Search results for "Fluid-structure interaction"

showing 10 items of 16 documents

Biomechanical implications of excessive endograft protrusion into the aortic arch after thoracic endovascular repair

2015

Endografts placed in the aorta for thoracic endovascular aortic repair (TEVAR) may determine malappositioning to the lesser curvature of the aortic wall, thus resulting in a devastating complication known as endograft collapse. This premature device failure commonly occurs in young individuals after TEVAR for traumatic aortic injuries as a result of applications outside the physical conditions for which the endograft was designed. In this study, an experimentally-calibrated fluid-structure interaction (FSI) model was developed to assess the hemodynamic and stress/strain distributions acting on the excessive protrusion extension (PE) of endografts deployed in four young patients underwent TE…

AdultMaleAortic archmedicine.medical_specialtyHemodynamicsAorta ThoracicHealth InformaticsProsthesis DesignBlood Vessel Prosthesis ImplantationYoung AdultAortic aneurysmBlood vessel prosthesismedicine.arteryInternal medicineFluid-structure interactionStentHumansMedicineThoracic aortaStent-graftHemodynamicEndovascular ProcedureAortaAortic Aneurysm Thoracicbusiness.industryEndovascular ProceduresHemodynamicsmedicine.diseaseCurvatures of the stomachBlood Vessel ProsthesisComputer Science ApplicationsSurgeryAlgorithmRadiographyDescending aortaCalibrationCardiologyEndograft collapse/infoldingStentsStress MechanicalThoracic endovascular aortic repair (TEVAR)businessAlgorithmsBird-beakHumanComputers in Biology and Medicine
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A computational aeroelastic framework based on high-order structural models and high-fidelity aerodynamics

2023

A computational framework for high-fidelity static aeroelastic analysis is presented. Aeroelastic analysis traditionally employs a beam stick representation for the structure and potential, inviscid and irrotational flow assumptions for the aerodynamics. The unique contribution of this work is the introduction of a high-order structural formulation coupled with a high-fidelity method for the aerodynamics. In more details, the Carrera Unified Formulation coupled with the Finite Element Method is implemented to model geometrically complex composite, laminated structures as equivalent bi-dimensional plates. The open-source software SU2 is then used for the solution of the aerodynamic fields. T…

Composite structuresFluid-structure interactionCarrera unified formulationAerospace EngineeringEquivalent plate modellingCFDSettore ING-IND/04 - Costruzioni E Strutture AerospazialiStatic aeroelasticity
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Time-harmonic solution for acousto-elastic interaction with controllability and spectral elements

2010

The classical way of solving the time-harmonic linear acousto-elastic wave problem is to discretize the equations with finite elements or finite differences. This approach leads to large-scale indefinite complex-valued linear systems. For these kinds of systems, it is difficult to construct efficient iterative solution methods. That is why we use an alternative approach and solve the time-harmonic problem by controlling the solution of the corresponding time dependent wave equation. In this paper, we use an unsymmetric formulation, where fluid-structure interaction is modeled as a coupling between pressure and displacement. The coupled problem is discretized in space domain with spectral el…

ControllabilityDiscretizationSpectral element methodfluid-structure interactionspectral element methodacoustic wavescoupled problemTime-harmonic solutioncontrollabilityConjugate gradient methodFluid-structure interactionTime domainCoupled problemMathematicsElastic wavesSpectral element methodelastic wavestime-harmonic solutionApplied MathematicsMathematical analysisLinear systemFinite differenceFinite element methodControllabilityComputational MathematicsAcoustic wavesConjugate gradient algorithmconjugate gradient algorithmJournal of Computational and Applied Mathematics
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On the existence of weak solution to the coupled fluid-structure interaction problem for non-Newtonian shear-dependent fluid

2016

We study the existence of weak solution for unsteady fluid-structure interaction problem for shear-thickening flow. The time dependent domain has at one part a flexible elastic wall. The evolution of fluid domain is governed by the generalized string equation with action of the fluid forces. The power-law viscosity model is applied to describe shear-dependent non-Newtonian fluids.

