The Walter HWK 109-509 was a German liquid-fuel

bipropellant The highest specific impulse chemical rockets use liquid propellants (liquid-propellant rockets). They can consist of a single chemical (a monopropellant) or a mix of two chemicals, called bipropellants. Bipropellants can further be divided into ...

rocket engine A rocket engine uses stored rocket propellants as the reaction mass for forming a high-speed propulsive jet of fluid, usually high-temperature gas. Rocket engines are reaction engines, producing thrust by ejecting mass rearward, in accorda ...

that powered the

Messerschmitt Me 163 Komet The Messerschmitt Me 163 Komet is a rocket-powered interceptor aircraft primarily designed and produced by the German aircraft manufacturer Messerschmitt. It is the only operational rocket-powered fighter aircraft in history as well as ...

and

Bachem Ba 349 The Bachem Ba 349 Natter ( en, Colubrid, grass-snake) was a World War II German point-defence rocket-powered interceptor, which was to be used in a very similar way to a manned surface-to-air missile. After a vertical take-off, which eliminate ...

aircraft. It was produced by

Hellmuth Walter Kommanditgesellschaft Hellmuth Walter Kommanditgesellschaft (HWK), Helmuth Walter Werke (HWM), or commonly known as the Walter-Werke, was a German company founded by Professor Hellmuth Walter to pursue his interest in engines using hydrogen peroxide as a fuel. Having ex ...

(HWK) commencing in 1943, with licensed production by the Heinkel firm's facilities in

Jenbach Jenbach is a municipality in the district of Schwaz in the Austrian state of Tyrol. Etymology Many inhabitants of Jenbach believe that the name "Jenbach" is derived from "Jenseits des Baches", which means "Beyond the brook", however earlier ve ...

, Austria.

Design and development

Early versions of the Me 163 had been powered by an earlier design running on a "cold engine" fueled with

Z-Stoff Z-Stoff (, "substance Z") was a name for calcium permanganate or sodium permanganate mixed in water. It was normally used as a catalyst for T-Stoff ( high-test peroxide) in military rocket programs by Nazi Germany during World War II. Z-Stoff was ...

. This fuel tended to clog the jets in the combustion chamber, causing fluctuations in power and potentially explosions. Worse, however, was the fact that the engine could not be throttled, and when the aircraft leveled off after its climb to altitude it quickly accelerated to speeds that caused serious

compressibility In thermodynamics and fluid mechanics, the compressibility (also known as the coefficient of compressibility or, if the temperature is held constant, the isothermal compressibility) is a measure of the instantaneous relative volume change of a f ...

issues. The RLM demanded that a version be developed with a throttle. HWK 109-509 A-1 Rocket Engine

During this period Walter had also been working with a new fuel known as C-Stoff that gave off significant heat and was thus known as the "hot engine". C-Stoff was a mix of 30%

hydrazine hydrate Hydrazine is an inorganic compound with the chemical formula . It is a simple pnictogen hydride, and is a colourless flammable liquid with an ammonia-like odour. Hydrazine is highly toxic unless handled in solution as, for example, hydrazine h ...

, 57% methanol, and 13% water, with a small amount of potassium-copper-cyanide. The oxidizer, known as

T-Stoff T-Stoff (; 'substance T') was a stabilised high test peroxide used in Germany during World War II. T-Stoff was specified to contain 80% (occasionally 85%) hydrogen peroxide (H2O2), remainder water, with traces (<0.1%) of stabilisers. Stabilisers ...

, consisted of an 80%-concentration

hydrogen peroxide Hydrogen peroxide is a chemical compound with the formula . In its pure form, it is a very pale blue liquid that is slightly more viscous than water. It is used as an oxidizer, bleaching agent, and antiseptic, usually as a dilute solution (3%� ...

-based formulation. The two reacted violently on contact. The violent combustion process resulted in the formation of water, carbon dioxide and nitrogen, and a huge amount of heat sending out a superheated stream of steam, nitrogen and air that was drawn in through the hole in the mantle of the engine, thus providing a forward thrust of approximately 17 kN (3,820 lbf). To address the throttling issue, the new engine included

turbopump A turbopump is a propellant pump with two main components: a rotodynamic pump and a driving gas turbine, usually both mounted on the same shaft, or sometimes geared together. They were initially developed in Germany in the early 1940s. The purpo ...

s with two settings. The pumps were driven by a single turbine, powered by steam created by decomposing the T-Stoff with a wire mesh

catalyst Catalysis () is the process of increasing the rate of a chemical reaction by adding a substance known as a catalyst (). Catalysts are not consumed in the reaction and remain unchanged after it. If the reaction is rapid and the catalyst recyc ...

. Combined with a mechanical throttle, this provided four power settings from idle to full power for climbing. In practice it was found that throttling the engine dramatically decreased its fuel economy to the point that it did not extend the endurance of the aircraft as expected. This version was put into the Me 163B in spite of this problem. The ultimate solution to the throttling problem was the B and C series of the engine. These engines used two combustion chambers, the original one (retroactively given the name ''Hauptofen''), and a second, smaller ''Marschofen'' chamber directly beneath the main ''Hauptofen'' chamber, tuned to provide the cruise power needed for high-speed level flight, about . This chamber provided that power at peak efficiency, so it did not suffer from the problems found while throttling on the original models. The throttle on the original combustion chamber was removed, and throttling was instead provided by turning the main engine on and off. This new version dramatically improved cruise endurance, with overall flight times improving from eight to twelve minutes, a 50% improvement. It was also mechanically simpler as the turbopumps were no longer throttled. The engine was an integral design with all components of the drive, with the exception of fuel tanks, locked in a cubical frame — this frame was discarded for the 109-509C dual-chamber design.

