Kinetic energy recovery system

Last updated
A Flybrid Systems kinetic energy recovery system. Flybrid Systems Kinetic Energy Recovery System.jpg
A Flybrid Systems kinetic energy recovery system.

A kinetic energy recovery system (KERS) is an automotive system for recovering a moving vehicle's kinetic energy under braking. The recovered energy is stored in a reservoir (for example a flywheel or high voltage batteries) for later use under acceleration. Examples include complex high end systems such as the Zytek, Flybrid, [1] Torotrak [2] [3] and Xtrac used in Formula One racing and simple, easily manufactured and integrated differential based systems such as the Cambridge Passenger/Commercial Vehicle Kinetic Energy Recovery System (CPC-KERS).

Contents

Xtrac and Flybrid are both licensees of Torotrak's technologies, which employ a small and sophisticated ancillary gearbox incorporating a continuously variable transmission (CVT). The CPC-KERS is similar as it also forms part of the driveline assembly. However, the whole mechanism including the flywheel sits entirely in the vehicle's hub (looking like a drum brake). In the CPC-KERS, a differential replaces the CVT and transfers torque between the flywheel, drive wheel and road wheel.

Use in motorsport


History

The first of these systems to be revealed was the Flybrid. [4] This system weighs 24 kg (53 lbs) and has an energy capacity of 400 kJ after allowing for internal losses. A maximum power boost of 60 kW (81.6  PS, 80.4 HP) for 6.67 seconds is available. The 240 mm (9.4 in) diameter flywheel weighs 5.0 kg (11 lbs) and revolves at up to 64,500 rpm. Maximum torque at the flywheel is 18 Nm (13.3 ftlbs), and the torque at the gearbox connection is correspondingly higher for the change in speed. The system occupies a volume of 13 litres. [4]

Already in 2006, a first KERS system based on supercapacitors has been studied at EPFL (Ecole Polytechnique Fédérale de Lausanne) in the framework of the development of the "Formula S2000". A 180kJ system has been developed in collaboration with other institutes (Multiphysic Modeling of a Hybrid Propulsion System for a Racecar Application, A. Rufer, P. Barrade, M. Correvon and J.-F. Weber, iamf EET-2008 : European Ele-Drive Conference, International Advanced Mobility Forum, Geneva, Switzerland, 11–13 March 2008).

Two minor incidents were reported during testing of various KERS systems in 2008. The first occurred when the Red Bull Racing team tested their KERS battery for the first time in July: it malfunctioned and caused a fire scare that led to the team's factory being evacuated. [5] The second was less than a week later when a BMW Sauber mechanic was given an electric shock when he touched Christian Klien's KERS-equipped car during a test at the Jerez circuit. [6]

Formula One

Formula One has stated that they support responsible solutions to the world's environmental challenges, [7] and the FIA allowed the use of 60 kW (82 PS; 80 bhp) KERS in the regulations for the 2009 Formula One season. [8] Teams began testing systems in 2008: energy can either be stored as mechanical energy (as in a flywheel) or as electrical energy (as in a battery or supercapacitor). [9]

Kimi Raikkonen took the lead of the 2009 Belgian Grand Prix with a KERS-aided overtake and subsequently won the race. Kimi Raikkonen 2009 Belgium 3.jpg
Kimi Räikkönen took the lead of the 2009 Belgian Grand Prix with a KERS-aided overtake and subsequently won the race.

With the introduction of KERS in the 2009 season, only four teams used it at some point in the season: Ferrari, Renault, BMW and McLaren. Eventually, during the season, Renault and BMW stopped using the system. Nick Heidfeld was the first driver to take a podium position with a KERS equipped car, at the Malaysian Grand Prix. McLaren Mercedes became the first team to win an F1 GP using a KERS equipped car when Lewis Hamilton won the Hungarian Grand Prix on July 26, 2009. Their second KERS equipped car finished fifth. At the following race, Lewis Hamilton became the first driver to take pole position with a KERS car, his teammate, Heikki Kovalainen qualifying second. This was also the first instance of an all KERS front row. On August 30, 2009, Kimi Räikkönen won the Belgian Grand Prix with his KERS equipped Ferrari. It was the first time that KERS contributed directly to a race victory, with second placed Giancarlo Fisichella claiming "Actually, I was quicker than Kimi. He only took me because of KERS at the beginning". [10]

