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Wednesday, May 2, 2018

Atkinson Cycle Engine - YouTube
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The Atkinson-cycle engine is a type of internal combustion engine invented by James Atkinson in 1882. The Atkinson cycle is designed to provide efficiency at the expense of power density. A modern variation of this approach is used in some modern automobile engines. While originally seen exclusively in hybrid electric applications such as the Toyota Prius, some nonhybrid automobiles now feature engines that can run in the Atkinson cycle as a part-time operating regimen, giving good economy while running in Atkinson cycle, and conventional power density when running as a normal-cycle engine. Mazda Skyactiv models offering this capability include the Mazda 3 and MX-5.


Video Atkinson cycle



Design

Atkinson produced three different designs that had a short compression stroke and a longer expansion stroke. The first Atkinson-cycle engine, the differential engine, used opposed pistons. The second and most well-known design, was the cycle engine, which used an over-center arm to create four piston strokes in one crankshaft revolution. The reciprocating engine had the intake, compression, power, and exhaust strokes of the four-stroke cycle in a single turn of the crankshaft, and was designed to avoid infringing certain patents covering Otto-cycle engines. Atkinson's third and final engine, the utilite engine, operated much like any two-stroke engine. The common thread throughout Atkinson's designs is that the engines have an expansion stroke that is longer than the compression stroke, and by this method the engine achieves greater thermal efficiency than a traditional piston engine. Atkinson's engines were produced by the British Gas Engine Company and also licensed to other overseas manufacturers. Many modern engines now use unconventional valve timing to produce the effect of a shorter compression stroke/longer power stroke, Miller applied this technique to the four-stroke engine, so it is sometimes referred as the Atkinson/Miller cycle, US patent 2817322 dated Dec 24, 1957. In 1888, Charon filed a French patent and displayed an engine at the Paris Exhibition in 1889. The Charon gas engine (four- stroke) used a similar cycle to Miller, but without a supercharger. It is referred to as the "Charon cycle". Modern engine designers are realizing the potential fuel-efficiency improvements the Atkinson-type cycle can provide.


Maps Atkinson cycle



Atkinson "Differential Engine"

The first implementation of the Atkinson cycle was in 1882; unlike later versions, it was arranged as an opposed piston engine, the Atkinson differential engine. In this, a single crankshaft was connected to two opposed pistons through a toggle-jointed linkage that had a nonlinearity; for half a revolution, one piston remained almost stationary while the other approached it and returned, and then for the next half revolution, the second-mentioned piston was almost stationary while the first approached and returned. Thus, in each revolution, one piston provided a compression stroke and a power stroke, and then the other piston provided an exhaust stroke and a charging stroke. As the power piston remained withdrawn during exhaust and charging, it was practical to provide exhaust and charging using valves behind a port that was covered during the compression stroke and the power stroke, and so the valves did not need to resist high pressure and could be of the simpler sort used in many steam engines, or even reed valves.


Moteur à cycle Atkinson - YouTube
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Atkinson "Cycle Engine"

The next engine designed by Atkinson in 1887 was named the "Cycle Engine" This engine used poppet valves, a cam and an over-center arm to produce four piston strokes for every revolution of the crankshaft. The intake and compression strokes were significantly shorter than the expansion and exhaust strokes. The "Cycle" engines were produced and sold for several years by the British Engine Company. Atkinson also licensed production to other manufacturers. Sizes ranged from a few up to 100 horsepower.


Difference between Atkinson and Budack cycle | sportscarfreaks
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Atkinson "Utilite Engine"

