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The Daimler-Benz DB 605 is a German
In other ways the engine was essentially identical to the 601, being an inverted V-12 (with the crankshaft above the cylinders). Both used dual Bosch magnetos firing twin spark plugs for ignition. Bosch 
One major design difference was the switch from ball bearings to plain bearings which, when combined with increasingly poor grades of lubricants, led to serious problems in service, including engine fires; initially, for example, the use of emergency power was forbidden. Although Daimler-Benz redesigned the bearings and added oil slingers and their associated coolers, the RLM considered the DB 605 to be a "sick engine" and the problems had not been fully resolved by the end of the war.
Along with bearing difficulties, the DB 605 suffered particularly badly from the materials shortages in wartime Germany. From the outbreak of war onwards critical shortages of elements such as nickel and cobalt meant that the DB 605 had its exhaust valves reduced in nickel content from about 13.5% to 8%. This resulted in them becoming insufficiently corrosion resistant, and they began to scale in use. This scale then caused pre-ignition, which led to catastrophic detonation and eventually engine failure. This was the primary reason that the full 1.42 ata manifold pressure was not permitted, although the problems occurred for a long time before the official order restricting the power level was given (Jumo and BMW suffered exactly the same problem for some time). This was eventually fixed by applying a very heavy chrome plating to the exhaust valves, which rendered them just sufficiently resistant to scaling while still using less of a critical element than the original nickel alloy. BMW had developed this plating technique first, as the BMW 801 in the Fw 190 had also been suffering from a spate of detonation induced engine failures.
Like the 601, the 605 was designed to run on "B4" fuel with an octane rating of 87. In 1944 a series of newer engines was introduced, allowing the engine to run on the 100 octane "C3" fuel and optionally including fittings for various optional power-boosting agent dispensing systems, such as the MW50 methanol-water injection system, and GM-1 nitrous oxide injection system. The DB 605AM, running initially on C3 and MW-50, saw power improved to 1,800 PS (1775 hp) for takeoff. In mid-1944, the requirement for C3 was dropped and standard B4 fuel with MW-50 was used. The DB 605AS(M) improved the maximum rated altitude by using a larger supercharger taken from the DB 603 but was otherwise similar to the A(M). The DB 605ASB's takeoff power was also rated at 1,800 PS (1,775 hp), while maintaining the high-altitude performance of the ASM. The final version of the A-series was the DB 605ASC of 1945, which improved takeoff power to 2,000 PS (1,973 hp).
As early as 1942 Daimler had also been working on an upgraded D-series engine that could run on either C2 or C3 fuel. The first of these, which appeared in late 1944, was a small series of DB 605DM, followed by the main production series, the DB 605DB/DC.Mermet 1999, p. 19. These engines were fitted with an adjustable screw stop which allowed the use of either B4 fuel with MW-50, or C-3 fuel without MW-50, in which case the engine was designated DB 605DB, or the use of C-3 fuel with MW-50, in which case the engine was given the -DC suffix instead. In its DB-suffix form the engine generated 1,800 PS (1,775 hp) for take-off at 1.8 ata, while the DC was capable of 2,000 PS (1,973 hp) at 1.98 ata.Hitchcock 1979, p. 34 If MW-50 was not available for use with the B4 fuel the throttle was limited to 1.45 ata for the entire flight. Thus, this series was ideally suited to catering for the chaotic fuel supply situation prevalent during the last months of the Third Reich. These engines were mainly used in the Bf 109G-10 and K-4 series.
An unusual application of the DB 605 was its installation in a captured
;DB 605A:Standard fighter engine, up to 1475 PS, B4 fuel
;DB 605AM:605 A with
National Air and Space Museum
Washington D.C.
Aviation History.com, DB 600 series page
Website on Messerschmitt Bf 109 performance.
{{Daimler-Benz aeroengines Daimler-Benz aircraft engines 1940s aircraft piston engines Inverted V12 aircraft engines
aircraft engine
An aircraft engine, often referred to as an aero engine, is the power component of an aircraft propulsion system. Most aircraft engines are either piston engines or gas turbines, although a few have been rocket powered and in recent years many ...
built during World War II. Developed from the DB 601, the DB 605 was used from 1942 to 1945 in the Messerschmitt Bf 109
The Messerschmitt Bf 109 is a German World War II fighter aircraft that was, along with the Focke-Wulf Fw 190, the backbone of the Luftwaffe's fighter force. The Bf 109 first saw operational service in 1937 during the Spanish Civil War an ...
fighter, and the Bf 110 and Me 210C heavy fighters.
The DB 610, a pair of DB 605s geared to turn a single output shaft that replaced the similar DB 606, was used in the A-3 and all A-5 variants of Germany's only operational heavy bomber, the Heinkel He 177A.
