Search results for "computational fluid dynamics"

showing 9 items of 179 documents

Computational fluid dynamics simulation to evaluate aortic coarctation gradient with contrast-enhanced CT

2014

Coarctation of aorta (CoA) is a narrowing of the aorta leading to a pressure gradient (Delta P) across the coarctation, increased afterload and reduced peripheral perfusion pressures. Indication to invasive treatment is based on values of maximal (systolic) trans-coarctation Delta P. A computational fluid dynamic (CFD) approach is herein presented for the non-invasive haemodynamic assessment of Delta P across CoA. Patient-specific CFD simulations were created from contrast-enhanced computed tomography (CT) and appropriate flow boundary conditions. Computed Delta P was validated with invasive intravascular trans-CoA pressure measurements. Haemodynamic indices, including pressure loss coeffic…

medicine.medical_specialtyBiomedical EngineeringHemodynamicsBioengineeringComputational fluid dynamicscontrast-enhanced computed tomographylaw.inventioncomputational fluid dynamicSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineAfterloadlawmedicine.arteryInternal medicinemedicineShear stressPressure gradientPressure dropAortabusiness.industryChemistrycoarctation of aortapressure gradientGeneral MedicineComputer Science ApplicationsHuman-Computer InteractionPressure measurementCardiologybusinessComputer Methods in Biomechanics and Biomedical Engineering
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Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEM) of a Customized Stent-Graft for Endovascular (EVAR) Treatment of Abdominal Aorti…

2023

Background: The treatment of abdominal aortic aneurysm (AAA) is today commonly treated by inserting a stent-graft by the endovascular route, without resorting to open surgery. However, some clinical cases do not allow this less invasive approach, meaning that the stent-graft cannot be inserted and open surgery is used. Methods: In the study, we propose a fluid–structure interaction (FSI) analysis of an aneurysmatic aorta that could not be treated with Endovascular Aneurysm Repair (EVAR). The vessel is reconstructed through segmentation from CT scans and subsequently modeled on CAD software to create the surface and thickness of the vessel itself. Subsequently, we proceeded to carry out Comp…

patient specificFluid Flow and Transfer ProcessesProcess Chemistry and TechnologyGeneral Engineeringstent-graft; patient specific; Computational Fluid Dynamics; finite element analysisGeneral Materials ScienceStent-graftfinite element analysisComputational Fluid DynamicSettore ICAR/08 - Scienza Delle CostruzioniInstrumentationfinite element analysiComputer Science ApplicationsApplied Sciences
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Improving the Downwind Sail Design Process by Means of a Novel FSI Approach

2021

The process of designing a sail can be a challenging task because of the difficulties in predicting the real aerodynamic performance. This is especially true in the case of downwind sails, where the evaluation of the real shapes and aerodynamic forces can be very complex because of turbulent and detached flows and the high-deformable behavior of structures. Of course, numerical methods are very useful and reliable tools to investigate sail performances, and their use, also as a result of the exponential growth of computational resources at a very low cost, is spreading more and more, even in not highly competitive fields. This paper presents a new methodology to support sail designers in ev…

sail loadsComputer sciencefinite element methodNaval architecture. Shipbuilding. Marine engineeringVM1-989020101 civil engineeringOcean Engineering02 engineering and technologycomputational fluid dynamicsGC1-1581Computational fluid dynamicsOceanography01 natural sciences010305 fluids & plasmas0201 civil engineeringcomputational fluid dynamic0103 physical sciencesFSISettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeWater Science and TechnologyCivil and Structural EngineeringParametric statisticsbusiness.industryNumerical analysisProcess (computing)Aerodynamicssail designFinite element methodgennakerAerodynamic forceDesign processbusinessMarine engineeringJournal of Marine Science and Engineering
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Modelling flow and heat transfer in spacer-filled membrane distillation channels using open source CFD code

2013

Abstract A good understanding of the details of hydrodynamic and heat transport conditions and their impact on temperature polarisation and pressure drops is essential for optimum design of membrane distillation (MD) modules. To this end, the present work reports on initial progress in the development of a tool for 3D simulation of spacer-filled MD channels based on the open source CFD code library OpenFOAM. The paper discusses a number of modelling and implementation aspects including model geometry and computational domain, choice of boundary conditions, and discretisation schemes. The results pertaining to the effect of three different spacer types on the fluid dynamics and heat transfer…

spacer-filled channelPressure dropSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciEngineeringWork (thermodynamics)business.industryMechanical EngineeringGeneral Chemical EngineeringFlow (psychology)temperature polarisationMechanical engineeringMembrane distillationGeneral ChemistryComputational fluid dynamicsMembrane distillationHeat transferFluid dynamicsspacerGeneral Materials ScienceBoundary value problemCFDbusinessWater Science and TechnologyDesalination
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Implementation techniques for the lattice Boltzmann method

