War emergency power (WEP) is a

throttle A throttle is a mechanism by which fluid flow is managed by construction or obstruction. An engine's power can be increased or decreased by the restriction of inlet gases (by the use of a throttle), but usually decreased. The term ''throttle'' ha ...

setting that was first present on some American

World War II World War II or the Second World War (1 September 1939 – 2 September 1945) was a World war, global conflict between two coalitions: the Allies of World War II, Allies and the Axis powers. World War II by country, Nearly all of the wo ...

military

aircraft engine An aircraft engine, often referred to as an aero engine, is the power component of an aircraft propulsion system. Aircraft using power components are referred to as powered flight. Most aircraft engines are either piston engines or gas turbin ...

s. For use in emergency situations, it produced more than 100% of the engine's normal rated power for a limited amount of time, often about five minutes. Similar systems used by non-US forces are now often referred to as WEP as well, although they may not have been at the time, as with the German Luftwaffe's ''Notleistung'' and Soviet VVS' ''forsazh'' systems.

WEP in World War II aircraft

Maximum normal power would be limited by a mechanical stop, for instance a wire across the throttle lever slot. A more forceful push would break the wire, allowing extra power. In normal service, the P-51H Mustang was rated at , but WEP would deliver up to , an increase of 61%. In the

P-51D Mustang Over twenty variants of the North American P-51 Mustang fighter were produced from 1940, when it first flew, to after World War II, some of which were employed also in the Korean War and in several other conflicts. Allison-engined Mustangs NA- ...

, the model most produced and used during World War II, the WEP increased engine power from , over 15%. The

Vought F4U Corsair The Vought F4U Corsair is an American fighter aircraft that saw service primarily in World War II and the Korean War. Designed and initially manufactured by Vought, Chance Vought, the Corsair was soon in great demand; additional production con ...

, not originally equipped for WEP, later boasted a power increase of up to (17%) when WEP was engaged. Several methods were used to boost engine power by manufacturers, including water injection and methanol-water injection. Some earlier engines simply allowed the throttle to open wider than normal, allowing more air to flow through the

intake An intake (also inlet) is an opening, structure or system through which a fluid is admitted to a space or machine as a consequence of a pressure differential between the outside and the inside. The pressure difference may be generated on the ins ...

. All WEP methods result in greater-than-usual stresses on the engine, and correspond to a reduced engine lifetime. For some airplanes, such as the P-51D, use of WEP required that the engine be inspected for damage before returning to the air.AAF Manual 51-127-3, ''Pilot Training Manual for the P-51 Mustang'', USAAF, August 1945, p.14. 5 hours' total use of WEP on the P-51D required a complete tear-down inspection of the engine. British and Commonwealth aircraft could increase power by increasing the supercharger boost pressure. This modification was common by the summer of 1940, with the widespread availability of 100 octane fuel. Raising supercharger boost pressure from increased the Merlin III engine rating from to , an increase of 23%. Pilots had to log the use of emergency boost and were advised not to use it for more than 5 minutes continuously. The German MW 50 methanol-water injection system required additional piping, as well as a storage tank, increasing the aircraft's overall weight. Like other boost techniques, MW 50 was restricted by capacity and engine temperatures and could only be used for a limited time. The GM 1 nitrous oxide injection system, also used by the

Luftwaffe The Luftwaffe () was the aerial warfare, aerial-warfare branch of the before and during World War II. German Empire, Germany's military air arms during World War I, the of the Imperial German Army, Imperial Army and the of the Imperial Ge ...

, provided extreme power benefits of 25 to 30 percent at high altitude by adding oxidizer gases but required cooling on the ground and, like the MW 50 boost system, added significant weight. One of the few German aircraft that could be equipped with both ''Notleistung'' systems, the late war Focke-Wulf Ta 152H high-altitude fighter, could attain a velocity of some with both systems used together. Kurt Tank reportedly once did this, using both boost systems simultaneously when he was flying a

Junkers Jumo 213 The Junkers Jumo 213 was a World War II-era V12 engine, V-12 liquid-cooled aircraft engine, a development of Junkers Motoren's earlier design, the Junkers Jumo 211, Jumo 211. The design added two features, a pressurized cooling system that requi ...

E-powered Ta 152H prototype fitted with both MW 50 and GM-1, to escape a flight of P-51D Mustangs in April 1945.

