Ricardo Wave Tutorial — __link__

Before drawing pipes, you must tell the software what is flowing through them.

| Component | Description | |-----------|-------------| | | Represents pipes, runners, or valves with flow area and friction. | | Plenum | A volume element (e.g., intake manifold, surge tank) for pressure and temperature accumulation. | | Cylinder | Includes geometry, piston motion, heat transfer, and combustion model. | | Valve Ports | Simulates lift curves, discharge coefficients, and timing events. | | System Boundaries | Ambient conditions (pressure, temperature, gas composition). | ricardo wave tutorial

Drag a (often labeled Boundary ) onto the canvas. Set the type to "Stagnation Pressure." Set pressure to 1.01325 bar and temperature to 298 K . This is your ambient air. Before drawing pipes, you must tell the software

A Ricardo Wave tutorial provides a structured introduction to 1D engine simulation. By following the build → set → run → analyze workflow, new users can rapidly create functional engine models, understand gas dynamics, and predict performance. Mastery of the tutorial lays the foundation for advanced powertrain simulation, including hybrid and electrified thermal management. | | Cylinder | Includes geometry, piston motion,

: Configure the injector by setting the fuel-air ratio and injection timing. You can also create custom fuel blends build fuel command in the command prompt. 4. Running the Simulation and Analyzing Results

: Input a Mean Effective Pressure (FMEP) or use a standard friction model to account for mechanical losses. 5. Running & Post-Processing

This tutorial will take you from zero to a running single-cylinder engine model. We will cover the architecture, sub-volume theory, discretization, and finally, running your first simulation.