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Auxiliary power unit

January 09, 2023

Not to be confused with AMD Accelerated Processing Unit.

An auxiliary power unit (APU) is a device on a vehicle that provides energy for functions other than propulsion. They are commonly found on large aircraft and naval ships as well as some large land vehicles. Aircraft APUs generally produce 115 V AC voltage at 400 Hz (rather than 50/60 Hz in mains supply), to run the electrical systems of the aircraft; others can produce 28 V DC voltage.[1] APUs can provide power through single or three-phase systems.

A Honeywell GTCP36 APU mounted in the tail of a business jet
The APU exhaust in the tailcone of an Airbus A380

Transport aircraft

History

 
The intake diverter of the Jumo 004, with pull-start handle for Riedel APU and its sparkplug access ports
 
The Riedel 2-stroke engine used as the pioneering example of an APU, to turn over the central shaft of both World War II-era German BMW 003 and Junkers Jumo 004 jet engines.
 
The Riedel APU installed on a preserved BMW 003 jet engine, with what appears to be an electric starter for the Riedel APU.

During World War I, the British Coastal class blimps, one of several types of airship operated by the Royal Navy, carried a 1.75 horsepower (1.30 kW) ABC auxiliary engine. These powered a generator for the craft's radio transmitter and, in an emergency, could power an auxiliary air blower.[Note 1][2] One of the first military fixed-wing aircraft to use an APU was the British, World War 1, Supermarine Nighthawk, an anti-Zeppelin night fighter.[3]

During World War II, a number of large American military aircraft were fitted with APUs. These were typically known as putt–putts, even in official training documents. The putt-putt on the B-29 Superfortress bomber was fitted in the unpressurised section at the rear of the aircraft. Various models of four-stroke, Flat-twin or V-twin engines were used. The 7 horsepower (5.2 kW) engine drove a P2, DC generator, rated 28.5 Volts and 200 Amps (several of the same P2 generators, driven by the main engines, were the B-29's DC power source in flight). The putt-putt provided power for starting the main engines and was used after take-off to a height of 10,000 feet (3,000 m). The putt-putt was restarted when the B-29 was descending to land.[4]

Some models of the B-24 Liberator had a putt–putt fitted at the front of the aircraft, inside the nose-wheel compartment.[5] Some models of the Douglas C-47 Skytrain transport aircraft carried a putt-putt under the cockpit floor.[6]

As mechanical "startup" APUs for jet engines

The first German jet engines built during the Second World War used a mechanical APU starting system designed by the German engineer Norbert Riedel. It consisted of a 10 horsepower (7.5 kW) two-stroke flat engine, which for the Junkers Jumo 004 design was hidden in the intake diverter, essentially functioning as a pioneering example of an auxiliary power unit for starting a jet engine. A hole in the extreme nose of the diverter contained a manual pull-handle which started the piston engine, which in turn rotated the compressor. Two spark plug access ports existed in the Jumo 004's intake diverter to service the Riedel unit's cylinders in situ, for maintenance purposes. Two small "premix" tanks for the Riedel's petrol/oil fuel were fitted in the annular intake. The engine was considered an extreme short stroke (bore / stroke: 70 mm / 35 mm = 2:1) design so it could fit within the intake diverter of jet engines like the Jumo 004. For reduction it had an integrated planetary gear. It was produced by Victoria in Nuremberg and served as a mechanical APU-style starter for all three German jet engine designs to have made it to at least the prototype stage before May 1945 – the Junkers Jumo 004, the BMW 003 (which uniquely appears to use an electric starter for the Riedel APU),[7] and the prototypes (19 built) of the more advanced Heinkel HeS 011 engine, which mounted it just above the intake passage in the Heinkel-crafted sheetmetal of the engine nacelle nose.[8]

The Boeing 727 in 1963 was the first jetliner to feature a gas turbine APU, allowing it to operate at smaller airports, independent from ground facilities. The APU can be identified on many modern airliners by an exhaust pipe at the aircraft's tail.[9]

Sections

A typical gas-turbine APU for commercial transport aircraft comprises three main sections:

