Vatsal Sanjay
@vatsalsanjay
Fluid Dynamicist | Physics of Fluids @poftwente | Soft matter | Interfacial flows | Univ. Twente | IITR @iitroorkee #FluidDynamics #Physics #drops #bubbles #DNS
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http://vatsalsanjay.com 18-06-2016 04:23:46
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🚨PAPER ALERT 🚨Journal of Fluid Mechanics 1/4🧵We present a theory to describe heat or mass transport in convective #porous #media flows. Inspired by the ideas of the Grossmann and Lohse theory (GL theory), we derive the scaling relation for Nusselt as a function of Rayleigh Physics of Fluids @ UTwente
Exciting findings on surfactant-laden bubble bursting from Matar Fluids Group and Co! They reveal how surfactants alter capillary wave dynamics and Worthington jet formation, impacting aerosol generation. Read more @ go.aps.org/4dAHnw3 #FluidDynamics #Aerosols #bubbles
Thanks for featuring our work Physical Review Fluids!
4th talk from the group by Konstantinos Zinelis on 3D Simulations of viscoelastic jets & filaments at #ICTAM2024. Tuesday 28th August 2024 Time: (14:30-14:50) Room: 325A, 3F (Non-Newtonian & Complex Fluids) Imperial ChemEng Imperial College London Prof Jesse Capecelatro Gareth McKinley
Our latest paper, with Gareth McKinley 🙌 Well done Konstantinos Zinelis! 😀👏 #FluidDynamics of a #viscoelastic fluid dripping onto a substrate 🔗online in Soft Matter tinyurl.com/jzm4ueau #Simulations #CFD Collab: Thomas Abadie (ChemEng Bham) Imperial ChemEng MIT MechE
Shapes matter in the dance of ice and water. A team that includes Sander Huisman & Detlef Lohse explores how the shape of ice affects melting rates in water, showing that ellipsoidal ice can melt up to 10% slower than disks due to natural convection! go.aps.org/3WWUa4Q
Gareth McKinley given the closing plenary lecture at ICTAM 2024 in Daegu: conveying non-Newtonian fluid dynamics to the general audience. Great lecture!
Enjoyed a fantastic seminar by Colm-cille Caulfield (Cambridge University; Journal of Fluid Mechanics) hosted by @Poftwente. He highlighted the importance of understanding stably stratified flows in geophysical systems like the atmosphere, lakes, and oceans—key to understanding climate dynamics.
Congratulations, Naoki Hori, for successfully defending his thesis: tinyurl.com/2cnxztzw. Naoki developed a fully in-house volume of fluid code to study turbulent multiphase Taylor–Couette flows. Congratulations also to the promotion team: Detlef Lohse and Roberto Verzicco.
Congratulations, Luuk Blaauw, for successfully defending his thesis: tinyurl.com/26bqegha. Luuk studied several topics on Turbulent multiphase Taylor–Couette flows. Congratulations also to the promotion team: Sander Huisman and Detlef Lohse