License-built versions of the DB 605 were used in the Macchi C.205
The Macchi C.205 ''Veltro'' ( it, Greyhound) (also known as MC.205, "MC" standing for "Macchi Castoldi") was an Italian World War II fighter aircraft built by the Aeronautica Macchi. Along with the Reggiane Re.2005 and Fiat G.55, the Macchi C.2 ...
, Fiat G.55, Reggiane 2005 and some other Italian aircraft. It was also used in the Swedish SAAB B 18B and initially in the pusher-design SAAB J 21. Approximately 42,400 DB 605s of all kinds were built.
Design and development
The primary differences between the 605 and 601 were greater displacement, higher revolutions, higher compression ratio and a more powerful supercharger. Engineers determined that the cylinders could be bored out to a larger diameter without seriously affecting the strength of the existing block. The change was small, increasing the cylinder bore from the 601's 150 mm to the 605's 154 mm, but this increased the overall displacement from 33.9 litres to 35.7. Altered valve timing increased the inlet period and improved the scavenging to give greater volumetric efficiency at higher speeds, which improved the maximum allowable RPM from 2,600 in the 601 to 2,800 in the 605. The combination of these changes raised power output from 1,350 PS (1,332 hp) to 1,475 PS (1,455 hp). Engine weight increased from 700 to 756 kg.
In other ways the engine was essentially identical to the 601, being an inverted V-12 (with the crankshaft above the cylinders). Both used dual Bosch magnetos firing twin spark plugs for ignition. Bosch direct fuel injection
Fuel injection is the introduction of fuel in an internal combustion engine, most commonly automotive engines, by the means of an injector. This article focuses on fuel injection in reciprocating piston and Wankel rotary engines.
All compr ...
was powered by a pump supplying up to 90 bar. The oil system used three pumps with a separate 35-litre oil tank. The supercharger
In an internal combustion engine, a supercharger compresses the intake gas, forcing more air into the engine in order to produce more power for a given displacement.
The current categorisation is that a supercharger is a form of forced induct ...
was advanced for the era in that it used a barometrically controlled hydraulic clutch ( fluid coupling) which allowed the system automatically to compensate for changes in altitude.
One major design difference was the switch from ball bearings to plain bearings which, when combined with increasingly poor grades of lubricants, led to serious problems in service, including engine fires; initially, for example, the use of emergency power was forbidden. Although Daimler-Benz redesigned the bearings and added oil slingers and their associated coolers, the RLM considered the DB 605 to be a "sick engine" and the problems had not been fully resolved by the end of the war.
Along with bearing difficulties, the DB 605 suffered particularly badly from the materials shortages in wartime Germany. From the outbreak of war onwards critical shortages of elements such as nickel and cobalt meant that the DB 605 had its exhaust valves reduced in nickel content from about 13.5% to 8%. This resulted in them becoming insufficiently corrosion resistant, and they began to scale in use. This scale then caused pre-ignition, which led to catastrophic detonation and eventually engine failure. This was the primary reason that the full 1.42 ata manifold pressure was not permitted, although the problems occurred for a long time before the official order restricting the power level was given (Jumo and BMW suffered exactly the same problem for some time). This was eventually fixed by applying a very heavy chrome plating to the exhaust valves, which rendered them just sufficiently resistant to scaling while still using less of a critical element than the original nickel alloy. BMW had developed this plating technique first, as the BMW 801 in the Fw 190 had also been suffering from a spate of detonation induced engine failures.
Like the 601, the 605 was designed to run on "B4" fuel with an octane rating of 87. In 1944 a series of newer engines was introduced, allowing the engine to run on the 100 octane "C3" fuel and optionally including fittings for various optional power-boosting agent dispensing systems, such as the MW50 methanol-water injection system, and GM-1 nitrous oxide injection system. The DB 605AM, running initially on C3 and MW-50, saw power improved to 1,800 PS (1775 hp) for takeoff. In mid-1944, the requirement for C3 was dropped and standard B4 fuel with MW-50 was used. The DB 605AS(M) improved the maximum rated altitude by using a larger supercharger taken from the DB 603 but was otherwise similar to the A(M). The DB 605ASB's takeoff power was also rated at 1,800 PS (1,775 hp), while maintaining the high-altitude performance of the ASM. The final version of the A-series was the DB 605ASC of 1945, which improved takeoff power to 2,000 PS (1,973 hp).