Power section

The power section is the gas-generator portion of the engine and produces all the shaft power for the APU.[10] In this section of the engine, air and fuel are mixed, compressed and ignited to create hot and expanding gases. This gas is highly energetic and is used to spin the turbine, which in turn powers other sections of the engine, such as auxiliary gearboxes, pumps, electrical generators, and in the case of a turbo fan engine, the main fan [11]

Load compressor section

The load compressor is generally a shaft-mounted compressor that provides pneumatic power for the aircraft, though some APUs extract bleed air from the power section compressor. There are two actuated devices to help control the flow of air: the inlet guide vanes that regulate airflow to the load compressor and the surge control valve that maintains stable or surge-free operation of the turbo machine.[10]

Gearbox section

The gearbox transfers power from the main shaft of the engine to an oil-cooled generator for electrical power. Within the gearbox, power is also transferred to engine accessories such as the fuel control unit, the lubrication module, and cooling fan. There is also a starter motor connected through the gear train to perform the starting function of the APU. Some APU designs use a combination starter/generator for APU starting and electrical power generation to reduce complexity.

On the Boeing 787, an aircraft which has greater reliance on its electrical systems, the APU delivers only electricity to the aircraft. The absence of a pneumatic system simplifies the design, but high demand for electricity requires heavier generators.[12][13]

Onboard solid oxide fuel cell (SOFC) APUs are being researched.[14]

Manufacturers

The market of Auxiliary power units is dominated by Honeywell, followed by Pratt & Whitney, Motorsich and other manufacturers such as PBS Velká Bíteš, Safran Power Units, Aerosila and Klimov. Local manufacturers include Bet Shemesh Engines and Hanwha Aerospace. The 2018 market share varied according to the application platforms:[15]

  • Large commercial aircraft: Honeywell 70–80%, Pratt & Whitney 20–30%, others 0–5%
  • Regional aircraft: Pratt & Whitney 50–60%, Honeywell 40–50%, others 0–5%
  • Business jets: Honeywell 90–100%, others 0–5%
  • Helicopters: Pratt & Whitney 40–50%, Motorsich 40–50%, Honeywell 5–10%, Safran Power Units 5–10%, others 0–5%

On June 4, 2018, Boeing and Safran announced their 50–50 partnership to design, build and service APUs after regulatory and antitrust clearance in the second half of 2018.[16] Boeing produced several hundred T50/T60 small turboshafts and their derivatives in the early 1960s. Safran produces helicopters and business jets APUs but stopped the large APUs since Labinal exited the APIC joint venture with Sundstrand in 1996.[17]

This could threaten the dominance of Honeywell and United Technologies.[18] Honeywell has a 65% share of the mainliner APU market and is the sole supplier for the Airbus A350, the Boeing 777 and all single-aisles: the Boeing 737 MAX, Airbus A220 (formerly Bombardier CSeries), Comac C919, Irkut MC-21 and Airbus A320neo since Airbus eliminated the P&WC APS3200 option. P&WC claims the remaining 35% with the Airbus A380, Boeing 787 and Boeing 747-8.[17]

It should take at least a decade for the Boeing/Safran JV to reach $100 million in service revenue. The 2017 market for production was worth $800 million (88% civil and 12% military), while the MRO market was worth $2.4 billion, spread equally between civil and military.[19]

Spacecraft

The Space Shuttle APUs provided hydraulic pressure. The Space Shuttle had three redundant APUs, powered by hydrazine fuel. They were only powered up for ascent, re-entry, and landing. During ascent, the APUs provided hydraulic power for gimballing of the Shuttle's three engines and control of their large valves, and for movement of the control surfaces. During landing, they moved the control surfaces, lowered the wheels, and powered the brakes and nose-wheel steering. Landing could be accomplished with only one APU working.[20] In the early years of the Shuttle there were problems with APU reliability, with malfunctions on three of the first nine Shuttle missions.[Note 2]

Armored vehicles

APUs are fitted to some tanks to provide electrical power without the high fuel consumption and large infrared signature of the main engine. As early as World War II, the American M4 Sherman had a small, piston-engine powered APU for charging the tank's batteries, a feature the Soviet-produced T-34 tank did not have.[25]

