And as the (non)emission of CO2 and related climate gases is at its heart governed by the fluid mechanics and thermodynamics of reacting flows, it is ultimately also a major job for Computational Fluid Dynamics (CFD). However, if humankind manages to cope with climate change, it is also clear that innovative engineering will have played an essential role in this achievement. It will require significant social and economic efforts to overcome the resulting challenges. At the same time the clock of climate change is ticking. The world is changing at an ever increasing pace. Europe is forging ahead to achieve a hydrogen based industry economy while making efficient use of such technology is far from trivial… Countries ban fossil-fuel based propulsion system while the race for alternatives at scale is in full swing. Oceans are getting warmer and warmer while engineers explore sub sea farming with the support of CFD simulation. Wildfires in southern Europe destroy forests at scale while a start-up company is in a hurry to built an innovative fire fighting aircraft. A ship with thousands of cars is burning in the North Sea while the automotive industry is starting to embrace CFD to mitigate battery thermal runaway. Machine Learning exercises are flooding the just freed-up GPUs from bitcoin mining while CFD codes start running productively on exactly those GPUs. ChatGPT is turning the world (of coding) upside down while Computational Fluid Dynamics (CFD) codes are developing at a yet unseen pace.
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