Atkinson cycle

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Thermodynamic cycles
Atkinson cycle Brayton/Joule cycle Carnot cycle Combined cycle Crower cycle Diesel cycle Ericsson cycle Hirn cycle Kalina cycle Lenoir Cycle Linde-Hampson cycle Miller cycle Mixed/Dual Cycle Otto cycle Porter/Brayton cycle Rankine cycle Scuderi cycle Stirling cycle Two-stroke cycle Wankel cycle
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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, and is beginning to see applications in modern hybrid electric applications.

Contents 1 Design 2 Four stroke Atkinson cycle engine 3 Rotary Atkinson cycle engine 4 Vehicles using Atkinson cycle engines 5 External links

[edit] Design

The original Atkinson cycle engine allows the intake, compression, power, and exhaust strokes of the four-stroke cycle to occur in a single turn of the crankshaft, and was designed to bypass patents covering the existing Otto cycle engines. Owing to the extra linkage in the Atkinson engine, the expansion ratio may differ from the compression ratio. By adjusting the linkage to allow a power stroke longer than the compression stroke, the engine can achieve greater efficiency than with the Otto cycle engine. While Atkinson's engine design is no more than a historical curiosity, the Atkinson cycle, where the power stroke is longer than the compression stroke, is beginning to become common due to the increase in fuel economy it provides.

[edit] Four stroke Atkinson cycle engine

The Atkinson cycle may also refer to a four stroke piston 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 reduces the effective compression ratio and, when combined with an increased stroke and/or reduced combustion chamber volume, allows the expansion ratio to exceed the compression ratio while retaining a normal compression pressure. This is desirable for improved fuel economy because the compression ratio in a spark ignition engine is limited by the octane rating of the fuel used. A high expansion ratio delivers a longer power stroke, allowing more expansion of the combustion gases and reducing the amount of heat wasted in the exhaust. This makes for a more efficient engine.

The disadvantage of the four-stroke Atkinson cycle engine versus the more common Otto cycle engine is reduced power density. Because a smaller portion of the intake stroke is devoted to compressing the intake air, an Atkinson cycle engine does not intake as much air as would a similarly-designed and sized Otto cycle engine.

Four stroke engines of this type with this same type of intake valve motion but with forced induction (supercharging) are known as Miller cycle engines.

[edit] 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 scavenge. This modification of the Atkinson cycle allows for the use of alternative fuels like Diesel and hydrogen. See External Links for more information.

[edit] Vehicles using Atkinson cycle engines

While a modifed four stroke engine using the Atkinson cycle provides good fuel economy, it is at the expense of a lower power-per-displacement than a traditional four stroke. If the engine is only run at high powers intermittently, then the power of the engine can supplemented by an electric motor during times when high 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.

Multiple production vehicles use Atkinson cycle engines:

Toyota Prius hybrid electric (front-wheel-drive)

Ford Escape hybrid electric (front- and four-wheel drive)

Toyota Camry Hybrid hybrid electric (front-wheel drive)

[edit] External links

• Animation of Atkinson Cycle Engine Note that this animation shows the true Atkinson engine, which uses a complex linkage that allows different stroke lengths for intake/compression and power/exhaust. However, the illustration shows the engine with the linkage laid out to generate 4 equal strokes. To alter the ratio of the strokes, the rightmost pivot point (the one that is attaching the horizontal green link to the frame) should be moved downwards along the frame. This will allow more angular movement as the link rotates up, giving a longer piston stroke for power and exhaust, and less angular movement as the link rotates down, giving a shorter piston stroke for intake and compression. In fact, a sliding pivot point at that location would allow the engine to dynamically change the stroke ratios.
• Modified Atkinson Cycle Engine: alternative variable valve timing strategy increases low speed torque obtainable from Atkinson Cycle Engine.
• COMPARISON OF PRIME MOVERS SUITABLE FOR USMC EXPEDITIONARY POWER SOURCES, Oak Ridge National Laboratory
• Rotary Atkinson cycle engine A web page giving details of this engine and comparisons with conventional and Wankel engines.