Commercial vehicles

A refrigerated or frozen food semi trailer or train car may be equipped with an independent APU and fuel tank to maintain low temperatures while in transit, without the need for an external transport-supplied power source.[citation needed][26]

On some older diesel engined-equipment, a small gasoline engine (often called a "pony engine") was used instead of an electric motor to start the main engine. The exhaust path of the pony engine was typically arranged so as to warm the intake manifold of the diesel, to ease starting in colder weather. These were primarily used on large pieces of construction equipment.[27][28]

Fuel cells

Main article: Fuel cell auxiliary power unit

In recent years, truck and fuel cell manufacturers have teamed up to create, test and demonstrate a fuel cell APU that eliminates nearly all emissions[29] and uses diesel fuel more efficiently.[30] In 2008, a DOE sponsored partnership between Delphi Electronics and Peterbilt demonstrated that a fuel cell could provide power to the electronics and air conditioning of a Peterbilt Model 386 under simulated "idling" conditions for ten hours.[31] Delphi has said the 5 kW system for Class 8 trucks will be released in 2012,[needs update] at an $8000–9000 price tag that would be competitive with other "midrange" two-cylinder diesel APUs, should they be able to meet those deadlines and cost estimates.[30]

See also

Notes

  1. ^ A continuous supply of pressurized air was needed to keep the airship's Ballonets inflated, and so maintain the structure of the gasbag. In normal flight, this was collected from the propeller slipstream by an air scoop.
  2. ^ Early Shuttle APU malfunctions:
    • STS-2 (November 1981): During a launchpad hold, high oil pressures were discovered in two of the three APUs. The gear boxes needed to be flushed and filters replaced, forcing the launch to be rescheduled.[21]
    • STS-3 (March 1982): One APU overheated during ascent and had to be shut down, although it later functioned properly during re-entry and landing.[22][23]
    • STS-9 (November–December 1983): During landing, two of the three APUs caught fire.[24]