As early as 1942 Daimler had also been working on an upgraded D-series engine that could run on either C2 or C3 fuel. The first of these, which appeared in late 1944, was a small series of DB 605DM, followed by the main production series, the DB 605DB/DC.Mermet 1999, p. 19. These engines were fitted with an adjustable screw stop which allowed the use of either B4 fuel with MW-50, or C-3 fuel without MW-50, in which case the engine was designated DB 605DB, or the use of C-3 fuel with MW-50, in which case the engine was given the -DC suffix instead. In its DB-suffix form the engine generated 1,800 PS (1,775 hp) for take-off at 1.8 ata, while the DC was capable of 2,000 PS (1,973 hp) at 1.98 ata.Hitchcock 1979, p. 34 If MW-50 was not available for use with the B4 fuel the throttle was limited to 1.45 ata for the entire flight. Thus, this series was ideally suited to catering for the chaotic fuel supply situation prevalent during the last months of the Third Reich. These engines were mainly used in the Bf 109G-10 and K-4 series.
An unusual application of the DB 605 was its installation in a captured Supermarine Spitfire
The Supermarine Spitfire is a British single-seat fighter aircraft used by the Royal Air Force and other Allied countries before, during, and after World War II. Many variants of the Spitfire were built, from the Mk 1 to the Rolls-Royce Grif ...
. In November 1942, Spitfire VB ''EN830'' ''NX-X'' of 131 Squadron made a forced landing in a turnip field in German-occupied Jersey. The plane was repaired by German forces and re-engined with a DB 605A, amongst other modifications. The aircraft was operated by the Luftwaffe until 14 August 1944, when it was destroyed during a USAAF bombing raid.
Variants
;Production versions
;DB 605A:Standard fighter engine, up to 1475 PS, B4 fuel
;DB 605AM:605 A with MW-50
MW 50 (Methanol-''Wasser'' 50) was a 50-50 mixture of methanol and water (German: ''Wasser'') that was often sprayed into the supercharger of World War II aircraft engines primarily for its anti-detonation effect, allowing the use of increased ...
system, up to 1800 PS, C3 fuel
;DB 605AS:Altitude optimized version of 605A using the larger DB 603 supercharger, up to 1435 PS, B4 fuel
;DB 605ASM:605 AS with MW-50 system, up to 1800 PS, C3 fuel
;DB 605ASB/605AB:late-war version, first version up to 1850 PS, later reduced to 1800 PS, B4 fuel with MW-50 or C3 fuel without MW-50
;DB 605ASC:late-war version, up to 2000 PS with MW-50, C3 fuel
;DB 605B:Same as 605 A but for use in twin-engined aircraft like Messerschmitt Bf 110, Me 210 (different prop/gear ratio)
;DB 605BS:proposed version for twin-engined aircraft, derived from DB 605 AS
;DB 605DB:Improved 605 DM, standard MW-50 equipment, first version up to 1850 PS, later reduced to 1800 PS, B4 fuel with MW-50 or C3 fuel without MW-50
;DB 605DC:Improved 605 DM, standard MW-50 equipment, up to 2000 PS, C3 fuel
;DB 605DM:First DB 605 D version, standard MW-50 equipment, up to 1700 PS
;DB 605E:proposed version for twin-engined aircraft, derived from DB 605 D
;DB 605T: Developed to drive the HZ Anlage supercharger for the Henschel Hs 130
;DB 605 L:Similar to 605 D but with two-stage supercharger, 1700 PS, development stopped in December 1944
;Fiat RA.1050 R.C.58 Tifone:Licence built / developed DB 605A-1 engines, built by Fiat in Italy.
;DB 610:Two DB 605s "coupled" (geared together) as a "power system" (71.53L / 4364.8in3), to turn a single propeller shaft, used in the Heinkel He 177A Mirror-imaged starboard component engine supercharger.
::DB 610A - Propeller RH rotation - Reduction ratio 0.413: 1.
:::Take-off and emergency power of at 2,800 rpm with 1.2 atmos. boost at sea level.
:::: at 2,800 rpm with 1.42 atmos. boost at .
:::Climbing at 2,600 rpm with 1.3 atmos. boost at sea level.
:::: at 2,600 rpm with 1.3 atmos. boost at .
:::Maximum cruising at 2,300 rpm with 1.15 atmos. boost at sea level.
:::: at 2,300 rpm with 1.15 atmos. boost at .
:::Fuel consumption (max cruise at sea level).
:::Total length ; width ; height ; weight .
::DB 610B - Propeller LH rotation - Weight
::DB 610C - Propeller RH rotation
:::Take-off and emergency power of at 2,800 rpm at sea level.
:::: at 2,800 rpm at .
:::Climbing at 2,600 rpm at sea level.
:::: at 2,600 rpm at .
:::Maximum cruising at 2,300 rpm at sea level.