2010

suurteholaskentavirtauslaskentamesoscopic methodsmesoskooppinen alueHila-Boltzmann -menetelmäcomputational fluid dynamicsvirtausdynamiikkalattice Boltzmann methodboundary conditionsalgoritmitcomputer simulationCDFsimulointiHigh performance computingmathematical modellingmatemaattiset mallittietojenkäsittelylaskentamenetelmät
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Parametric sensitivity of a CFD model concerning the hydrodynamics of trickle-bed reactor (TBR)

2016

Abstract The aim of the present study was to investigate the sensitivity of a multiphase Eulerian CFD model with respect to relations defining drag forces between phases. The mean relative error as well as standard deviation of experimental and computed values of pressure gradient and average liquid holdup were used as validation criteria of the model. Comparative basis for simulations was our own data-base obtained in experiments carried out in a TBR operating at a co-current downward gas and liquid flow. Estimated errors showed that the classical equations of Attou et al. (1999) defining the friction factors Fjk approximate experimental values of hydrodynamic parameters with the best agre…

trickle-flow regimeMaterials sciencebusiness.industryThermodynamicslcsh:TP155-156pressure gradient02 engineering and technologyMechanicsTrickle-bed reactorComputational fluid dynamics021001 nanoscience & nanotechnologyliquid holdupPhysics::Fluid Dynamicsphases interaction020401 chemical engineeringhydrodynamicsSensitivity (control systems)0204 chemical engineeringlcsh:Chemical engineering0210 nano-technologybusinessCFDPressure gradientLiquid holdupParametric statisticsChemical and Process Engineering
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High-Reynolds-number turbulent cavity flow using the lattice Boltzmann method

2018

We present a boundary condition scheme for the lattice Boltzmann method that has significantly improved stability for modeling turbulent flows while maintaining excellent parallel scalability. Simulations of a three-dimensional lid-driven cavity flow are found to be stable up to the unprecedented Reynolds number $\mathrm{Re}=5\ifmmode\times\else\texttimes\fi{}{10}^{4}$ for this setup. Excellent agreement with energy balance equations, computational and experimental results are shown. We quantify rises in the production of turbulence and turbulent drag, and determine peak locations of turbulent production.

virtauslaskentaLattice Boltzmann methodsEnergy balance01 natural sciencesStability (probability)010305 fluids & plasmasPhysics::Fluid Dynamicssymbols.namesaketurbulenssi0103 physical sciencesBoundary value problem010306 general physicsPhysicsta114numeeriset menetelmätTurbulenceBoltzmann methodReynolds numberMechanicscavity flowSettore FIS/02 - Fisica Teorica Modelli e Metodi MatematiciDragsymbolsProduction (computer science)Computational fluid dynamics; Lattice Boltzmann Methods; Turbulent cavity flowsdifferentiaaliyhtälöt
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Microstructural evaluation and recommendations for face masks in community use to reduce the transmission of respiratory infectious diseases

2022

Funding Information: A.K., H.Y. and R.J. also acknowledges the funding through Academy of Finland BESIMAL (Decision No. 334197) and Aalto University, Department of Communications and Networking. This work has also received funding in part from the EPSRC UK (grant number EP/R012091/1). A.K. would also like to thank Mr. Volkan Kaplan for the fruitful discussions in the early concept generation. Publisher Copyright: © 2022 The Author(s) Background and Objective: Recommendations for the use of face masks to prevent and protect against the aerosols (≤5µm) and respiratory droplet particles (≥5µm), which can carry and transmit respiratory infections including severe acute respiratory syndrome coro…

virtauslaskentaSARS-CoV-2MasksCOVID-19Respiratory Aerosols and DropletsHealth InformaticsComputational fluid dynamicsCommunicable DiseasesComputer Science ApplicationskoronaviruksettaudinaiheuttajatAirborne pathogenX-ray microtomographykasvosuojaimetHumansaltistuminenFace masksFiltrationSoftware
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Designing a graphics processing unit accelerated petaflop capable lattice Boltzmann solver: Read aligned data layouts and asynchronous communication

2016

The lattice Boltzmann method is a well-established numerical approach for complex fluid flow simulations. Recently, general-purpose graphics processing units (GPUs) have become available as high-performance computing resources at large scale. We report on designing and implementing a lattice Boltzmann solver for multi-GPU systems that achieves 1.79 PFLOPS performance on 16,384 GPUs. To achieve this performance, we introduce a GPU compatible version of the so-called bundle data layout and eliminate the halo sites in order to improve data access alignment. Furthermore, we make use of the possibility to overlap data transfer between the host central processing unit and the device GPU with com…

virtauslaskentalarge-scale I/OComputer scienceGraphics processing unitLattice Boltzmann methodscomputational fluid dynamicsParallel computinggraphics processing unit01 natural sciencesmemory alignmentprocessors010305 fluids & plasmasTheoretical Computer Science0103 physical sciencesData structure alignment0101 mathematicsGraphicsComputingMethodologies_COMPUTERGRAPHICSta113data layoutta114prosessoritSolverLattice Boltzmann010101 applied mathematicsData accessHardware and ArchitectureAsynchronous communicationCentral processing unitasynchronous communicationTitanSoftwareThe International Journal of High Performance Computing Applications
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