Open WaveBuild and set your general parameters, such as the unit system (typically SI) and simulation duration (e.g., 30 cycles).
Set initial pressures (default 1 bar) and temperatures (default 300 K) for the intake and exhaust boundaries.
Enter the bore, stroke, and clearance height. You can use variables for parameters like the compression ratio to allow for easier optimization later. ricardo wave tutorial
When a duct connects to a cylinder, a valve object is automatically created. You must define the lift profile and flow coefficients for both intake and exhaust valves.
After building the model, initiate the solver. Once the simulation completes, use to view your results. Key outputs to review include: Open WaveBuild and set your general parameters, such
Ambients, cylinders, ducts, injectors, and throttles. Mechanical Elements: Turbo shafts and engine blocks. Control Elements: Sensors and actuators for advanced logic.
Efficiency of fuel usage. Volumetric Efficiency: How well the engine "breathes". You can use variables for parameters like the
Use the Woschni correlation (the default model) to simulate thermal distribution across the cylinder head, piston, and liner.
The central workspace where you drag and drop engine components. Elements Library: Contains all building blocks, including: