Super excited to finally hold this in my hands! Fluid Mechanics 7th edition is now out! https://t.co/PeCuQvdbnz

Turbulence drives heterogeneous particle adhesion in channel flows, with adhesion strength rising at higher temperatures. DNS show that deposition depends on particle inertia and is shaped by turbulent structures. Read the PRFluids Editors’ suggestion: https://t.co/VDBjb4qxs6

New paper out in @PhysRevFluids (Editor's suggestion)! PhD student Max Herzog shows how free-stream #turbulence leads to heterogeneous deposition of elastic-plastic (adhesive) particles, resulting in 10X increase in surface wear. https://t.co/kGeItHfNOy

Bittersweet farewell to CRG team members Abhilash and Meet, who have been pillars of the group for many years. Meet will be going on to start a postdoc at @EPrinceton. We wish you two the best of luck!

More relevant than ever: Science the Endless Frontier, a report to the President by Vannevar Bush, Director of the Office of Scientific Research and Development, July 1945 https://t.co/yMwIvRsqnW

Beautiful quote in the Chicago Cultural Center building, decorated by the Tiffany Glass co, 1897

Prof. Jesse Capecelatro and U-M Graduate Student Research Assistant, Meet Patel, partnered with NASA and Johns Hopkins in a study published in Nature Communications that unlocks a long-standing mystery on the moon’s lunar surface. Read more here:

I'll be teaching an advanced course on "Filtered Modelling Approaches for Industrial Gas-Particle Suspensions: Basics and Future Developments" in Udine in May. Targeted at doctoral students, young researchers, and engineers. More details+registration at https://t.co/BOO2nKRGBJ

Go Blue!

New paper published in Chemical Engineering Science! PhD student Rebecca Grawe developed an Euler–Lagrange method for simulating CO2 adsorption. 'Pseudo-turbulence' models capture subgrid-scale species mixing improves results. https://t.co/VC09dM0elC

Thrilled to announce I’ve signed with @TommyDeanWriter at Rosecliff Literary @roseclifflit to represent my debut novel A Body at Rest, a historical mystery set in 1945 Ithaca, NY. Excited to share more as the publishing journey unfolds!

Moon landings conducted over several decades produced a remarkably similar pattern of dust on the lunar surface. Working with @NASA, researchers at U-M and @JohnsHopkins can finally explain why: Görtler instability. https://t.co/95bCtToCut

For those who still embrace the em dash in the age of ai—this one's for you

NEW ARTICLE: Solving a moon mystery from afar: why multiple moon landings each produced a similar pattern on the surface. https://t.co/Xl3wehRKx0

And check out this awesome video on the project:

New paper out in @NatureComms! Together with Johns Hopkins we showed that the persistent streaks observed during lunar landings is caused by Görtler instability triggered by rocket plumes. Story: https://t.co/T3zGRkDKDh Paper: https://t.co/Wi7mVNlwya

Some eye candy: Görtler vortices in an underexpanded jet by PhD graduate Meet Patel

I'm excited to talk with Ypsilanti middle schoolers about the challenges of spacecraft landings next week with @UMMNH

Very excited to announce Meet's PhD defense will be held tomorrow 6/24 at 2:00 ET. His research focuses on data-driven and physics-based modeling relevant to plume-surface interactions

A great article from Emily Blevins on history of @NSF . As we work to grow the domestic STEM workforce, it demonstrates how a strong NSF and its graduate research fellowship program is such an important foundation for our country! https://t.co/dlZcCuvJmI

Scalar mixing is a beautiful thing. We're starting to look into how compressible turbulence caused by particle wakes and shocks mix scalars