Although KERS was still legal in F1 in the 2010 season, all the teams had agreed not to use it. [11] New rules for the 2011 F1 season which raised the minimum weight limit of the car and driver by 20 kg to 640 kg, [12] along with the FOTA teams agreeing to the use of KERS devices once more, meant that KERS returned for the 2011 season. [13] Use of KERS was still optional as in the 2009 season; and at the start of the 2011 season three teams chose not to use it. [14]

WilliamsF1 developed their own flywheel-based KERS system but decided not to use it in their F1 cars due to packaging issues, and have instead developed their own electrical KERS system. However, they set up Williams Hybrid Power to sell their developments. In 2012 it was announced that the Audi Le Mans R18 hybrid cars would use Williams Hybrid Power. [15]

Since 2014, the power capacity of the KERS units were increased from 60 kilowatts (80 bhp) to 120 kilowatts (160 bhp). This was introduced to balance the sport's move from 2.4 litre V8 engines to 1.6 litre V6 turbo engines. [16]

Working diagram for KERS

The operation process of KERS in Formula One Kinetic Energy Recovery System.gif
The operation process of KERS in Formula One

Autopart makers

A KERS flywheel. KERS flywheel.jpg
A KERS flywheel.

Bosch Motorsport Service is developing a KERS for use in motor racing. These electricity storage systems for hybrid and engine functions include a lithium-ion battery with scalable capacity or a flywheel, a four to eight kilogram electric motor (with a maximum power level of 60 kW (81 hp)), as well as the KERS controller for power and battery management. Bosch also offers a range of electric hybrid systems for commercial and light-duty applications. [17]

Car manufacturers

Several automakers have been testing KERS systems. [18] At the 2008 1000 km of Silverstone, Peugeot Sport unveiled the Peugeot 908 HY, a hybrid electric variant of the diesel 908, with KERS. Peugeot planned to campaign the car in the 2009 Le Mans Series season, although it was not allowed to score championship points. [19]

McLaren began testing of their KERS system in September 2008 at Jerez in preparation for the 2009 F1 season, although at that time it was not yet known if they would be operating an electrical or mechanical system. [20] In November 2008, it was announced that Freescale Semiconductor would collaborate with McLaren Electronic Systems to further develop its KERS for McLaren's Formula One cars from 2010 onwards. Both parties believed this collaboration would improve McLaren's KERS system and help the system to transfer its technology to road cars. [21]

Toyota has used a supercapacitor for regeneration on its Supra HV-R hybrid race car that won the Tokachi 24-Hour endurance race in July 2007. This Supra became the first hybrid car in the history of motorsport to win such a race. [22]

At the NAIAS 2011, Porsche unveiled a RSR variant of their Porsche 918 concept car which uses a flywheel-based KERS that sits beside the driver in the passenger compartment and boosts the dual electric motors driving the front wheels and the 565 BHP V8 gasoline engine driving the rear to a combined power output of 767 BHP. This system has many problems including the imbalance caused to the vehicle due to the flywheel. Porsche is currently developing an electrical storage system. [23]

In 2011, Mazda has announced i-ELOOP, a system which uses a variable-voltage alternator to convert kinetic energy to electric power during deceleration. The energy, stored in a double-layer capacitor, is used to supply power needed by vehicle electrical systems. When used in conjunction with Mazda's start-stop system, i-Stop, the company claims fuel savings of up to 10%. [24]

Bosch and PSA Peugeot Citroën have developed a hybrid system that uses hydraulics as a way to transfer energy to and from a compressed nitrogen tank. An up to 45% reduction in fuel consumption is claimed, corresponding to 2.9 L/100 km (81 mpg, 69 g CO2/km) on the NEDC cycle for a compact frame like Peugeot 208. The system is claimed to be much more affordable than competing electric and flywheel systems and was expected on road cars by 2016 but was abandoned in 2015. [25] [26]

In 2020, FIAT launched the series of the FIAT Panda mild-hybrid with KERS technology. [27]

