight tested under a Junkers Ju 88 in October 1943 and was finally ready for mass production in August 1944. Completed engines earned a reputation for unreliability; the time between major overhauls (not technically a TBO) was about 50 hours.Christopher, p.76. (The competing Jumo 004's was between thirty and fifty, and may have been as low as ten.) Through 1944 the 003's reliability improved, making it a suitable power plant for air frame designs competing for the ''Jägernotprogramm''’s
light fighter A light fighter or lightweight fighter is a fighter aircraft towards the low end of the practical range of weight, cost, and complexity over which fighters are fielded. The light or lightweight fighter retains carefully selected competitive feat ...
production contract. which was won by the Heinkel He 162 ''Spatz'' design. Developments of the engine included the 003C, which raised thrust to — in the same thrust class as the competing Jumo 004B, but some 136 kg/300 lb lighter in weight; and the 003D, which raised it to nearly , which added one extra compressor stage beyond the seven of the earlier designs, and an extra turbine stage, with the thrust-weight ratio of 16.58 N/kg for the 003D at only in weight, being some 30% greater than the figure for the Heinkel HeS 011A. Only two German production aircraft used the 003. The first was the Heinkel He 162A ''Spatz'' (since the ''Volksjäger'' light fighter design competition mandated its use), with the ''Spatz'' utilizing an 003E version, designed to possess ventral mounting points to allow it to be mounted atop the fuselage of an aircraft. The other was the four-engined Arado Ar 234C reconnaissance-bomber variants, which were designed to use what was supposed to be the "more available" engine, despite its primary allocation for the He 162A. The BMW 003 proved cheaper in materials than the company's own 801 radial, to , and cheaper than the Junkers Jumo 213 inverted V12 piston engine at , but slightly more costly than the competing Junkers Jumo 004's .Christopher, p.74. Moreover, the 004 needed only 375 hours to complete (including manufacture, assembly, and shipping), compared to 1,400 for the 801. At Kolbermoor, location of the
Heinkel Heinkel Flugzeugwerke () was a German aircraft manufacturing company founded by and named after Ernst Heinkel. It is noted for producing bomber aircraft for the Luftwaffe in World War II and for important contributions to high-speed flight, with ...
-
Hirth Hirth Engines GmbH is an engine manufacturer based in Benningen, Germany. It is currently a part of the UMS Aero Group. Hirth began manufacturing aero engines in the 1920s, was taken over by Heinkel in WWII to develop the Heinkel-Hirth jet en ...
engine works, the
Fedden Mission The Fedden Mission was a British scientific mission sent by the Ministry of Aircraft Production to Germany at the end of the Second World War in Europe, to gather technical intelligence about German aircraft and aeroengines. It was named for the ...
, led by Sir Roy Fedden, found jet-engine manufacturing was simpler and required lower-skill labor and less sophisticated tooling than piston engine production; in fact, most of making of hollow turbine blades and sheet metal work on jets could be done by tooling used in making automobile body panels. The lifetime of the combustion chambers was estimated at 200 hours. The BMW 003 utilized nearly the same starting method as its slightly more powerful Jumo 004 competitor: one of Norbert Riedel's 10 PS flat-twin two-stroke engines, installed within the engine's intake diverter as a mechanical
APU APU or Apu may refer to: Film and television * ''The Apu Trilogy'', a series of three Bengali films, directed by Satyajit Ray, with the fictional character Apu Roy, comprising: ** ''Pather Panchali'' (''Song of the Little Road'') (1955), the first ...
, to get the 003's central shaft rotating for operation. An American military-authored post-war review of the BMW 003 stated that an electric starter of some sort was used to "turn over" the Riedel APU, with no existing photos of either wartime or restored BMW 003s showing the "D-shape" pull handle so prominent on the noses of many museum-preserved Jumo 004's intake diverters.


"Mixed-power" upgrade

One late version of the engine added a small rocket motor (the BMW 109-718) at the rear and usually just above the exhaust of the engine, which added some thrust each for three to five minutes, for take off and short dashes. In this configuration, it was known as the BMW 003R and was tested, albeit with some serious reliability problems, on single prototypes for advanced models of the Me 262 (the Me 262C-2b ''Heimatschützer II''
ome Defender II Ome may refer to: Places * Ome (Bora Bora), a public island in the lagoon of Bora Bora * Ome, Lombardy, Italy, a town and ''comune'' in the Province of Brescia * Ōme, Tokyo, a city in the Prefecture of Tokyo * Ome (crater), a crater on Mars Tran ...
,Christopher, p.125. and He 162 (He 162E). Both prototypes flew under hybrid jet/rocket power during March 1945, though records do not indicate the results of testing with the 162E. Only about 500 examples of the BMW 003 were built, but the Fedden Mission postwar estimated total German jet engine production by mid-1946 could have reached 100,000 units a year, or more. The 003 was intended for export to Japan, but working examples of the engine were never supplied. Instead, Japanese engineers used drawings and photos of the engine to design an indigenous turbojet, the Ishikawajima Ne-20.


