How Wankel Rotary Engines Work

The Wankel motor uses a circular combustion process, and has a high power-to-weight ratio with few moving parts.

Combustion cycle

Rotary engines fire 3x for each rotation of the rotor. The intake, compression, combustion, and exhaust functions happen simultaneously.

Fuel injectors

Oil injector


With the chamber sealed, the fuel-air mixture is compressed, increasing the power and efficiency of the explosion.


As the rotor spins, a vacuum is created and the intake ports are uncovered, pulling fuel-air mixture into the housing.

Intake ports

Exhaust port


As the rotor spins, exhaust ports are uncovered, pushing exhaust and any unburnt fuel out of the housing.


Sparks ignite the fuel, pushing the rotor in a clock-wise direction. Each side of the rotor has a combustion pocket that provides a larger space for fuel expansion, allowing as much fuel as possible to be burnt.

Spark plugs

The bottom spark plug has a larger opening and ignites most of the fuel, while the top spark plug ignites fuel in the smaller end of the combustion pocket.

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Rotor & eccentric shaft

Because of constant combustion, most production vehicles only have one or two rotors (comparable in power to 3 or 6 cylinders in a piston engine).

Apex seals

Each corner of the rotor has an apex seal that is pressed against the housing.

Face and corner seals

retain oil around the eccentric shaft, and keep the fuel-air mixture in the combustion pocket.

Eccentric shaft

The eccentric shaft rotates 3x for every rotation of the rotor, and runs through the center of the engine, transmitting combustion energy to the drive shaft. Lobes are offset and positioned opposite each other on the shaft

Ring gear


The counterweight compensates for any imbalance in the rotors and eccentric shaft, reducing engine noise and vibration.

Stationary gear

The stationary gear is placed in the side plate of the housing and bolted to the outside. The teeth mesh with the ring gear of the rotor and force the rotor to spin around the eccentric shaft.


RPMs (Revolutions Per Minute) indicates how many times the eccentric shaft rotates 360°. Since the eccentric shaft spins 3x for every rotation of the rotor, at 3,000 RPMs, a rotor would spin 1,000 times.

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Coolant flow is directed first through the combustion side of the housing (the hottest surface), and then through the intake side to help maintain an even temperature throughout the motor.

Water pump

An impeller in the water pump pushes coolant in and out of the housing.


The radiator is a series of metal tubes and fins. Hot coolant enters and passes through the tubes. Air flowing through the radiator (over the fins) cools the coolant before it is pumped back into the housing.


The thermostat is closed until the engine reaches optimal running temperature, and then opens periodically to send coolant through the radiator to maintain a consistent temperature.

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Oil system

Motor oil helps lubricate, clean, protect, and cool parts of the engine.

Eccentric shaft

Oil is pumped through the hollow center of the eccentric shaft to help with cooling and bearing lubrication. Holes in the shaft allow oil to splash on the rotor and stationary gears, as well as the bearings within the side plates.

Oil injector

Injectors squirt oil into the rotor housing to lubricate the apex seals and housing.

Oil filter

The oil filter removes unwanted materials from the oil.

Metering pump

Separate from the oil pump, the metering pump controls how much oil is injected into the rotor housing; the higher the RPMs of the motor, the more oil that is injected.

Oil cooler

Before the oil is circulated through the eccentric shaft or injected onto the rotor, it passes through small radiators for cooling.

Oil pan

The oil pan is attached directly to the bottom of housing. In this location, the oil can help cool the housing.

Oil pump

An oil pump pulls oil from the pan and pushes it through the system.

The full model


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