Olivia
Online
Computational Fluid Dynamics group
@CFDonia
Fluid Dynamics, Environmental Flows, Weather & Climate, Turbulence, Scientific Computing @UConn. We love art and computer programming (led by G. Matheou)
University of Connecticut
Joined June 2020
226 Following
3.9K Followers
260 Posts
Pinned Tweet
A satellite view that tracks the rocket a bit longer - the water vapor imagery.
Pew pew!
Absolutely breathtaking view of the Artemis II launch.
Wow.
📣 We are recruiting for fully funded PhD positions in fluid dynamics, with applications in naval and aerospace engineering. We are looking for motivated students interested in turbulence, computational fluid dynamics, high-performance computing, and complex flow physics.
Please consider applying if you are eligible and interested, and please RT/share.
Who to follow
Computational Fluid Dynamics Lab UniBw_M
@CFD_UniBw_M
Research group at @UniBw_M working on a variety of topics in the field of scale resolving Computational Fluid Dynamics of complex flow phenomena.
Physical Review Fluids
@PhysRevFluids
@APSPhysics journal publishing innovative research that will advance the fundamental understanding of fluids.
Lin Fu
@linf1017
Expert in fluid mechanics.
Please join us tomorrow (March 17) at the #APSSummit25 for our talk on clouds and turbulence in the atmosphere. Session MAR-B45 in 263A at 11:42 am. Most of our talk is for non-experts in the field: we will review some of the fundamentals, provide historical perspective and context, and discuss some of our latest work on cloud organization. We have lots of nice visuals too!
Our topic is: Turbulence and clouds in the atmosphere: From the last unresolved classical physics problem to the largest uncertainty in climate projections
Abstract: Clouds play a key role in the Earth's energy balance. Small changes in low-cloud area cover have a comparable magnitude on the global energy budget as that of the anthropogenic emissions of greenhouse gases. Clouds are interconnected with atmospheric turbulence because turbulent transport causes the variations of temperature and humidity that lead to cloud formation. In recent years, the growth of computing power combined with advances in atmospheric physics modeling have yielded high-fidelity simulations establishing numerical simulation as a major tool for cloud physics discovery. Focusing on high-resolution simulation of atmospheric boundary-layer clouds, we discuss how classical turbulence techniques are used to advance our understanding of clouds. The development of a physics-based turbulence closure based on asymptotic exact solutions of the equations of motion is presented. The newly developed turbulence model is used in fine-scale modeling of cloudy atmospheric boundary layers. Fine-scale cloud modeling is used to investigate the development of cloud horizontal organization, an important mechanism in the interaction of the boundary layer with the large-scale planetary circulation. Finally, we discuss how findings from high-resolution modeling of clouds are used to inform the development of convection parameterizations in climate models.
We are excited to present an invited talk at the APS Global Physics Summit 2025 next week! We are discussing our favorite topics: clouds ☁️ and turbulence 🍥 Monday March 17 in Session MAR-B45, Anaheim Convention Center, 263A (Level 2). The Session is sponsored by the Topical Group on the Physics of Climate @APS_GPC. Also, check out all the other exciting talks at the same session! Looking forward to engaging with everyone. #APSSummit25
For those attending the #AGU24 we have a poster today, Tuesday, Dec 10 about one of our favorite topics: clouds ☁️☁️☁️!!! Poster session A21C-1707: "The long road to equilibrium: Temporal scaling of marine boundary layers"
@BikeMath @jacobjivanov Thanks, it’s a DNS but only two-dimensional flow. It’s not Galerkin though 😉. It’s a finite difference method.
Even the colorbar cannot contain its excitement about this cool animation of buoyant convection by our student @jacobjivanov! This was our CFD class term project last semester. Animation shows scaled temperature (top panel) and velocity magnitude+streamlines (bottom).
one more latte …ahem, excuse me, buoyant convection simulation, for all coffee lovers out there ☕️
as in the previous post, code, simulation and visualization by our student @jacobjivanov ☕️☕️☕️
University Communications produced a great video highlighting our work on wind energy! We are very grateful to the Eversource Energy Center @UConnEEC for supporting this research.
https://t.co/Ay1346LJKt
We could not resist posting a few more…
Thank you @apsfluiddynamic for another great meeting #apsdfd2023! Looking forward to more Discovery-s next year!
A glimpse of the traveling Gallery of Fluid Motion reception #apsdfd2023 at the @theNASciences organized by Azar Panah, featuring the work of @CFDonia, #terracollage and @ca_sye among others
We are excited to be DC for #apsdfd2023! Oumaima's and Obaidullah's @khawar1366 talks are Monday morning. If you are in DC, don't forget to check all the fluids art (including ours 😉) at the Traveling Gallery of Fluid Motion at the National Academy of Sciences. The coordinates for our talks are (both conveniently placed in the same session):
L20: Geophysical Fluid Dynamics: Atmospheric I, Monday, 8:00 AM, Room: 146C
L20.00004: Sea surface temperature and subsidence effects on steady-state stratocumulus to shallow cumulus cloud transitions
L20.00006: Computational domain size effects on large-eddy simulations of precipitating shallow cumulus convection
Do you want to solve impactful real-world problems? Perhaps you should take our class – or another class @UConnEngineer
@gabrielweymouth @UConnEngineer Thank you! Let’s hope your students will not be searching Twitter for answers… 😁
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