Parker, Jason T Dreier, Till Nilsson, Daniel Mäkiharju, Simo A
We combine X-ray-specific tracer particles, a photon counting detector, and a liquid metal jet anode X-ray source to achieve O(1 kHz) X-ray imaging speeds in the laboratory, 15× faster than previous comparable studies with O(50 μm) tracers. To examine the limits of this measurement technique we conduct three experiments: 2D and 3D X-ray particle ve...
Kachabi, Amirreza Colebank, Mitchel J Chesler, Naomi C
Chronic thromboembolic pulmonary hypertension (CTEPH) develops due to the accumulation of blood clots in the lung vasculature that obstructs flow and increases pressure. The mechanobiological factors that drive progression of CTEPH are not understood, in part because mechanical and hemodynamic changes in the small pulmonary arteries due to CTEPH ar...
Zhang, Xiaokang Minten, Jake Rallabandi, Bhargav
Rodriguez, Angel F Mäkiharju, Simo A
Pressurized water reactors are designed to operate in a single-phase flow. However, during a flow loss or other off-design conditions liquid temperature may exceed saturation temperature and, if a continuous film of gas forms, a boiling casualty may result. If superhydrophobic surfaces are introduced among the fuel cell assembly, vapor bubbles show...
Li, Zeyu Chen, Xi Diamond, Patrick H Xu, Xueqiao Qin, Xijie Wang, Huiqian Scotti, Filippo Hong, Rongjie Yu, Guanying Yan, Zheng
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Abstract: Viable magnetic fusion devices necessitate combining good confinement with effective power flux handling. A major concern for ITER, and devices beyond, is the divertor heat load width, which sets peak boundary heat loads on the plasma-facing materials. Current estimates of the heat flux width are narrow for future reactors. Here, we demon...
Sharma, Ashesh Brazell, Michael J Vijayakumar, Ganesh Ananthan, Shreyas Cheung, Lawrence deVelder, Nathaniel de Frahan, Marc T Henry Matula, Neil Mullowney, Paul Rood, Jon
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Predictive high-fidelity modeling of wind turbines with computational fluid dynamics, wherein turbine geometry is resolved in an atmospheric boundary layer, is important to understanding complex flow accounting for design strategies and operational phenomena such as blade erosion, pitch-control, stall/vortex-induced vibrations, and aftermarket add-...
Gabel, Matthew Sarigul-Klijn, Nesrin
This paper first reviews well known analytical techniques for predicting the Rossiter modes of a cavity in compressible flow. We combine existing methods to improve the performance in compressible flow. Second, we introduce a method based on an effective length to depth ratio of the cavity from experimental results for predicting frequencies across...
Rallabandi, Bhargav
Interactions between fluid flow and elastic structures are important in many naturally occurring and engineered systems. This review collects and organizes recent theoretical and experimental developments in understanding fluid-structure interactions at low Reynolds numbers. Particular attention is given to the motion of objects moving in close pro...
Nozaleda, GL Alaminos-Quesada, J Coenen, W Haughton, V Sánchez, AL
A simple two-dimensional fluid–structure interaction problem, involving viscous oscillatory flow in a channel separated by an elastic membrane from a fluid-filled slender cavity, is analysed to shed light on the flow dynamics pertaining to syringomyelia, a neurological disorder characterized by the appearance of a large tubular cavity (syrinx) with...
Lee, Sangjoon Sheikh, Haris Moazam Lim, Dahyun Daniel Gu, Grace Marcus, Philip S
Abstract: A computational approach is presented for optimizing new riblet surface designs in turbulent channel flow for drag reduction, utilizing Design-by-Morphing (DbM), Large Eddy Simulation (LES), and Bayesian Optimization (BO). The design space is generated using DbM to include a variety of novel riblet surface designs, which are then evaluate...