Motorcycles

KTM racing boss Harald Bartol revealed that the factory raced with a secret kinetic energy recovery system fitted to Tomoyoshi Koyama's motorcycle during the 125cc race of the 2008 Valencian Community motorcycle Grand Prix. Koyama finished 7th. [28] The system was later ruled illegal and thus was banned.[ citation needed ] The Lit C-1 electric motorcycle will also use a KERS as a regenerative braking system. [29]

Bicycles

KERS is also possible on a bicycle. The EPA, working with students from the University of Michigan, developed the hydraulic Regenerative Brake Launch Assist (RBLA) [30]

This has also been demonstrated by mounting a flywheel on a bike frame and connecting it with a CVT to the back wheel. By shifting the gear, 20% of the kinetic energy can be stored in the flywheel, ready to give an acceleration boost by reshifting the gear. [31]

Races

Automobile Club de l'Ouest, the organizer behind the annual 24 Hours of Le Mans event and the Le Mans Series, has promoted the use of kinetic energy recovery systems in the LMP1 class since the late 2000s. [32] Peugeot was the first manufacturer to unveil a fully functioning LMP1 car in the form of the 908 HY at the 2008 Autosport 1000 km race at Silverstone. [33]

The 2011 24 Hours of Le Mans saw Hope Racing enter with a Flybrid Systems mechanical KERS, to be the first car ever to compete at the event with a hybrid. The system consisted of high speed slipping clutches which transfer torque to and from the vehicle, coupled to a 60,000 rpm flywheel.[ citation needed ]

Audi and Toyota both developed LMP1 cars with kinetic energy recovery systems for the 2012 and 2013 24 Hours of Le Mans. The Audi R18 e-tron quattro uses a flywheel-based system, while the Toyota TS030 Hybrid uses a supercapacitor-based system. When Porsche announced its return to Le Mans in 2014, it also unveiled an LMP1 car with a kinetic energy recovery system. The Porsche 919 Hybrid, introduced in 2014, uses a battery system, in contrast to the previous Porsche 911 GT3 R Hybrid that used a flywheel system.

Use in public transport

London buses

A KERS using a carbon fibre flywheel, originally developed for the Williams Formula One racing team, has been modified for retrofitting to existing London double-decker buses. 500 buses from the Go-Ahead Group will be fitted with this technology from 2014 to 2016, anticipated to improve fuel efficiency by approximately 20%. [34] The team who developed the technology were awarded the Dewar Trophy of the Royal Automobile Club in 2015. [35]

Parry People Mover

Parry People Mover railcars use a small engine and large flywheel to move. The system also supports regenerative braking. [36]

See also

Related Research Articles

<span class="mw-page-title-main">Williams Grand Prix Engineering</span> British Formula One motor racing team and constructor

Williams Grand Prix Engineering Limited, currently racing in Formula One as Williams Racing, is a British Formula One team and constructor. It was founded by Sir Frank Williams (1942–2021) and Sir Patrick Head. The team was formed in 1977 after Frank Williams's earlier unsuccessful F1 operation: Frank Williams Racing Cars. The team is based in Grove, Oxfordshire, on a 60-acre (24 ha) site.

<span class="mw-page-title-main">Regenerative braking</span> Energy recovery mechanism

Regenerative braking is an energy recovery mechanism that slows down a moving vehicle or object by converting its kinetic energy or potential energy into a form that can be either used immediately or stored until needed.

A Formula One car or F1 car is a single-seat, open-cockpit, open-wheel formula racing car with substantial front and rear wings, and an engine positioned behind the driver, intended to be used in competition at Formula One racing events. The regulations governing the cars are unique to the championship and specify that cars must be constructed by the racing teams themselves, though the design and manufacture can be outsourced. Formula One drivers experience peak cornering forces of up to six lateral g.

<span class="mw-page-title-main">24 Hours of Le Mans</span> Annual sports car race held in France

The 24 Hours of Le Mans is an endurance-focused sports car race held annually near the town of Le Mans, France. It is widely considered to be one of the world's most prestigious races, and is one of the races—along with the Monaco Grand Prix and Indianapolis 500—that form the Triple Crown of Motorsport, and is also one of the races alongside the 24 Hours of Daytona and 12 Hours of Sebring that make up the informal Triple Crown of endurance racing. Run since 1923, it is the oldest active endurance racing event in the world.