References

  1. ^ "400 Hz Electrical Systems". Ask a Rocket Scientist. Aerospaceweb.org.
  2. ^ Abbott, Patrick (1989). The British Airship at War, 1914–1918. Terence Dalton. p. 57. ISBN 0861380738.
  3. ^ Andrews and Morgan 1987, p. 21.
  4. ^ Wolf, William (2005). Boeing B-29 Superfortress: the ultimate look: from drawing board to VJ-Day. Schiffer. p. 205. ISBN 0764322575.
  5. ^ Livingstone, Bob (1998). Under the Southern Cross: The B-24 Liberator in the South Pacific. Turner Publishing Company. p. 162. ISBN 1563114321.
  6. ^ Ethell, Jeffrey; Downie, Don (2004). Flying the Hump: In Original World War II Color. Zenith Imprint. p. 84. ISBN 0760319154.
  7. ^ Schulte, Rudolph C. (1946). "Design Analysis of BMW 003 Turbojet - "Starting the Engine"". legendsintheirowntime.com. United States Army Air Force - Turbojet and Gus Turbine Developments, HQ, AAF. Retrieved September 3, 2016. Starting procedure is as follows: Starting engine is primed by closing electric primer switch, then ignition of turbojet and ignition and electric starting motor of Riedel engine are turned on (this engine can also be started manually by pulling a cable). After the Riedel unit has reached a speed of about 300 rpm, it automatically engages the compressor shaft of the turbojet. At about 800 rpm of the starting engine, starting fuel pump is turned on, and at 1,200 rpm the main (J-2) fuel is turned on. The starter engine is kept engaged until the turbojet attains 2,000 rpm, at which the starter engine and starting fuel are turned off, the turbojet rapidly accelerating to rated speed of 9,500 rpm on the J-2 fuel
  8. ^ Gunston 1997, p. 141.
  9. ^ Vanhoenacker, Mark (5 February 2015). "What Is That Hole in the Tail of an Airplane?". Slate. Retrieved 20 October 2016.
  10. ^ a b . www.aertecsolutions.com. Archived from the original on 2018-06-20. Retrieved 2018-06-20.
  11. ^ "Turbojet Engines". www.grc.nasa.gov. Retrieved 2022-03-20.
  12. ^ Sinnet, Mike (2007). "Saving Fuel and enhancing operational efficiencies" (PDF). Boeing. Retrieved January 17, 2013.
  13. ^ Ogando, Joseph, ed. (June 4, 2007). . Design News. Archived from the original on April 6, 2012. Retrieved September 9, 2011.
  14. ^ Spenser, Jay (July 2004). "Fuel cells in the air". Boeing Frontiers. 3 (3).
  15. ^ "Case M.8858 – Boeing/Safran/JV (Auxiliary power units), Commission decision pursuant to Article 6(1)(b) of Council, Regulation No 139/2004 and Article 57 of the Agreement on the European Economic Area". EUR-Lex. European Commission. September 27, 2018. p. 14. Retrieved August 11, 2022.{{cite web}}: CS1 maint: url-status (link)
  16. ^ . Safran (Press release). June 4, 2018. Archived from the original on 2018-06-17.
  17. ^ a b Stephen Trimble (June 5, 2018). "How will Boeing-Safran venture shake up APUs?". Flightglobal.
  18. ^ Stephen Trimble (June 4, 2018). "Boeing and Safran partner to disrupt APU market". Flightglobal.
  19. ^ Kevin Michaels (June 27, 2018). "Opinion: Why Is Boeing Diving Into APU Production?". Aviation Week & Space Technology.
  20. ^ . spaceflight.nasa.gov. NASA. Archived from the original on 2 June 2001. Retrieved 8 February 2016.
  21. ^ "Space Shuttle Mission Archives STS-2". www.nasa.gov. NASA. Retrieved 18 February 2016.
  22. ^ "Space Shuttle Mission Archives STS-3". www.nasa.gov. NASA. Retrieved 18 February 2016.
  23. ^ Lousma, Jack R. (15 March 2010). "Jack R. Lousma Edited Oral History Transcript". NASA Johnson Space Center Oral History Project (Interview). Interviewed by Ross-Nazzal, Jennifer. Retrieved 18 February 2016.
  24. ^ "Space Shuttle Mission Archives STS-9". www.nasa.gov. NASA. Retrieved 18 February 2016.
  25. ^ Loza, Dimitri (September 21, 2010). "IRemember.ru WW II Memoirs". iremember.ru/en. IRemember. Retrieved June 13, 2017. Still one great plus of the Sherman was in the charging of its batteries. On our T-34 it was necessary to run the engine, all 500 horsepower of it, in order to charge batteries. In the crew compartment of the Sherman was an auxiliary gasoline engine, small like a motorcycle's one. Start it up and it charged the batteries. This was a big deal to us!
  26. ^ "Vehicle weight exemptions for APUs".
  27. ^ Orlemann, Eric. Caterpillar Chronicle: History of the Greatest Earthmovers. p. 35. ISBN 9781610605779.
  28. ^ "Willard v. Caterpillar, Inc. (1995)". Justia Law. Retrieved 13 December 2016.
  29. ^ Broderick, Christie-Joy; Timothy Lipman; Mohammad Farshchi; Nicholas Lutsey; Harry Dwyer; Daniel Sperling; William Gouse; Bruce Harris; Foy King (2002). (PDF). Transportation Research Part D. Elsevier Sciences Ltd. pp. 303–315. Archived from the original (PDF) on 2012-04-03. Retrieved 2011-09-27.
  30. ^ a b Weissler, Paul (2010-05-12). "Delphi truck fuel-cell APU to hit road in 2012". Vehicle Electrification. Retrieved 2011-09-27. and Delphi says it will have a 5-kW APU on the market in 2012.
  31. ^ Jacobs, Mike (2009-03-19). "Solid Oxide Fuel Cell Successfully Powers Truck Cab and Sleeper in DOE-Sponsored Test". NETL: News Release. National Energy Technology Laboratory. Retrieved 2011-09-27.

External links

 
Wikimedia Commons has media related to Auxiliary power units.
  • "Sound of an APU from inside a Boeing 737 cabin"
  • The Riedel Starter Motor In: Messerschmitt Me 262B in Detail; The airframe, engines and canopy
  • YouTube video of restored Junkers Jumo 004 jet engine, being started with "integral" Riedel APU, from September 2019

January 09, 2023
auxiliary, power, unit, confused, with, accelerated, processing, unit, auxiliary, power, unit, device, vehicle, that, provides, energy, functions, other, than, propulsion, they, commonly, found, large, aircraft, naval, ships, well, some, large, land, vehicles,. Not to be confused with AMD Accelerated Processing Unit An auxiliary power unit APU is a device on a vehicle that provides energy for functions other than propulsion They are commonly found on large aircraft and naval ships as well as some large land vehicles Aircraft APUs generally produce 115 V AC voltage at 400 Hz rather than 50 60 Hz in mains supply to run the electrical systems of the aircraft others can produce 28 V DC voltage 1 APUs can provide power through single or three phase systems A Honeywell GTCP36 APU mounted in the tail of a business jet The APU exhaust in the tailcone of an Airbus A380 Contents 1 Transport aircraft 1 1 History 1 1 1 As mechanical startup APUs for jet engines 1 2 Sections 1 2 1 Power section 1 2 2 Load compressor section 1 2 3 Gearbox section 1 3 Manufacturers 2 Spacecraft 3 Armored vehicles 4 Commercial vehicles 4 1 Fuel cells 5 See also 6 Notes 7 References 8 External linksTransport aircraft EditHistory Edit The intake diverter of the Jumo 004 with pull start handle for Riedel APU and its sparkplug access ports The Riedel 2 stroke engine used as the pioneering example of an APU to turn over the central shaft of both World War II era German BMW 003 and Junkers Jumo 004 jet engines The Riedel APU installed on a preserved BMW 003 jet engine with what appears to be an electric starter for the Riedel APU During World War I the British Coastal class blimps one of several types of airship operated by the Royal Navy carried a 1 75 horsepower 1 30 kW ABC auxiliary engine These powered a generator for the craft s radio transmitter and in an emergency could power an auxiliary air blower Note 1 2 One of the first military fixed wing aircraft to use an APU was the British World War 1 Supermarine Nighthawk an anti Zeppelin night fighter 3 During World War II a number of large American military aircraft were fitted with APUs These were typically known as putt putts even in official training documents The putt putt on the B 29 Superfortress bomber was fitted in the unpressurised section at the rear of the aircraft Various models of four stroke Flat twin or V twin engines were used The 7 horsepower 5 2 kW engine drove a P2 DC generator rated 28 5 Volts and 200 Amps several of the same P2 generators driven by the main engines were the B 29 s DC power source in flight The putt putt provided power for starting the main engines and was used after take off to a height of 10 000 feet 3 000 m The putt putt was restarted when the B 29 was descending to land 4 Some models of the B 24 Liberator had a putt putt fitted at the front of the aircraft inside the nose wheel compartment 5 Some models of the Douglas C 47 Skytrain transport aircraft carried a putt putt under the cockpit floor 6 As mechanical startup APUs for jet engines Edit The first German jet engines built during the Second World War used a mechanical APU starting system designed by the German engineer Norbert Riedel It consisted of a 10 horsepower 7 5 kW two stroke flat engine which for the Junkers Jumo 004 design was hidden in the intake diverter essentially functioning as a pioneering example of an auxiliary power unit for starting a jet engine A hole in the extreme nose of the diverter contained a manual pull handle which started the piston engine which in turn rotated the compressor Two spark plug access ports existed in the Jumo 004 s intake diverter to service the Riedel unit s cylinders in situ for maintenance purposes Two small premix tanks for the Riedel s petrol oil fuel were fitted in the annular intake The engine was considered an extreme short stroke bore stroke 70 mm 35 mm 2 1 design so it could fit within the intake diverter of jet engines like the Jumo 004 For reduction it had an integrated planetary gear It was