Modern times

MiG-21

Perhaps the most dramatic WEP feature was found in the

MiG-21 The Mikoyan-Gurevich MiG-21 (; NATO reporting name: Fishbed) is a supersonic jet aircraft, jet fighter aircraft, fighter and interceptor aircraft, designed by the Mikoyan, Mikoyan-Gurevich OKB, Design Bureau in the Soviet Union. Its nicknames in ...

bis fighter jet. This late variant of the standard Soviet light fighter plane was built as a stopgap measure to counter the newer and more powerful American

F-16 The General Dynamics F-16 Fighting Falcon is an American single-engine supersonic multirole fighter aircraft originally developed by General Dynamics for the United States Air Force (USAF). Designed as an air superiority day fighter, it e ...

and F/A-18 fighters until the next-generation

MiG-29 The Mikoyan MiG-29 (; NATO reporting name: Fulcrum) is a twinjet, twin-engine fighter aircraft designed in the Soviet Union. Developed by the Mikoyan design bureau as an air superiority fighter during the 1970s, the MiG-29, along with the large ...

could be introduced to service. The MiG-21bis received the upgraded Tumansky R-25 engine, which retained the standard normal and

afterburner An afterburner (or reheat in British English) is an additional combustion component used on some jet engines, mostly those on military supersonic aircraft. Its purpose is to increase thrust, usually for supersonic flight, takeoff, and combat ...

power settings of earlier R-13 powerplants, but with emergency thrust boost from an overspeed to 106% and increased afterburner fuel from a second afterburner fuel pump. Use of this boost feature provided of thrust for 2 minutes maximum in wartime. It gave the MiG-21bis slightly better than 1:1

thrust-to-weight ratio Thrust-to-weight ratio is a dimensionless ratio of thrust to weight of a rocket, jet engine, propeller engine, or a vehicle propelled by such an engine that is an indicator of the performance of the engine or vehicle. The instantaneous thrust-to-w ...

and a climb rate of , equalling F-16 capabilities in a dogfight. In air combat practice with the MiG-21bis, use of WEP thrust was limited to one minute, to reduce the impact on the engine 800 hours time between overhaul, since every second of WEP was equivalent to several minutes of running without it. When WEP was selected, the R-25 produced a long blowtorch exhaust - the six or seven brightly glowing rhomboid "

shock diamond Shock diamonds (also known as Mach diamonds or thrust diamonds, and less commonly Mach disks) are a formation of standing wave patterns that appear in the supersonic exhaust plume of an aerospace propulsion system, such as a supersonic jet engi ...

s" visible inside the flames gave the emergency-power setting its "diamond regime" name.

F-15

The Vmax switch on the F-15 fighter jet allows the engines to burn 22 degrees hotter and about 2% more

revolutions per minute Revolutions per minute (abbreviated rpm, RPM, rev/min, r/min, or r⋅min−1) is a unit of rotational speed (or rotational frequency) for rotating machines. One revolution per minute is equivalent to hertz. Standards ISO 80000-3:2019 de ...

, as well as boosting engine and afterburner fuel flow by around 4%. It is safety-wired shut. During combat, pulling the Vmax switch would provide the pilot with more thrust. However, Vmax usage is limited to a maximum of six minutes, and the engines would then need to be serviced and rebuilt.

Concorde

The concept of WEP found its way into civilian designs as well. The

Concorde Concorde () is a retired Anglo-French supersonic airliner jointly developed and manufactured by Sud Aviation and the British Aircraft Corporation (BAC). Studies started in 1954, and France and the United Kingdom signed a treaty establishin ...

supersonic airliner was powered by four

Rolls-Royce/Snecma Olympus 593 The Rolls-Royce/Snecma Olympus 593 was an France–United Kingdom relations, Anglo-French turbojet with reheat, which powered the Supersonic transport, supersonic airliner Concorde. It was initially a joint project between Bristol Siddeley, Br ...

afterburning turbojets, which possessed the ability to operate in a mode termed "Contingency Power". This was to be utilized in the event of an engine failure on takeoff and would be selected by moving the

selector switches an additional notch upward. Able to be engaged for no more than two and a half minutes at a time, Contingency Power provided an extra 1.1% more revolutions per minute over takeoff power, as well as simultaneously increasing fuel flow to the afterburners. When this mode was selected, an orange indicator light would illuminate over the engine RPM gauges. Each use was to be recorded by the crew, as it reduced the life of the engines.

WEP in surface vehicles

Some modern military surface vehicles also employ WEP features. The US Marine Corps Expeditionary Fighting Vehicle (cancelled in 2011) sported a 12-cylinder diesel engine developed by the German company MTU. When the EFV is swimming the powerplant can be boosted to via the use of open circuit seawater-cooling. Such extreme war power setting allows the MTU engine to drive four massive water-jet exhausts which propel the surface-effect riding EFV vehicle at sea speeds reaching . Although the EFV prototypes demonstrated revolutionary performance on water and land, the reliability of their extremely boosted powerplants never met stringent military standards and the vehicle failed to enter Marine Corps service.

Boost systems

* Water injection *

MW50 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 engine knocking, anti-detonation effect, allowing the use ...

(German, methanol/water mixture) * GM 1 (German,

nitrous oxide Nitrous oxide (dinitrogen oxide or dinitrogen monoxide), commonly known as laughing gas, nitrous, or factitious air, among others, is a chemical compound, an Nitrogen oxide, oxide of nitrogen with the Chemical formula, formula . At room te ...

injection) * Forsazh (Russian) * Propane injection

References

{{aircraft components Aircraft propulsion components