<span class="mw-page-title-main">2009 Formula One World Championship</span> 60th season of the FIA Formula One World Championship

The 2009 FIA Formula One World Championship was the 63rd season of FIA Formula One motor racing. It featured the 60th Formula One World Championship which was contested over 17 events commencing with the Australian Grand Prix on 29 March and ending with the inaugural Abu Dhabi Grand Prix on 1 November.

<span class="mw-page-title-main">Sequential manual transmission</span> Motor transmission

A sequential manual transmission, also known as a sequential gearbox, or a sequential transmission, is a type of non-synchronous manual transmission used mostly for motorcycles and racing cars. It produces faster shift times than traditional synchronized manual transmissions, and restricts the driver to selecting either the next or previous gear, in a successive order.

Hybrid vehicle drivetrains transmit power to the driving wheels for hybrid vehicles. A hybrid vehicle has multiple forms of motive power.

<span class="mw-page-title-main">McLaren MP4/9</span> Formula One racing car for the 1994 season

The McLaren MP4/9 was a Formula One car designed by Neil Oatley and used by the McLaren team in the 1994 Formula One World Championship. The number 7 car was driven by Finn Mika Häkkinen, in his first full season with the team, while the number 8 car was driven by Briton Martin Brundle, who had signed from Ligier. Frenchman Philippe Alliot deputised in the number 7 car at the Hungarian Grand Prix when Häkkinen was banned from driving in this race. For the 21st consecutive year, Marlboro was the team's title sponsor, with additional sponsorship from Hugo Boss, Shell and Goodyear. The MP4/9 was the first and only McLaren F1 car to utilise Peugeot engines.

The Zakspeed 861 was a Formula One car designed by Paul Brown for the Zakspeed team and was used in both the 1986 and 1987 seasons. In 1986 its drivers were Jonathan Palmer and Huub Rothengatter. The team did not employ a test driver as they could not afford one, despite sponsorship from German tobacco brand West. The lack of money also meant that the car's engine, Zakspeed's own 4 cylinder 1500/4 turbocharged power unit, which was rated at about 850 bhp for the season, was also short on power and development compared to those at the front of the grid. The team used Goodyear tyres.

This article gives an outline of Formula One engines, also called Formula One power units since the hybrid era starting in 2014. Since its inception in 1947, Formula One has used a variety of engine regulations. Formulae limiting engine capacity had been used in Grand Prix racing on a regular basis since after World War I. The engine formulae are divided according to era.

<span class="mw-page-title-main">Environmentalism in motorsport</span>

The issue of environmentalism in motorsport surrounds the whole of auto racing to reduce its carbon dioxide emissions contributing to global warming.

<span class="mw-page-title-main">BMW Sauber F1.08</span> Formula One Car for 2008 season

The BMW Sauber F1.08 was the Formula One racing car with which the BMW Sauber team competed in the 2008 Formula One World Championship. The chassis was designed by Willy Rampf, Walter Reidl, Christoph Zimmermann and Willem Toet with the powertrain being designed by Markus Duesmann.

<span class="mw-page-title-main">Red Bull RB5</span> Formula One racing car

The Red Bull RB5 is a Formula One racing car designed by the Red Bull Racing team for the 2009 Formula One season. It was driven by Sebastian Vettel, who drove for Red Bull's sister team Toro Rosso in the 2008 season, and Mark Webber. The car was launched on 9 February 2009 at the Circuito de Jerez in Spain.

<span class="mw-page-title-main">Force India VJM02</span> Racing automobile

The Force India VJM02 was Force India's Formula One car for the 2009 Formula One season. It was revealed in a low-key press event, after the car's first test at the Silverstone Circuit, on February 28, 2009, before a public test at the Circuito de Jerez in Spain the following day. The Northamptonshire-based team's car is decorated in the colours of the Indian flag, and was driven by the same drivers as in 2008 – Giancarlo Fisichella and Adrian Sutil.

<span class="mw-page-title-main">Flywheel energy storage</span> Method of storing energy

Flywheel energy storage (FES) works by accelerating a rotor (flywheel) to a very high speed and maintaining the energy in the system as rotational energy. When energy is extracted from the system, the flywheel's rotational speed is reduced as a consequence of the principle of conservation of energy; adding energy to the system correspondingly results in an increase in the speed of the flywheel.

<span class="mw-page-title-main">Drag reduction system</span> Driver adjustable bodywork

In motor racing, the drag reduction system (DRS) is a form of driver-adjustable bodywork aimed at reducing aerodynamic drag in order to increase top speed and promote overtaking. It is an adjustable rear wing of the car, which moves in response to driver commands. DRS often comes with conditions, such as the requirement in Formula 1 that the pursuing car must be within one second for DRS to be activated.

<span class="mw-page-title-main">Steve Zacchia</span> Swiss racing driver

Steve Zacchia is a Swiss racing driver, currently competing in the Intercontinental Le Mans Cup for Hope Racing.

<span class="mw-page-title-main">Marussia MR02</span> Formula One motor racing car

The Marussia MR02 is a Formula One racing car designed under the leadership of Marussia's Technical Director Pat Symonds. It made its competitive debut in the 2013 Formula One season where it was driven by debutant drivers Max Chilton and Jules Bianchi, who replaced Luiz Razia, the team's original choice for the seat. The car was launched at the Circuito de Jerez on 5 February, making the MR02 the first car that Marussia has completed in time to start winter testing. As of the 2024 Formula One season, the Marussia MR02 is the last F1 car to be powered by an engine designed by Cosworth.

<span class="mw-page-title-main">Toyota RV8 engine</span> Reciprocating internal combustion engine

The Toyota RV8 engine family is a series of race car engines designed, developed and produced by Toyota Racing Development. They come in 2.65-liter, 3.0-liter and 3.4-liter, turbocharged and naturally-aspirated, V8 racing engine versions. They are used in the CART series, IRL IndyCar Series, Formula Nippon, Super GT, and Le Mans Prototype sports car racing, from 1996 to 2015. The naturally-aspirated engine, formerly used in Formula Nippon and Super GT, is itself derived from the Toyota Indy V8 Indy car racing V8 engine.

<span class="mw-page-title-main">Mercedes V6 Hybrid Formula One engine</span> Reciprocating internal combustion engine

The Mercedes V6 Hybrid Formula Oneengine is a series of 1.6-liter, hybrid turbocharged V6 racing engines which features both a kinetic energy recovery system (MGU-K) and a heat energy recovery system (MGU-H), developed and produced by Mercedes-AMG High Performance Powertrains for use in Formula One. The engines were in use since the 2014 season by the Mercedes works team. Over years of development, engine power was increased from 840 horsepower at 15,000 rpm, to 1,030 horsepower at 15,000 rpm. Customer team engines were used by Williams, McLaren, Lotus, Manor Racing, Force India, Racing Point Force India, Racing Point and Aston Martin.