produced by Victoria in Nuremberg and served as a mechanical APU style starter for all three German jet engine designs to have made it to at least the prototype stage before May 1945 the Junkers Jumo 004 the BMW 003 which uniquely appears to use an electric starter for the Riedel APU 7 and the prototypes 19 built of the more advanced Heinkel HeS 011 engine which mounted it just above the intake passage in the Heinkel crafted sheetmetal of the engine nacelle nose 8 The Boeing 727 in 1963 was the first jetliner to feature a gas turbine APU allowing it to operate at smaller airports independent from ground facilities The APU can be identified on many modern airliners by an exhaust pipe at the aircraft s tail 9 Sections Edit A typical gas turbine APU for commercial transport aircraft comprises three main sections Power section Edit The power section is the gas generator portion of the engine and produces all the shaft power for the APU 10 In this section of the engine air and fuel are mixed compressed and ignited to create hot and expanding gases This gas is highly energetic and is used to spin the turbine which in turn powers other sections of the engine such as auxiliary gearboxes pumps electrical generators and in the case of a turbo fan engine the main fan 11 Load compressor section Edit The load compressor is generally a shaft mounted compressor that provides pneumatic power for the aircraft though some APUs extract bleed air from the power section compressor There are two actuated devices to help control the flow of air the inlet guide vanes that regulate airflow to the load compressor and the surge control valve that maintains stable or surge free operation of the turbo machine 10 Gearbox section Edit The gearbox transfers power from the main shaft of the engine to an oil cooled generator for electrical power Within the gearbox power is also transferred to engine accessories such as the fuel control unit the lubrication module and cooling fan There is also a starter motor connected through the gear train to perform the starting function of the APU Some APU designs use a combination starter generator for APU starting and electrical power generation to reduce complexity On the Boeing 787 an aircraft which has greater reliance on its electrical systems the APU delivers only electricity to the aircraft The absence of a pneumatic system simplifies the design but high demand for electricity requires heavier generators 12 13 Onboard solid oxide fuel cell SOFC APUs are being researched 14 Manufacturers Edit The market of Auxiliary power units is dominated by Honeywell followed by Pratt amp Whitney Motorsich and other manufacturers such as PBS Velka Bites Safran Power Units Aerosila and Klimov Local manufacturers include Bet Shemesh Engines and Hanwha Aerospace The 2018 market share varied according to the application platforms 15 Large commercial aircraft Honeywell 70 80 Pratt amp Whitney 20 30 others 0 5 Regional aircraft Pratt amp Whitney 50 60 Honeywell 40 50 others 0 5 Business jets Honeywell 90 100 others 0 5 Helicopters Pratt amp Whitney 40 50 Motorsich 40 50 Honeywell 5 10 Safran Power Units 5 10 others 0 5 On June 4 2018 Boeing and Safran announced their 50 50 partnership to design build and service APUs after regulatory and antitrust clearance in the second half of 2018 16 Boeing produced several hundred T50 T60 small turboshafts and their derivatives in the early 1960s Safran produces helicopters and business jets APUs but stopped the large APUs since Labinal exited the APIC joint venture with Sundstrand in 1996 17 This could threaten the dominance of Honeywell and United Technologies 18 Honeywell has a 65 share of the mainliner APU market and is the sole supplier for the Airbus A350 the Boeing 777 and all single aisles the Boeing 737 MAX Airbus A220 formerly Bombardier CSeries Comac C919 Irkut MC 21 and Airbus A320neo since Airbus eliminated the P amp WC APS3200 option P amp WC claims the remaining 35 with the Airbus A380 Boeing 787 and Boeing 747 8 17 It should take at least a decade for the Boeing Safran JV to reach 100 million in service revenue The 2017 market for production was worth 800 million 88 civil and 12 military while the MRO market was worth 2 4 billion spread equally between civil and military 19 Spacecraft EditThe Space Shuttle APUs provided hydraulic pressure The Space Shuttle had three redundant APUs