2-stroke power valve system

2-stroke power valve system

The 2-stroke power valve system is an improvement to a conventional two-stroke engine that gives a high power output over a wider RPM range.

Operation of a two-stroke engine

A "stroke" is the action of a piston travelling the full length of its cylinder. In a two-stroke power valve system, one of the two strokes combines the intake stroke and the compression stroke, while the other stroke combines the combustion stroke and the exhaust stroke.

As the piston travels upward in the cylinder, it creates low pressure area in the crankcase; this draws fresh air and atomized fuel from the carburetor through a hole in the cylinder wall or directly into the crankcase. As the piston continues travelling upward, transfer ports and the exhaust ports are closed off, thus trapping the combustible mixture in the combustion chamber. As the piston reaches the top of the cylinder, the mixture in the cylinder is compressed to the point of ignition.

The second stroke begins once ignition has taken place. The power stroke begins after the air-fuel mixture is ignited. The burnt fuel creates pressure in the cylinder above the piston and forces it downward. As the piston passes the midpoint of the downstroke, the exhaust port to the side of the cylinder is uncovered and initiates the flow of burned fuel out into the expansion chamber or muffler through the manifold.

As the piston moves downward,where the air-fuel mixture remains from the previous intake-compression stroke. Shortly after the exhaust port is uncovered by the downward travel of the piston, the transfer ports begin to be uncovered. The transfer ports act as a passage through which the air-fuel mixture moves from the crankcase into the cylinder above the piston. Once the piston reaches the bottom of the stroke, the second cycle is completed and the process is repeated.

Engineering design improvements

The only moving parts inside a two-stroke engine are the crankshaft, the connecting rod and the piston. This means two-strokes are very simple engines. Because there is a combustion-stroke whenever the piston travels downward, they are capable of producing tremendous power. It is the same simplicity in design, however, that makes a two-stroke engine less fuel-efficient. At the bottom of the power stroke, the transfer ports, which deliver fresh fuel, are open at the same time as the exhaust port. This allows a significant amount of fresh fuel to run straight through the engine without ever being available for power production. Properly designed exhaust systems help minimize the amount of raw fuel loss in the exhaust process, but a two-stroke engine will always waste some fuel.

Many producers of two-stroke performance bikes fit them with the exhaust valve systems. A valve acts to vary the height(and width) of the exhaust port. Fixed height exhaust ports have problems with only producing usable power in a narrow rev range, this has a detrimental effect on fuel consumption and emissions.

In a race bike, this is not a problem as the engine will be operating at high RPM almost all the time. However, in a road/commuter bike, this presents a problem. To give more low RPM power, as well as enable the engine to be able to produce a lot of high RPM power, a power valve system is used.

All power valve systems vary the duration of the exhaust port open time, which gives the engine usable low end power combined with excellent top end power.Manufacturers have also included sub exhaust chambers that extend the 'tuned length' of the expansion chamber.

Power valve actuation can be by mechanical(RPM dependent) or electric(servo motor) means increasingly with electronic control. Electronic control offers a greater degree of accuracy as well as being able to vary the opening of the valve and be tuned to conditions.

uzuki AETC and Super AETC

AETC and Super AETC Suzuki engines, Automatic Exhaust Timing Control: The two-blade version was fitted to the VJ21 RGV250, and the three-blade version, to the VJ22 RGV250 and Suzuki RG150.

With the AETC system, the power-valve systems are normally partially closed at low RPM; when closed, it enables the engine to make more power. Up to a certain point, however, power drops off as the engine is unable to expel enough gases out of the exhaust. When the power-valve is opened, it allows more gases to flow out of the exhaust port. This system is recognizable by a small box above the exhaust outlet; the power-valves are situated in this box. Depending on the valve, they may be made of two (older version) or three (newer version) separate blades.

YPVS

YPVS Yamaha engines, Yamaha Power Valve System: Yamaha engineers realised that by altering the height of the exhaust port they could effectively change the engine power delivery thereby having (almost) the best power across the entire rev range. so it was that the YPVS was born. The valve is of a cylindrical design running across the top of the exhaust port, it is turned using a servo motor controlled from a computer box taking information from the cdi (and other locations). The valve is a sort of oval shape. This changes the size of the exhaust port at different engine speeds maximising the available power at all rev ranges. It was fitted to all of the latter models of the RZ/RD two-stroke road bikes (125, 250 350 and 500 cc),their TZR range, as well as most of the YZ series of motocross bikes (The YPVS is only found on the liquid cooled bikes not air cooled versions). Yamaha have also used a guillotine version in some of their later models such as the TZR250R SPR model.

Yamaha was actually the first company to produce consistent results with their YPVS in their race bikes. The 1977 OW35K was the first race bike to incorporate the power valve system and it won the Finnish GP in 1977. The Kadenacy effect was harnessed and controlled to a point that gave Yamaha great advantage over all the other manufacturers throughout the late 70's and into the mid 80's. The first street bikes with YPVS were the RZ/RD350 YPVS,(LC2) and RZ 500 GP Replica in 1983-84.

Honda V-TACS

The "V-TACS system" works differently from the "AETC system" and it will only work when it is used in conjunction with a tuned muffler. Tuned mufflers/expansion chambers increase power but only at the RPM they are designed for and can actually cause a power loss outside their tuned RPM. "V-TACS system" takes advantage of using an expansion chamber without losing power outside the expansion chamber's tuned RPM. Within the head and cylinder of the engine, there is a chamber that is sealed by a valve. This sealed chamber is vented onto the exhaust port when the valve is open. At low RPM this valve is open, this has the effect of increasing the exhaust manifold volume and negating the power loss that would normally be apparent at low RPM with an expansion chamber. At mid RPM the valve is closed, this enables the expansion chamber to work. It is identified by the head and cylinder, being much larger than normal for its displacement, the cylinder is also cast with the wording VTACS on it.

V-TACS was a foot-operated power valve system made by Honda on some of its small two-stroke bikes and scooters, like the Honda FC50.

Honda RC-Valve

The Honda Remote Control valve is designed and works in principle like the "AETC system." A small computer monitors engine RPM and opens and closes a 2 blade exhaust valve controlled by an electric servo. Honda equipped many two-stroke motorcycles such as the NSR125 and NSR250 models with RC - Valve powerplants.

Kawasaki KIPS

Kawasaki uses a power-valve system called KIPS (Kawasaki Integrated Powervalve System) on their two-stroke bikes.

External links

* [http://powervalve.tekutaro.com An RGV250 Powervalve]


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