Crank-Angle-Resolved Engine Model

This example shows a 2.0-liter, four-cylinder, naturally aspirated spark-ignition engine which computes crank-angle-resolved instantaneous torque.

To start the engine from the rest, first a starter motor starts rotating the crank wheel, followed by fuel injection and spark ignition to start firing. When combustion produces more torque at the crank than the starter motor torque, one-way clutch (also called overruning clutch) in the starter prevents the transmission of torque from crank to starter. Once the crank obtains enough rotational momentum from succsessive combustion events, starter motor is turned off and engine continues to operate by injection and spark.

The engine torque can be controlled by varying throttle, air-fuel ratio, and spark timing.


Engine Subsystem

Simulation Results