powered by hydrazine fuel They were only powered up for ascent re entry and landing During ascent the APUs provided hydraulic power for gimballing of the Shuttle s three engines and control of their large valves and for movement of the control surfaces During landing they moved the control surfaces lowered the wheels and powered the brakes and nose wheel steering Landing could be accomplished with only one APU working 20 In the early years of the Shuttle there were problems with APU reliability with malfunctions on three of the first nine Shuttle missions Note 2 Armored vehicles EditThis section is missing information about modern MBTs especially on the M1 Abrams which additionally needs help with fuel consumption on idle Please expand the section to include this information Further details may exist on the talk page October 2021 APUs are fitted to some tanks to provide electrical power without the high fuel consumption and large infrared signature of the main engine As early as World War II the American M4 Sherman had a small piston engine powered APU for charging the tank s batteries a feature the Soviet produced T 34 tank did not have 25 Commercial vehicles EditA refrigerated or frozen food semi trailer or train car may be equipped with an independent APU and fuel tank to maintain low temperatures while in transit without the need for an external transport supplied power source citation needed 26 On some older diesel engined equipment a small gasoline engine often called a pony engine was used instead of an electric motor to start the main engine The exhaust path of the pony engine was typically arranged so as to warm the intake manifold of the diesel to ease starting in colder weather These were primarily used on large pieces of construction equipment 27 28 Fuel cells Edit Main article Fuel cell auxiliary power unit In recent years truck and fuel cell manufacturers have teamed up to create test and demonstrate a fuel cell APU that eliminates nearly all emissions 29 and uses diesel fuel more efficiently 30 In 2008 a DOE sponsored partnership between Delphi Electronics and Peterbilt demonstrated that a fuel cell could provide power to the electronics and air conditioning of a Peterbilt Model 386 under simulated idling conditions for ten hours 31 Delphi has said the 5 kW system for Class 8 trucks will be released in 2012 needs update at an 8000 9000 price tag that would be competitive with other midrange two cylinder diesel APUs should they be able to meet those deadlines and cost estimates 30 See also EditAir start system Auxiliary hydraulic system Coffman engine starter Ram air turbine Uninterruptible power supplyNotes Edit A continuous supply of pressurized air was needed to keep the airship s Ballonets inflated and so maintain the structure of the gasbag In normal flight this was collected from the propeller slipstream by an air scoop Early Shuttle APU malfunctions STS 2 November 1981 During a launchpad hold high oil pressures were discovered in two of the three APUs The gear boxes needed to be flushed and filters replaced forcing the launch to be rescheduled 21 STS 3 March 1982 One APU overheated during ascent and had to be shut down although it later functioned properly during re entry and landing 22 23 STS 9 November December 1983 During landing two of the three APUs caught fire 24 References Edit 400 Hz Electrical Systems Ask a Rocket Scientist Aerospaceweb org Abbott Patrick 1989 The British Airship at War 1914 1918 Terence Dalton p 57 ISBN 0861380738 Andrews and Morgan 1987 p 21 Wolf William 2005 Boeing B 29 Superfortress the ultimate look from drawing board to VJ Day Schiffer p 205 ISBN 0764322575 Livingstone Bob 1998 Under the Southern Cross The B 24 Liberator in the South Pacific Turner Publishing Company p 162 ISBN 1563114321 Ethell Jeffrey Downie Don 2004 Flying the Hump In Original World War II Color Zenith Imprint p 84 ISBN 0760319154 Schulte Rudolph C 1946 Design Analysis of BMW 003 Turbojet Starting the Engine legendsintheirowntime com United States Army Air Force Turbojet and Gus Turbine Developments HQ AAF Retrieved September 3 2016 Starting procedure is as follows Starting engine is primed by closing electric primer switch then ignition of turbojet and ignition and electric starting motor of Riedel engine are turned on this engine can also be started manually by pulling a cable After the Riedel unit