Name: Dr. Raj K. Saini
Type: User
Company: IIT Delhi, IIT Bombay, IIT Madras
Bio: CFD Analyst,Consultant,Chemical Engineer, Multiphase flow, Modelling, Simulation, Energy conservation
Twitter: rajkmsaini
Location: New Delhi
Dr. Raj K. Saini's Projects
OpenFoam® motorBike case with adaptive volume & surface mesh refinement based on curl(U) or grad(p)
This project implements a sink term applicable to the momentum conservation equation of the multiphase OpenFOAM solvers (interFoam, interIsoFoam), which attenuates velocities in the air phase.
Adaptive mesh refinement for mesh motion solvers including overset mesh.
Supersonic flow over a flat plate: numerical solution by solving the complete Navier-Stokes equations
The Azure HPC On-Demand Platform provides an HPC Cluster Ready solution
Introduces basic C++ concepts to beginner users of the OpenFOAM open-source CFD libraries.
The example codes discussed in the course are available here.
Load-balanced adaptive mesh refinement libraries from blastFoam ported to ESI OpenFOAM
A CFD solver for multi-component compressible flow with application to high-explosive detonation, explosive safety and air blast
OpenFOAM-based solvers, libraries, and test cases for simulating boiling flows.
C++ stuff for OpenFoamers YouTube
preCICE-adapter for the CSM code CalculiX
interThermalPhaseChangeFoam - CFD simulation platform for liquid-vapor thermal phase change flows
Conjugate Gradient related code for "Solver-in-the-Loop: Learning from Differentiable Physics to Interact with Iterative PDE-Solvers"
Introductory Python notes from the Chemical Engineering Department at the University of Utah
CFD techniques to solve problems
This is the source code for our paper "Towards high-accuracy deep learning inference of compressible turbulent flows over aerofoils"
Here I will share solvers I customized for different projects
This repository contains the implementation of an OpenFOAM model for the case of flow old underground river with a roof supported by columns (inspired by a few running under Buenos Aires). The case implements offset cyclicAMI patches to simulate only a portion of the tunnel, allowing to quickly reach steady-state conditions.
Parallelizing DRL for Active Flow control
A framework for fluid flow (Reynolds-averaged Navier Stokes) predictions with deep learning
testing nbinteract
Code repository for "Learned Turbulence Modelling with Differentiable Fluid Solvers"
This OpenFOAM case simulates a 3" disk dropped from a 30 cm height, into a water tank of 15x15 cm2. It uses a moving mesh technique (via dynamicMotionSolverFvMesh), instead of overset grids, reducing the computational cost significatively.
Guaranteed Conservation of Momentum for Learning Particle-based Fluid Dynamics (NeurIPS '22)
My custom configurations for docker ubuntu
Doxygen generated documentation for OpenFOAM-dev