Atkinson's third design was named the "Utilite Engine". Atkinson's "Cycle" engine was efficient, however its linkage was difficult to balance for high speed operation. Atkinson realized an improvement was needed to make his cycle more applicable as a higher-speed engine. The final engine produced by the British Gas Engine company was the Utilite Engine. With this design, Atkinson was able to eliminate the linkages and make a more conventional, well balanced, engine capable of operating at speeds up to 600 rpm and capable of producing power every revolution yet he preserved all of the efficiency of his "Cycle Engine" having a proportionally short compression stroke and a longer expansion stroke. The Utilite' operates much like a standard two-stroke except that the exhaust port is located at about the middle of the stroke. During the expansion / power stroke, a cam operated valve (which remains closed until the piston nears the end of the stroke) prevents pressure from escaping as the piston moves past the exhaust port. The exhaust valve is opened near the bottom of the stroke, it remains open as the piston heads back toward compression, letting fresh air charge the cylinder and exhaust to escape until the port is covered by the piston. After the exhaust port is covered the piston begins to compress the remaining air in the cylinder. A small piston fuel pump injects liquid during compression. The ignition source was likely a hot tube as in Atkinson's other engines. This design resulted in a two-stroke engine with a short compression and longer expansion stroke. The Utilite' Engine tested as even more efficient than Atkinson's previous "differential" and "cycle" designs. Very few Utilite Engines were produced, and none are known to survive. The British patent is from 1892, #2492. No US patent for the Utilite Engine is known.


CTL Atkinson cycle engine - YouTube
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Ideal thermodynamic cycle

The ideal Atkinson cycle consists of:

  • 1-2 Isentropic, or reversible, adiabatic compression
  • 2-3 Isochoric heating (Qp)
  • 3-4 Isobaric heating (Qp')
  • 4-5 Isentropic expansion
  • 5-6 Isochoric cooling (Qo)
  • 6-1 Isobaric cooling (Qo')

What is an Atkinson cycle engine? Autoweek explains
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Modern Atkinson-cycle engines

Recently, the term "Atkinson cycle" has been used to describe a modified Otto-cycle engine in which the intake valve is held open longer than normal to allow a reverse flow of intake air into the intake manifold, this simulated Atkinson cycle is most notably used in the widespread Toyota 1NZ-FXE engine. The effective compression ratio is reduced (for the time the air is escaping the cylinder freely rather than being compressed), but the expansion ratio is unchanged. This means the compression ratio is smaller than the expansion ratio. Heat gained from burning fuel increases the pressure, thereby forcing the piston to move, expanding the air volume beyond the volume when compression began. The goal of the modern Atkinson cycle is to make the pressure in the combustion chamber at the end of the power stroke equal to atmospheric pressure. When this occurs, all available energy has been obtained from the combustion process. For any given portion of air, the greater expansion ratio converts more energy from heat to useful mechanical energy--meaning the engine is more efficient.

The disadvantage of the four-stroke Atkinson-cycle engine versus the more common Otto-cycle engine is reduced power density. Due to a smaller portion of the compression stroke being devoted to compressing the intake air, an Atkinson-cycle engine does not take in as much air as would a similarly designed and sized Otto-cycle engine. Four-stroke engines of this type that use the same type of intake valve motion but with a turbocharger to make up for the loss of power density are known as Miller-cycle engines.


Ford Plug In Hybrid Animation - YouTube
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Rotary Atkinson-cycle engine

The Atkinson cycle can be used in a rotary engine. In this configuration, an increase in both power and efficiency can be achieved when compared to the Otto cycle. This type of engine retains the one power phase per revolution, together with the different compression and expansion volumes of the original Atkinson cycle. Exhaust gases are expelled from the engine by compressed-air scavenging. This modification of the Atkinson cycle allows the use of alternative fuels such as diesel and hydrogen. Disadvantages of this design include the requirement that rotor tips seal very tightly on the outer housing wall and the mechanical losses suffered through friction between rapidly oscillating parts of irregular shape. See external links below for more information.


mcensustainableenergy / Transportation Technologies
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Vehicles using Atkinson-cycle engines

While a modified Otto-cycle piston engine using the Atkinson cycle provides good fuel efficiency, it is at the expense of a lower power-per-displacement as compared to a traditional four-stroke engine. If demand for more power is intermittent, the power of the engine can be supplemented by an electric motor during times when more power is needed. This forms the basis of an Atkinson cycle-based hybrid electric drivetrain. These electric motors can be used independently of, or in combination with, the Atkinson-cycle engine, to provide the most efficient means of producing the desired power. This drive-train first entered production in late 1997 in the Japanese-market Toyota Prius.

