A Simulation Guide for Engineers by Siemens, Navier-Stokes in 12 Steps & Learning How to Learn
🧠 Education is a progressive discovery of our own ignorance.
💦 The Evolution of Industrial Simulation - Robin Bornoff
💦 CFD Python: 12 steps to Navier-Stokes
CFD Python, a.k.a. the 12 steps to Navier-Stokes, is a practical module for learning the foundations of Computational Fluid Dynamics (CFD) by coding solutions to the basic partial differential equations that describe the physics of fluid flow. The module was part of a course taught by Prof. Lorena Barba between 2009 and 2013 in the Mechanical Engineering department at Boston University (Prof. Barba since moved to the George Washington University).
🧠 Learning How to Learn
💻 INTRODUCTORY LECTURES on TURBULENCE
💻 Engineering Tool of the Week – OpenSBLI
OpenSBLI is a Python-based modelling framework that is capable of expanding a set of differential equations written in Einstein notation, and automatically generating C code that performs the finite difference approximation to obtain a solution. This C code is then targetted with the OPS library towards specific hardware backends, such as MPI/OpenMP for execution on CPUs, and CUDA/OpenCL for execution on GPUs.
📚Book of the Week
Practical Finite Element Analysis for Mechanical Engineers
"Practical Finite Element Analysis for Mechanical Engineers" is a book about the practical aspect of finite element analysis for structural engineers.
The objective is to offer the best practical methods and guidelines for the development and validation of finite element models.
It gives to the structural engineers the keys to developing accurate and reliable finite element models by avoiding the most frequent errors. It contains around 100 examples which illustrate the different modelling techniques.
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Keep engineering your mind! 🧠
Jousef