:::: at 2,300 rpm at .
::DB 610D - Propeller LH rotation
;DB 616:A development of the DB 605.
;DB 620:Coupled DB628 engines.
;DB 621:A projected two-stage supercharged DB605
;DB 625:A turbocharged DB605
;DB 628:The DB 605, fitted with a two-stage supercharger, abandoned in March 1944.
;IAR DB605:Licence production in Romania by Industria Aeronautică Română (IAR).
Note: All power ratings in PS (metric horsepower). Unless otherwise noted takeoff/emergency power at sea level.
Survivors
A Hispano Aviación HA-1112, a license-built Messerschmitt Bf 109 G-2, has been rebuilt byEADS
Airbus SE (; ; ; ) is a European multinational aerospace corporation. Airbus designs, manufactures and sells civil and military aerospace products worldwide and manufactures aircraft throughout the world. The company has three divisions: '' ...
/Messerschmitt Foundation
Messerschmitt AG () was a German share-ownership limited, aircraft manufacturing corporation named after its chief designer Willy Messerschmitt from mid-July 1938 onwards, and known primarily for its World War II fighter aircraft, in parti ...
in Germany with a Daimler-Benz DB 605 engine.
Applications
DB 605 * Caproni Campini Ca.183bis(intended) * Fiat G.55 * IAR 471 *Macchi C.205
The Macchi C.205 ''Veltro'' ( it, Greyhound) (also known as MC.205, "MC" standing for "Macchi Castoldi") was an Italian World War II fighter aircraft built by the Aeronautica Macchi. Along with the Reggiane Re.2005 and Fiat G.55, the Macchi C.2 ...
* Messerschmitt Bf 109G/K
* Messerschmitt Bf 110G
* Messerschmitt Me 210
* Reggiane Re.2005
* Saab 18B, T
* Saab 21
*Savoia-Marchetti SM.91
The Savoia-Marchetti SM.91 was a two-seat, twin-engined, Italian heavy fighter prototype, designed to compete in a 1942 revision to a long-range fighter-bomber contract offered by the ''Regia Aeronautica'' to Italian aircraft companies in 1938. The ...
*Savoia-Marchetti SM.92
The Savoia-Marchetti SM.92 was an Italian heavy fighter/bomber of World War II based on the Savoia-Marchetti SM.88. The SM.92 did away with the mid-wing crew nacelle. The crew of two sat in the left fuselage only. Two DB 605 engines were fitted.
...
* Savoia-Marchetti SM.93
* VL Pyörremyrsky
DB 610
*Dornier Do 317
The Dornier Do 317 was a prototype German medium bomber of World War II.
Design and development
In June 1940, Dornier produced plans for a further development of the Do 217, which would have a pressurized cabin and more powerful engines (DB 604, ...
B
* Heinkel He 177A-3 and A-5
* Messerschmitt Me 261V3
*SNCAC NC.3021 Belphégor
The SNCAC NC.3021 Belphégor was a French high altitude research aircraft designed and built at the end of World War II. Only one was completed and it was not a success, in part because of problems with its unusual engine.
Design and developmen ...
Engines on display
Preserved DB 605 engines are on display at the Royal Air Force Museum, London and thNational Air and Space Museum
Washington D.C.
Specifications (DB 605AM)
See also
References
Notes
Bibliography
* * * Gregor, Neil ''Daimler-Benz in the Third Reich''. Yale University Press, 1998 * * ''Jane's Fighting Aircraft of World War II''. London. Studio Editions Ltd, 1989. * Hermann, Dietmar and Ringlstetter, Herbert. ''Messerschmitt Bf 109 : Vom Prototyp bis zur Bf 109 K''. München, GER: GeraMond Verlag, 2017. * Hitchcock, Thomas. ''Bf 109K: Monogram Close-Up 16''.Boylston MA: Monogram Aviation Publications, 1979. * Mankau, Heinz and Peter Petrick. ''Messerschmitt Bf 110/Me 210/Me 410: An Illustrated History''. Atglen PA: Schiffer Publishing Ltd., 2003. * Mermet, Jean-Claude. ''Messerschmitt Bf 109G-1 through K-4: Engines and Fittings''. Marnaz, France: Jean-Claude Mermet SA, 1999. * Smith, J Richard and Eddie J. Creek. ''Heinkel He 177 Greif: Heinkel's Strategic Bomber''. Hersham, Surrey, UK: Ian Allan Publishing, 2012.External links
Aviation History.com, DB 600 series page
Website on Messerschmitt Bf 109 performance.
{{Daimler-Benz aeroengines Daimler-Benz aircraft engines 1940s aircraft piston engines Inverted V12 aircraft engines