/HydroChrono

A hydrodynamics extension for Project Chrono, enabling simulations of wave energy converters, floating offshore wind turbines, and more.

Primary LanguageC++

HydroChrono

HydroChrono is an emerging hydrodynamics simulation tool designed to model complex ocean systems. Seamlessly integrated with the Project Chrono physics engine, it offers a powerful C++ API for a wide range of simulations.

Capabilities

HydroChrono extends the versatility of Project Chrono to hydrodynamic applications, enabling you to simulate multibody wave energy converters (WECs) and floating offshore wind turbines (FOWTs) with Chrono::FEA for flexible bodies.

Get Started

Visit the HydroChrono website for information about the underlying theory, build instructions, and usage details. Currently, HydroChrono is available as a source build, offering customization and optimization opportunities. A binary distribution with Python wrapper is in development and coming soon.

Limitations

  • Currently only supports first-order linear potential flow forces.
  • Hydrodynamic forces are currently limited to rigid bodies.

Vision and Future Goals

  • Expand hydrodynamics to incorporate nonlinear and 2nd order forces.
  • Integrate advanced simulation features using Project Chrono's DEM and FEA modules.
  • Support seamless transitioning from potential flow to CFD and SPH for detailed FSI analysis.
  • Develop a Python API to broaden accessibility and ease of use.
  • Foster and support open-source collaboration in the research community.