References

  1. Flybrid Systems LLP (2010-09-10). "Flybrid Systems". Flybrid Systems. Archived from the original on 2010-07-13. Retrieved 2010-09-17.
  2. "Torotrak.com". www77.torotrak.com. Archived from the original on June 29, 2010.
  3. "Torotrak, Xtrac & CVT pdf" (PDF). Archived from the original on 2012-03-03. Retrieved 2010-09-17.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  4. 1 2 "F1 KERS: Flybrid". Racecar Engineering. 2008-11-18. Retrieved 2014-06-15.
  5. "KERS failure caused Red Bull fire scare". Autosport. 17 July 2008. Retrieved 2008-07-22.
  6. "BMW mechanic escapes KERS scare". Autosport. 22 July 2008. Retrieved 2008-07-22.
  7. "Teams Comment on F1's Environmental Future". Fédération Internationale de l'Automobile. October 8, 2008. Archived from the original on December 28, 2008. Retrieved 2009-01-14.
  8. "2009 Formula One Technical Regulations" (PDF). Fédération Internationale de l'Automobile. December 22, 2006. Archived from the original (PDF) on June 25, 2008. Retrieved 2006-12-22.
  9. FIA management (December 22, 2006). "2009 FORMULA ONE TECHNICAL REGULATIONS" (PDF). Fédération Internationale de l'Automobile. Archived from the original (PDF) on June 25, 2008. Retrieved 2008-07-08.
  10. Whyatt, Chris (August 30, 2009). "Raikkonen wins exciting Spa duel". BBC. Retrieved 2009-08-30.
  11. "Kinetic Energy Recovery Systems (KERS)". Formula One. Archived from the original on 6 July 2010. Retrieved 2010-08-14.
  12. "Adjustable rear wings among confirmed 2011 changes". Formula 1. Archived from the original on 22 December 2011. Retrieved 30 April 2021.
  13. Benson, Andrew (23 June 2010). "Changes made to F1l". BBC. Retrieved 23 June 2010.
  14. "Team Lotus, Virgin, HRT F1 to Start 2011 Without KERS". Autoevolution. 2011-01-28. Retrieved 2011-06-01.
  15. "Audi unveils hybrid R18 e-tron quattro in Munich". Autosport . 29 February 2012. Retrieved 31 August 2018.
  16. "Formula 1 delays introduction of 'green' engines until 2014". BBC. 2011-06-29. Retrieved 2011-06-27.
  17. "Bosch Developing Modular KERS Systems for Range of Motorsport Applications". Green Car Congress. 2008-11-18. Retrieved 2010-04-27.
  18. http://www.carmondo.de/blog/2008/07/03/honda-und-bmw-mit-formel-1-hybriden/ (in German)
  19. "Peugeot Sport Hybrid". Racecar Engineering. 13 September 2008. Archived from the original on 13 January 2009. Retrieved 2008-09-13.
  20. Lawrence Butcher (2008-09-18). "F1 KERS; McLaren on track with KERS | People". Racecar Engineering. Archived from the original on 2008-09-22. Retrieved 2010-08-14.
  21. McLaren to work with Freescale on KERS November 12, 2008
  22. "Toyota Hybrid Race Car Wins Tokachi 24-Hour Race; In-Wheel Motors and Supercapacitors". Green Car Congress. 2007-07-17. Retrieved 2010-09-17.
  23. 918 RSR: Have Flywheel, Will Race January 10, 2011
  24. Kurt Ernst. Mazda's regenerative braking system switches batteries for capacitors. 2011
  25. "PSA Peugeot Citroën and Bosch developing hydraulic hybrid powertrain for passenger cars; 30% reduction in fuel consumption in NEDC, up to 45% urban; B-segment application in 2016". Green Car Congress.
  26. Nouvelle, L'Usine (2015-01-12). "Hybrid Air : pourquoi PSA se dégonfle - Innovations Auto". usinenouvelle.com/ (in French). Retrieved 2018-08-26.
  27. "Fiat Panda Hybrid: come funziona il Recupero di Energia" [Fiat Panda Hybrid: how it functions the recovery of energy] (in Italian). March 10, 2022. Retrieved November 13, 2022.
  28. "KTM beats F1 with secret KERS debut! | Feb 2009". Crash.Net. 2009-02-04. Retrieved 2010-08-14.
  29. "C-1". Lit Motors. Archived from the original on 2 November 2013. Retrieved 31 October 2013.
  30. EPA, US. "Hydraulic Hybrid Bicycle Research- Clean Automotive Technology - Transportation and Air Quality- US EPA". archive.epa.gov.
  31. Boost Your Bike, Science Friday, 2011-08-12, archived from the original on 2012-09-18, retrieved 2022-08-24
  32. "ACO Technical Regulations 2008 for Prototype "LM"P1 and "LM"P2 classes, page 3" (PDF). Automobile Club de l'Ouest (ACO). 20 December 2007. Archived from the original (PDF) on 25 June 2008. Retrieved 2008-01-20.
  33. Sam Collins (2008-09-13). "Peugeot Sport Hybrid | People". Racecar Engineering. Archived from the original on 2009-01-13. Retrieved 2010-08-14.
  34. "UK: GKN in deal to supply KERS flywheel tech on London buses". Just Auto. Archived from the original on 2019-08-06. Retrieved 2019-08-06.
  35. "GKN hybrid project lands major accolade". Shropshire Star. Archived from the original on 2015-12-08. Retrieved 2019-08-06.
  36. "PPM Technology". Parry People Movers. Archived from the original on 2 March 2013. Retrieved 17 April 2023.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.