has reached a speed of about 300 rpm it automatically engages the compressor shaft of the turbojet At about 800 rpm of the starting engine starting fuel pump is turned on and at 1 200 rpm the main J 2 fuel is turned on The starter engine is kept engaged until the turbojet attains 2 000 rpm at which the starter engine and starting fuel are turned off the turbojet rapidly accelerating to rated speed of 9 500 rpm on the J 2 fuel Gunston 1997 p 141 Vanhoenacker Mark 5 February 2015 What Is That Hole in the Tail of an Airplane Slate Retrieved 20 October 2016 a b The APU and its benefits AERTEC Solutions www aertecsolutions com Archived from the original on 2018 06 20 Retrieved 2018 06 20 Turbojet Engines www grc nasa gov Retrieved 2022 03 20 Sinnet Mike 2007 Saving Fuel and enhancing operational efficiencies PDF Boeing Retrieved January 17 2013 Ogando Joseph ed June 4 2007 Boeing s More Electric 787 Dreamliner Spurs Engine Evolution On the 787 Boeing eliminated bleed air and relied heavily on electric starter generators Design News Archived from the original on April 6 2012 Retrieved September 9 2011 Spenser Jay July 2004 Fuel cells in the air Boeing Frontiers 3 3 Case M 8858 Boeing Safran JV Auxiliary power units Commission decision pursuant to Article 6 1 b of Council Regulation No 139 2004 and Article 57 of the Agreement on the European Economic Area EUR Lex European Commission September 27 2018 p 14 Retrieved August 11 2022 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Boeing Safran Agree to Design Build and Service Auxiliary Power Units Safran Press release June 4 2018 Archived from the original on 2018 06 17 a b Stephen Trimble June 5 2018 How will Boeing Safran venture shake up APUs Flightglobal Stephen Trimble June 4 2018 Boeing and Safran partner to disrupt APU market Flightglobal Kevin Michaels June 27 2018 Opinion Why Is Boeing Diving Into APU Production Aviation Week amp Space Technology Hydraulic System spaceflight nasa gov NASA Archived from the original on 2 June 2001 Retrieved 8 February 2016 Space Shuttle Mission Archives STS 2 www nasa gov NASA Retrieved 18 February 2016 Space Shuttle Mission Archives STS 3 www nasa gov NASA Retrieved 18 February 2016 Lousma Jack R 15 March 2010 Jack R Lousma Edited Oral History Transcript NASA Johnson Space Center Oral History Project Interview Interviewed by Ross Nazzal Jennifer Retrieved 18 February 2016 Space Shuttle Mission Archives STS 9 www nasa gov NASA Retrieved 18 February 2016 Loza Dimitri September 21 2010 IRemember ru WW II Memoirs iremember ru en IRemember Retrieved June 13 2017 Still one great plus of the Sherman was in the charging of its batteries On our T 34 it was necessary to run the engine all 500 horsepower of it in order to charge batteries In the crew compartment of the Sherman was an auxiliary gasoline engine small like a motorcycle s one Start it up and it charged the batteries This was a big deal to us Vehicle weight exemptions for APUs Orlemann Eric Caterpillar Chronicle History of the Greatest Earthmovers p 35 ISBN 9781610605779 Willard v Caterpillar Inc 1995 Justia Law Retrieved 13 December 2016 Broderick Christie Joy Timothy Lipman Mohammad Farshchi Nicholas Lutsey Harry Dwyer Daniel Sperling William Gouse Bruce Harris Foy King 2002 Evaluation of Fuel Cell auxiliary Power Units for Heavy Duty Diesel Trucks PDF Transportation Research Part D Elsevier Sciences Ltd pp 303 315 Archived from the original PDF on 2012 04 03 Retrieved 2011 09 27 a b Weissler Paul 2010 05 12 Delphi truck fuel cell APU to hit road in 2012 Vehicle Electrification Retrieved 2011 09 27 and Delphi says it will have a 5 kW APU on the market in 2012 Jacobs Mike 2009 03 19 Solid Oxide Fuel Cell Successfully Powers Truck Cab and Sleeper in DOE Sponsored Test NETL News Release National Energy Technology Laboratory Retrieved 2011 09 27 External links Edit Wikimedia Commons has media related to Auxiliary power units Space Shuttle Orbiter APU Sound of an APU from inside a Boeing 737 cabin The Riedel Starter Motor In Messerschmitt Me 262B in Detail The airframe engines and canopy YouTube video of restored Junkers Jumo 004 jet engine being started with integral Riedel APU from September 2019 Retrieved from https en wikipedia org w index php title Auxiliary power unit amp oldid 1128705140, wikipedia, wiki, book, books, library,

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