Turboshaft development

The 003 was selected as the basis for a gas turbine development project for the German military's anticipated need for what is today called a turboshaft powerplant for multiple needs — this project was called the GT 101, using the 003 axial-flow turbojet as the starting point in mid-November 1944. Its original purpose would have been to re-engine the Panther tank with a turboshaft-based power system capable of up to a 1,150 PS usable shaft horsepower rating into an AFV's drivetrain, from an engine weight of only , giving it a 27 hp/ton power-to-weight ratio — just over twice the factor that the Panther's original gasoline-fueled Maybach V12 piston engine provided.


Post-war use

Following the war, two captured 003s powered the prototype of the first Soviet jet, the Mikoyan-Gurevich MiG-9. Blueprints for BMW engines had been seized by Soviet forces from both the Basdorf-Zühlsdorf plant near Berlin and the notorious Mittelwerk slave labor facility near
Nordhausen Nordhausen may refer to: * Nordhausen (district), a district in Thuringia, Germany ** Nordhausen, Thuringia, a city in the district **Nordhausen station, the railway station in the city * Nordhouse, a commune in Alsace (German: Nordhausen) * Narost ...
. Production of the 003 was set up at the "Red October" GAZ 466 (''Gorkovsky Avtomobilny Zavod'', or Gorky Automobile Plant) in Leningrad and in Kuznetsov along KMPO, where the engine was mass-produced from 1947 under the designation RD-20 (''reactivnyi dvigatel'', or "jet drive"). After the Allied occupation of Germany, Marcel Dassault assisted Hermann Östrich in moving from the American Zone of occupied Germany into the
French Zone Germany was already de facto military occupation, occupied by the Allies of World War II, Allies from the real German Instrument of Surrender, fall of Nazi Germany in World War II on 8 May 1945 to the establishment of the East Germany on 7 Octo ...
. Within a couple of years, he was working for Voisin, a division of SNECMA, France's state-owned aircraft engine company. Using the basic design of the 003, he produced the larger Atar jet engine that powered Dassault's Ouragan, Dassault Mirage III and Mystère fighters.


Variants

''Data from:''Aircraft Engines of the world 1946 and ''Design Analysis of BMW 003 Turbojet'' by Maj Rudolph C Schulte, Project Officer, Turbojet and Gas Turbine Developments, HQ, USAAF ;BMW 003A-1 (TL 109-003):Prototype, / 8,000 rpm / sea level, weight of 609 kg (1,342 lb). ;BMW 003A-2 (TL 109-003):Initial production variant, / 9,500 rpm / sea level. ;BMW 003C (TL 109-003):Improved design, reduced weight A-2, , equal to Jumo 004B) / 9,500 rpm / sea level ;BMW 003D (TL 109-003):Improved design 003C, / 10,000 rpm / sea level, weight of 649 kg (1,430 lb) 01 kg/664 lb lighter than the HeS 011 one each extra compressor and turbine stage added for higher thrust, only lengthening the engine by overall compared to the A-2. ;BMW 003E :With ventral mounting points for use atop the fuselage, on the Heinkel He 162 and
Henschel Hs 132 Henschel's Hs 132 was a World War II dive bomber and interceptor aircraft of the German ''Luftwaffe'' that never saw service. The unorthodox design featured a top-mounted BMW 003 jet engine (identical in terms of make and position to the powerpla ...
. ;BMW 003R (TLR 109-003):An 003A-2 subtype turbojet with a BMW 109-718 (RLM powerplant number 109-718) liquid-fuel rocket fixed permanently above the jet exhaust nozzle, running on a hypergolic combination of R-stoff (a.k.a. Tonka or TONKA-250, 50% triethylamine and 50% xylidine) for fuel and SV-Stoff (aka
RFNA Red fuming nitric acid (RFNA) is a storable oxidizer used as a rocket propellant. It consists of 84% nitric acid (), 13% dinitrogen tetroxide and 1–2% water. The color of red fuming nitric acid is due to the dinitrogen tetroxide, which breaks ...
propellants: 94% HNO3, 6% N2O4) oxidizer, code-named ''Salbei'' (sage). The 003R delivered a combined thrust of for 3 minutes.


Applications

* Arado Ar 234V6, V8 prototypes and Ar 234C (four engines used) * Heinkel He 162 (single jet engine) * Junkers Ju 287 (two engines used for Ju 287 V2, six engines used for V3 and Ju 287A-1) * Messerschmitt Me 262 (A-1b test version, and ''Heimatschützer II'' experimental twin-BMW 003R powered interceptor only - all twin-engined)


Specifications (BMW 003A-2)


See also


Notes


Bibliography

* * Gunston, Bill. ''World Encyclopedia of Aero Engines''. Cambridge, England. Patrick Stephens Limited, 1989. * ''Jane's Fighting Aircraft of World War II''. London. Studio Editions Ltd, 1989. * Kay, Antony, ''German Jet Engine and Gas Turbine Development 1930–1945'', Airlife Publishing, 2002,


External links


USAAF Maj. Rudolph Schulte's ''Design Analysis of BMW 003 Turbojet''
{{RLM jet/rocket designations BMW aircraft engines 1940s turbojet engines