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Link to original content: http://en.wikipedia.org/wiki/Camless
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Camless piston engine

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A camless or free-valve piston engine is an engine that has poppet valves operated by means of electromagnetic, hydraulic, or pneumatic[1] actuators instead of conventional cams. Actuators can be used to both open and close valves, or to open valves closed by springs or other means.

Camshafts normally have one lobe per valve, with a fixed valve duration and lift. Although many modern engines use camshaft phasing, adjusting the lift and valve duration in a working engine is more difficult. Some manufacturers use systems with more than one cam lobe, but this is still a compromise as only a few profiles can be in operation at once. This is not the case with the camless engine, where lift and valve timing can be adjusted freely from valve to valve and from cycle to cycle. It also allows multiple lift events per cycle and, indeed, no events per cycle—switching off the cylinder entirely.

Camless development

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Camless valve trains have long been investigated by several companies, including Renault, BMW, Fiat, Valeo, General Motors, Ricardo, Lotus Engineering who developed electro-hydraulic valve actuation in the late 1980s as a spinoff of their active suspension program (both utilised similar electro-hydraulic actuation and control), Ford, Jiangsu Gongda Power Technologies, and Koenigsegg's sister company FreeValve.[2][3][4][5][6] Some of these systems are commercially available, although not yet[as of?] in engines in production road vehicles. In the Spring of 2015, Christian von Koenigsegg told reporters that the technology pursued by his company is "getting ready for fruition", but said nothing specific about his company's timetable.[7][8]

In November 2016, Chinese automobile manufacturer Qoros Auto displayed the Qoros 3 hatchback at the 2016 Guangzhou Motor Show, which showcased a new Qoros "Qamfree" engine. The engine's Swedish designer FreeValve claims that the 1.6-litre (98 cu in) turbocharged engine will produce 170 kW (230 hp) and 320 N⋅m (240 lb⋅ft) of torque. They also claim that, compared to a similar traditional engine, it offers a 50% reduction in size (including a 50-millimetre-lower (2.0 in) height), 30% reduction in weight, 30% improvement in power and torque, 30% improvement in fuel economy, and a 50% reduction in emissions.[9] Christian von Koenigsegg claims in a video that the Qamfree engine with the PHEA camless technology is based on an existing Qoros engine that was "...developed in Germany and Austria five, six years ago...".[10]

Christian von Koenigsegg also claims that the PHEA camless technology allows the elimination of the pre-catalytic converter, because the standard catalytic converter can be brought up to temperature quickly by manipulating the exhaust cycle.[10]

Camless engines in marine and power stations

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Advantages

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Because camless engines have no camshaft, they may have fewer moving parts. In these systems, the camshaft follower, rocker arms, and/or pushrods have been replaced by an electro-hydraulic actuator system which uses the existing oil pumps, thus reducing development risks of the new system by employing existing technology.[11] Direction changing on older B&W MC engines was engaged by physically changing the direction of the cam roller, whereas with the new camless engine, it is controlled by a computer. This eliminates the risk of mechanical failures that could damage the engine if there was a malfunction while changing directions. Additionally, because there is no chain connection between the crankshaft and the camshaft, the engine is lighter with fewer points of failure. The absence of a camshaft also means that the parasitic load on the engine is lower, which is particularly useful in large marine engines, as it can equate to a large amount of power savings. With a camless engine, fuel injection and exhaust timing are directly controlled by an engine control unit and can be constantly changed and adjusted without stopping the engine. This allows for the engine to run at a lower RPM, a feature useful in ships as it allows better low speed maneuvering while docking. Additionally, when a ship is maneuvering, the computer controlled fuel injection and valve timing allows for faster RPM control, hence faster stopping in emergency situations.

Solenoid valves are used to control valve activation that is electronically operated. These are used for controlling liquid or gas flow and are most commonly used in fluidics as control elements. They are multifunctional in a way to release, shut off, mix, or distribute fluids with high reliability and fast processing. The market for solenoid valves is growing with the imperative growth in all the regions. Increasing application areas year on year and advancement in technology and developed fluid automation technologies, all are driving the market on a global scale.

Technical limitations

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Conventional mechanical camshaft actuation is capable of generating extremely high forces which, combined with very high stiffness/low mechanical compliance of a conventional modern valve train layout, are used to very accurately and consistently control the position the engine valves. This enables very high levels of valve acceleration and lift and also very small valve-to-valve and valve-to-piston clearances to be used in combination with very high engine speeds. For example, prior to the FIA restrictions, Formula 1 engines ran at speeds of over 20,000 RPM and power outputs of over 330bhp/litre normally aspirated using a conventional camshaft and mechanical valve actuation; it is extremely unlikely that this high engine speed and output can be achieved with camless valve actuation.[citation needed] At 20,000 RPM, the valves open and close 166 times per second.

Emissions

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Camless engines are able to produce fewer emissions than their equivalent camshaft counterparts because they are able to more precisely control the combustion procedure, allowing for more complete combustion of all hydrocarbons. The computer is able to sense when not all of the fuel is being consumed and immediately relax valve timings to supply less fuel to a cylinder. The ECU can constantly adjust valve timing, height, and fuel/air mixtures to optimize efficiency for a given RPM/torque load. It can sense when there is a high amount of NOx and SOx emission and change the timing to make the exhaust gas hotter or cooler. Since the engine is run electronically and not mechanically, camless engines can be updated to meet new emission regulations without mechanical modifications.

Fuel injection

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Camless engines can further reduce NOx emissions with the use of fuel staging. Instead of simply injecting a constant stream of fuel, fuel staging injects the fuel at the optimal time for the most complete combustion. Fuel injection can shut off when there is sufficient pressure and add more fuel when there is less pressure, allowing the engines to run closer to a perfect diesel cycle. This allows the engine to run as efficiently as the environment and heat capacity of the metal will allow.

Long-term effects

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Because these new engines can diagnose themselves and run efficiently without an operator changing settings, these engines require a smaller crew to maintain them at sea. This crew reduction equates to cheaper shipping and more global trade.[12]

Camless engines in cars

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The British company Camcon Technology[13] is[as of?] developing a camless engine for passenger vehicles based on their proprietary Intelligent Valve Actuation (IVA) system. Camcon has collaborated with Jaguar Land Rover to fit IVA onto an Ingenium 2.0-litre 4-cylinder petrol engine, and they jointly published results at the 2017 Aachen Colloquium.[14] Camcon also discussed features and benefits in an article and video that was published in Autocar magazine.[15]

The Swedish company Freevalve AB (formerly Cargine), a sister company to Koenigsegg Automotive AB, is[as of?] developing a camless system on an existing SAAB car engine.[16][17][18][19]

In April 2016, the Chinese car manufacturer Qoros presented a concept car incorporating Freevalve technology.[20]

In March 2020, Koenigsegg Automotive AB announced its first four-seater car, the Gemera, which is powered by a sequentially turbocharged 2.0-liter inline-three engine in conjunction with three electric motors. Two of those electric motors, each of which makes 600 bhp (450 kW), are on the rear wheels. The third motor is attached to the engine crankshaft and makes 400 bhp (300 kW). Working with the motor to propel the front wheels is what Koenigsegg calls the Tiny Friendly Giant (TFG) engine. It is rated at 600 bhp and uses the camless Freevalve technology.[21]

See also

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References

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  1. ^ "1.6-liter 'camless' engine delivers 230 hp in Qoros 3".
  2. ^ US 6871618, Serge Masse, "Valve actuating device, and method for controlling same", published 2005-03-29, assigned to Renault Sport 
  3. ^ "Valeo tests camless system for gas engines; supplier hopes to produce fuel-saving technology by '08: AutoWeek Magazine". Autoweek.com. 2009-02-06. Archived from the original on 2011-05-22. Retrieved 2009-10-02.
  4. ^ "Lotus Active Valve Train Research System". Grouplotus.com. Archived from the original on 2008-08-20. Retrieved 2009-10-02.
  5. ^ "Cargine". Cargine. Archived from the original on 2009-07-17. Retrieved 2009-10-02.
  6. ^ Lou, Zheng David; Deng, Qiangquan; Wen, Shao; Zhang, Yunhai; Yu, Mengjin; Sun, Ming; Zhu, Guoming (2013). "Progress in Camless Variable Valve Actuation with Two-Spring Pendulum and Electrohydraulic Latching". SAE International Journal of Engines. 6: 319–326. doi:10.4271/2013-01-0590.
  7. ^ Noah Joseph. "Koenigsegg planning four-door model, camless engine". Autoblog. Retrieved 2017-06-24.
  8. ^ "Get ready for the 4-door Koenigsegg". Top Gear. 2015-03-04. Archived from the original on 2015-06-26. Retrieved 2017-06-24.
  9. ^ "Koenigsegg camless engine wins PopSci award". Msn.com. 2016-10-30. Retrieved 2017-06-24.
  10. ^ a b Freevalve Update Camless Engine - /INSIDE KOENIGSEGG. The Drive. 2016-11-09. Archived from the original on 2021-12-21. Retrieved 2017-06-24 – via YouTube.
  11. ^ "Camless two stroke main propulsion engine". MAN B&W Diesel Engines (PDF). 2003. Archived from the original (PDF) on 2016-04-22.
  12. ^ "Intelligent Engines – The New Generation Machines". Marine Insight. 2019-03-28.
  13. ^ "Camcon Auto Ltd, reducing CO2 and NOX emissions from vehicles through innovative actuators".
  14. ^ Roger Stone; David Kelly; John Geddes; Sam Jenkinson (2017). Intelligent Valve Actuation – a Radical New Electro-Magnetic Poppet Valve Arrangement (PDF). 26th Aachen Colloquium Automobile and Engine Technology.
  15. ^ Cropley, Steve (2017-05-24). "New engine valve tech gives petrols the efficiency of diesels". Autocar.
  16. ^ Kurt Ernst (2013-02-20). "Inside Koenigsegg Looks At Future Engine Technology: Video". Motorauthority.com. Retrieved 2017-06-24.
  17. ^ Travis Okulski (26 February 2014). "What It's Like To Ride In A Car With The Camless Engine Of The Future". Jalopnik. Retrieved 5 June 2016.
  18. ^ Gundersen, Øyvind. "Free Valve Technology". KTH Industrial Engineering and Management. Archived from the original on 2017-02-25.
  19. ^ Koenigsegg describes Freevalve - camless engine. Drivers Magazine. 2016-01-09. Archived from the original on 2021-12-21 – via YouTube.
  20. ^ "Freevalve technology unveiled at Beijing Motor Show in Qoros Qamfree concept car". Koenigsegg. 26 April 2016. Archived from the original on 2016-06-11. Retrieved 2016-06-11.
  21. ^ "Tiny friendly giant engine". Koenigsegg. Archived from the original on 2020-03-04. Retrieved 2020-03-04.
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