Computational Fluid Dynamics (CFD) is a specialized area within fluid mechanics that employs numerical methods and algorithms to simulate the behavior of fluids. It enables engineers and scientists to model and analyze complex flow phenomena, such as air flow around an aircraft wing, water currents in rivers, or heat transfer in industrial equipment. CFD tools provide detailed insights into fluid behavior under various conditions, allowing for optimization of designs, prediction of performance, and troubleshooting of issues in many fields including aerospace, automotive, energy, and environmental engineering. By solving the governing equations of fluid motion (Navier-Stokes equations), CFD can predict velocity, pressure, temperature, and other important variables throughout the domain of interest.
10101 (Ten-Ten-One): Self-custodial derivative trading at your fingertips.
An algorithmic trading platform written in rust. Focused on backtesting, charting, live trading. With an emphasis for semi-automated strategies. fund-forge is built to allow simple abstractions for common strategy functionality: trade multiple symbols, with multiple indicators and data streams.
CFDs on Bitcoin.
CFD solver based on the SIMPLE algorithm using a collocated grid mesh, written in Rust
Computational fluid dynamics library written in Rust
collection of RUST structures and functions useful for chemical kinetics, chemical thermodynamics, combustion, heat and mass transfer, shock tubes and so on and so far. Work in progress. Advices and contributions will be appreciated
Automated mesher for turbomachinery applications
ORC is a computational fluid dynamics solver written entirely in Rust. ORC can simulate an arbitrary mesh and a wide range of numerical schemes. It's currently only laminar and steady, but timestepping and turbulence models will soon be added.
Eulerian Fluid Simulation in Rust and WebAssembly
This project implements panel methods for simulating 2D potential flow around airfoils, written in Rust.
Artificial Intelligence for Aerodynamic Evaluation of Helicopter Add-Ons