As of April 2017, many production full hybrid-electric vehicles use Atkinson-cycle theories:

  • Chevrolet Volt
  • Chrysler Pacifica (front-wheel drive) plug-in hybrid model minivan
  • Ford C-Max (front-wheel drive / US market) hybrid and plug-in hybrid models
  • Ford Escape/Mercury Mariner/Mazda Tribute electric (front- and four-wheel drive) with a compression ratio of 12.4:1
  • Ford Fusion Hybrid/Mercury Milan Hybrid/Lincoln MKZ Hybrid electric (front-wheel drive) with a compression ratio of 12.3:1
  • Honda Accord Plug-in Hybrid
  • Honda Accord Hybrid (front-wheel drive)
  • Honda Clarity Plug-In Hybrid
  • Hyundai Sonata Hybrid (front-wheel drive)
  • Hyundai Elantra Atkinson-cycle models
  • Hyundai Grandeur hybrid (front-wheel drive)
  • Hyundai Ioniq hybrid, plug-in hybrid (front-wheel drive)
  • Infiniti M35h hybrid (rear-wheel drive)
  • Kia Niro hybrid (front-wheel drive)
  • Kia Optima Hybrid Kia K5 hybrid 500h (front-wheel drive) with a compression ratio of 13:1
  • Kia Cadenza Hybrid Kia K7 hybrid 700h (front-wheel drive)
  • Lexus CT 200h (front-wheel drive)
  • Lexus ES 300h (front-wheel drive)
  • Lexus GS 450h hybrid electric (rear-wheel drive) with a compression ratio of 13:1
  • Lexus RC F (rear-wheel drive)
  • Lexus GS F (rear-wheel drive)
  • Lexus HS 250h (front-wheel drive)
  • Lexus IS 200t (2016)
  • Lexus NX hybrid electric (four-wheel drive)
  • Lexus RX 450h hybrid electric (four-wheel drive)
  • Mazda Mazda6 (2013 for the 2014 model year)
  • Mercedes ML450 Hybrid (four-wheel drive) electric
  • Mercedes S400 Blue Hybrid (rear-wheel drive) electric
  • Mitsubishi Outlander PHEV (2018 for the 2019 model year, plug-in hybrid four-wheel drive)
  • Toyota Camry Hybrid electric (front-wheel drive) with a compression ratio of 12.5:1
  • Toyota Highlander Hybrid (2011 and newer)
  • Toyota Prius hybrid electric (front-wheel drive) with a (purely geometric) compression ratio of 13.0:1
  • Toyota Yaris Hybrid (front-wheel drive) with a compression ratio of 13.4:1
  • Toyota Auris Hybrid (front-wheel drive)
  • Toyota Tacoma V6 (beginning in 2015 for the 2016 model year)
  • Toyota RAV4 Hybrid (beginning in 2015 for the 2016 model year)
  • Toyota Sienna (2016 for the 2017 model year)

New Atkinson Cycle Toyota Engine - YouTube
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Summary of the patent

The 1887 patent (US 367496) describes the mechanical linkages necessary to obtain all four strokes of the four-stroke cycle for a gas engine within one revolution of the crankshaft. There is also a reference to an 1886 Atkinson patent (US 336505), which describes an opposed-piston gas engine. The British patent for the "Utilite'" is from 1892 (#2492).


Toyota unveils new Atkinson-cycle engines - Photos
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See also

  • History of the internal combustion engine
  • Variable valve timing
  • Variable valve lift

2016 Tacoma | Atkinson 3.5L | Toyota of Bozeman - YouTube
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References


Antiques Atlas - Atkinson Cycle Model Engine
src: images.antiquesatlas.com


External links

  • Comparison of Prime Movers Suitable for USMC Expeditionary Power Sources, Oak Ridge National Laboratory
  • Libralato Engines - developing a rotary Atkinson cycle engine
  • Rotary Atkinson cycle engine - gives details of this engine as well as comparisons with conventional and Wankel engines
  • The Prius's Not So Secret Gas-Mileage Secrets - how the Prius uses the Atkinson cycle to get better results than an Otto cycle engine

Source of article : Wikipedia