Variants

*: Pre-production model, manufactured from May 1943. The thrust of this engine was regulated between 300 kp (2.9 kN) and 1500 kp (). *: The first series production engine was used in the Messerschmitt Me 163 B from August 1944. The thrust here was adjustable between 100 kp (1 kN) and 1600 kp (). *: Version for the Messerschmitt Me 163B-1a. Weighing only complete, this engine consisted of two main assemblies, the roughly-cubical shape framed forward assembly comprising the turbine housing, the fuel pumps geared to the turbine shaft, the control box, a pressure-reducing valve and the electric starter motor, with the aft assembly made up of the combustion chamber, connected to the fore unit by a cylindrical "thrust-tube" containing pipes which carried fuel to the combustion chamber's individual injector jets. The thrust was adjustable between 200 kp () and a maximum of 1700 kp (). Walter HWK 509B-1 USAF

*: Increased performance version of the 509 A-1. This engine was the initial version to feature the twin ''Hauptofen'' main chamber above, and lower thrust ''Marschofen'' cruise chamber design directly below the main chamber, with an additional thrust of 300 kp (). This auxiliary chamber proved necessary due to the actual T-Stoff oxidizer consumption of the main unit, at nearly 5 kg/s, exceeding estimates by 100%. Thrust from main chamber adjustable between 100 kp () and 2000 kp (). Fully restored examples of both the Me 163B's single-chamber rocket motor, as well as the only known example — stated as the third prototype example — in the United States of the experimental twin-chamber Walter "509B" rocket motor, are each on display in front, one each to either side of the NMUSAF's restored Me 163B, bearing ''Werknummer'' (serial number) 191 095 on its vertical fin. *: Dual-chamber motor like the B-series, based on the uprated version of the 509 A-2, but having a main ''Hauptofen'' chamber with a differing forward shape from that on the 509B, while also discarding the open-structure cubical frame for lighter weight. The main combustion chamber gave between 400 kp () and 2000 kp (), the ''Marschofen'' auxiliary chamber 400 kp (). To be used in the Me 263 (Ju 248). One surviving example on museum display at the

Royal Air Force Museum Cosford The Royal Air Force Museum Cosford, located in Cosford in Shropshire, is a free (currently, 2022) museum dedicated to the history of aviation and the Royal Air Force in particular. The museum is part of the Royal Air Force Museum, a non-departme ...

. *: Variant of the 509 C-1 for use in the improved B-series airframes of the

''Natter''. Engine designed to be recovered by parachute, along with the entire rear section with

empennage The empennage ( or ), also known as the tail or tail assembly, is a structure at the rear of an aircraft that provides stability during flight, in a way similar to the feathers on an arrow.Crane, Dale: ''Dictionary of Aeronautical Terms, third e ...

. * A completely revised lightened version for use as a permanently installed booster rocket on the

Messerschmitt Me 262 The Messerschmitt Me 262, nicknamed ''Schwalbe'' (German: "Swallow") in fighter versions, or ''Sturmvogel'' (German: "Storm Bird") in fighter-bomber versions, is a fighter aircraft and fighter-bomber that was designed and produced by the Germ ...

''Heimatschützer IV'' home defence interceptor. *HWK RII-211'' - Company designation for prototype engines of the 509A-2 series

Applications

* Arado Ar E.381 *

* DFS 228 * Focke-Wulf ''Volksjäger'' 2 *

Messerschmitt Me 163 The Messerschmitt Me 163 Komet is a rocket-powered interceptor aircraft primarily designed and produced by the German aircraft manufacturer Messerschmitt. It is the only operational rocket-powered fighter aircraft in history as well as ...

C, in ''Heimatschützer'' prototype evaluation designs.

Engines on display

National Museum of the United States Air Force The National Museum of the United States Air Force (formerly the United States Air Force Museum) is the official museum of the United States Air Force located at Wright-Patterson Air Force Base, northeast of Dayton, Ohio. The NMUSAF is the ...

(bot
single-chamber 509 A
an
twin-chamber 509 B
versions) * National Museum of Flight *

Cosmosphere Cosmosphere is a space museum and STEM education center in Hutchinson, Kansas, United States. It was previously known as the Kansas Cosmosphere. The museum houses over 13,000 spaceflight artifacts—the largest combined collection of US and ...

Komet engine at the Cosmosphere
/ref> * Luftwaffenmuseum der Bundeswehr *

Shuttleworth Collection The Shuttleworth Collection is a working aeronautical and automotive collection located at the Old Warden Aerodrome, Old Warden in Bedfordshire, England. It is the oldest in the world and one of the most prestigious, due to the variety of old a ...

* Ballarat Aviation Museum

Specifications (509A)

References

Notes

Bibliography

*Gooden, Brett. ''Natter: Manned Missile of the Third Reich: Historic Step to Human Spaceflight''. Rundle Mall, Australia: Brett Gooden, 2019. *''Jane's Fighting Aircraft of World War II''. London. Studio Editions Ltd, 1989.

External links

The Hellmuth Walter Rocket Engine

* ttp://www.walterwerke.co.uk/museum/usafmb1.htm#third Walter 109-509B rocket motor photo-page
The NMUSAF page on the 509B

and ttp://www.walterwerke.co.uk/museum/cosford.htm photos of the preserved UK-housed 509C rocket motor {{Aeroengine-specs Aircraft rocket engines Rocket engines using hypergolic propellant 109-509 Rocket engines using the gas-generator cycle Rocket engines using hot cycle hydrogen peroxide propellant