An Introduction to SPH, Generative Design Deep Dive, Free CFD Lectures!
🧠 Education is a progressive discovery of our own ignorance.
💦 The Future of Engineering Design with ToffeeX- Antonio Di Caterino | Deep Dive Session 7
🔵 Particleworks Europe || CONFERENCE 2024
Join #Particleworks and hear how industry leaders are leveraging Particle Simulation for...
- Reducer Lubrication and Cooling (Valeo)
- Sealing in Turbomachinery (MAN Energy Solutions)
- Tool for CNC machining (CERATIZIT)
📍 Frankfurt, Germany 🇩🇪
📅 25-26 Sep 2024
🌀 An Introduction to SPH
🚀 Free Lectures on Applied Computational Fluid Dynamics (CFD)
This series will help participants develop an understanding of computational fluid dynamics and provide an opportunity to practice numerical solution techniques as applied to the equations governing fluid mechanics and heat transfer.
💻 Engineering Tool of the Week – OpenLB – Open Source Lattice Boltzmann Code
The OpenLB project provides a C++ package for the implementation of lattice Boltzmann methods that is general enough to address a vast range of transport problems, e.g. in computational fluid dynamics. The source code is publicly available and constructed in a well readable, modular way. This enables for a fast implementation of both simple academic test problems and advanced engineering applications. It is also easily extensible to include new physical content.
🤓 Eighty Years of the Finite Element Method: Birth, Evolution, and Future
This document presents comprehensive historical accounts on the developments of fnite element methods (FEM) since 1941, with a specifc emphasis on developments related to solid mechanics. We present a historical overview beginning with the theoretical formulations and origins of the FEM, while discussing important developments that have enabled the FEM to become the numerical method of choice for so many problems rooted in solid mechanics.
📚Book of the Week
Understanding Aerodynamics: Arguing from the Real Physics
Based on the author's decades of industrial experience with Boeing, this book helps students and practicing engineers to gain a greater physical understanding of aerodynamics. Relying on clear physical arguments and examples, McLean provides a much-needed, fresh approach to this sometimes contentious subject without shying away from addressing "real" aerodynamic situations as opposed to the oversimplified ones frequently used for mathematical convenience.
Motivated by the belief that engineering practice is enhanced in the long run by a robust understanding of the basics as well as real cause-and-effect relationships that lie behind the theory, he provides intuitive physical interpretations and explanations, debunking commonly-held misconceptions and misinterpretations, and building upon the contrasts provided by wrong explanations to strengthen understanding of the right ones.
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Keep engineering your mind! 🧠
Jousef