Dilatant35D30General MathematicsConstant Viscosity Elastic (Boger) Fluidsfluid-structure interactionhemodynamics01 natural sciencesexistence of weak solutionPhysics::Fluid Dynamics76A0576D03Fluid–structure interactionshear-thinning fluids0101 mathematicsMathematicsWeak solution010102 general mathematicsMechanicsnon-Newtonian fluidsNon-Newtonian fluid010101 applied mathematicsShear rateCondensed Matter::Soft Condensed Matter74F10Shear (geology)Generalized Newtonian fluidshear-thickening fluids35Q30
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NOVEL TOOLS FOR THE MECHANICAL ANALYSIS OF THIN PLATES AND RELEVANCE ON MEMBRANE-BASED TECHNOLOGIES

2020

Ion Exchange MembraneSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciProfiled MembraneFluid-Structure InteractionThin PlateMembraneMembrane DeformationReverse ElectrodialysiElectrodialysiMeshfree methodLine Element-Less MethodMaterial parameter identificationFluid redistribution.Settore ICAR/08 - Scienza Delle Costruzioni
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Early distal remodeling after elephant trunk repair of thoraco-abdominal aortic aneurysms

2016

Hemodynamic alterations occur when the elephant trunk (ET) technique is adopted to treat extensive aortic aneurysms. In planning the 2nd stage operation to complete ET repair, surgeons must weigh an adequate recovery time after initial surgery against the risk of postoperative ET-related complications. The purpose of this study was to understand the mechanistic link between the flow alteration caused by the ET graft and the development of premature aortic rupture before the 2nd stage operation. Specifically, fluid-structure interaction (FSI) analysis was performed using the CT imaging data of aorta at different stages of ET repair, and then computational variables were compared to those obs…

Malemedicine.medical_specialtyFluid-structure interaction analysiElephant trunksAortic RuptureBiomedical EngineeringBiophysicsDiastoleHemodynamics030204 cardiovascular system & hematologyAnastomosisModels Biological03 medical and health sciencesAortic aneurysmPostoperative Complications0302 clinical medicinemedicine.arterymedicineHumansOrthopedics and Sports MedicineAortic ruptureAgedAortaAortic aneurysmTEVARAortic Aneurysm Thoracicbusiness.industryRehabilitationHemodynamicsmedicine.diseaseSurgeryBiophysic030228 respiratory systemDescending aortacardiovascular systemFemaleTomography X-Ray ComputedbusinessVascular Surgical ProceduresElephant trunk techniqueJournal of Biomechanics
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Haemodynamic predictors of a penetrating atherosclerotic ulcer rupture using fluid-structure interaction analysis

2013

We present preliminary data on the flow-induced haemodynamic and structural loads exerted on a penetrating atherosclerotic aortic ulcer (PAU). Specifically, one-way fluid-structure interaction analysis was performed on the aortic model reconstructed from a 66-year-old male patient with a PAU that evolved into an intramural haematoma and rupture of the thoracic aorta. The results show that elevated blood pressure (117 mmHg) and low flow velocity at the aortic wall (0.15 m/s(2)) occurred in the region of the PAU. We also found a low value of time-averaged wall shear stress (1.24 N/m(2)) and a high value of the temporal oscillation in the wall shear stress (oscillatory shear index = 0.13) in t…

Malemedicine.medical_treatmentHemodynamicsAorta ThoracicMedicineThoracic aortaHematomamedicine.diagnostic_testEndovascular ProceduresModels CardiovascularSettore ING-IND/34 - Bioingegneria IndustrialeAnatomyTreatment OutcomeAtherosclerosiCardiologyWall shear streCardiology and Cardiovascular MedicineBrief CommunicationsBlood Flow VelocityHumanPulmonary and Respiratory Medicinemedicine.medical_specialtyAortographyAortic RuptureAortic DiseasesAortographyBlood Vessel Prosthesis ImplantationSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchinePenetrating atherosclerotic ulcerPenetrating atherosclerotic ulcerInternal medicinemedicine.arteryFluid-structure interactionShear stressHumansArterial PressureComputer SimulationHemodynamicAortic ruptureUlcerAgedEndovascular Procedurebusiness.industryHemodynamicsStentmedicine.diseaseAtherosclerosisAortic DiseaseBlood pressureRegional Blood FlowSurgeryStress MechanicalbusinessTomography X-Ray Computed
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Fluid-structure interaction approach with smoothed particle hydrodynamics and particle-spring systems

2022

This paper presents a novel three-dimensional fluid-structure interaction (FSI) approach, where the meshless smoothed particle hydrodynamics (SPH) method is used to simulate the motion of incompressible fluid flows, whilst structures are represented by a simplified approach based on particle-spring systems. The proposed FSI technique allows to use independent spatial-temporal resolutions for the fluid and structural computational domains. The particle-spring elastic constants are calibrated and relationships with the mechanical material properties, Young's modulus and Poisson's ratio, are determined. Fluid and structure computational domains are separated by interfaces made of triangular el…

Mechanics of MaterialsMechanical EngineeringComputational MechanicsGeneral Physics and AstronomySmoothed particle hydrodynamics (SPH) Fluid-structure interaction (FSI) Particle-spring systems Particle-based FSI FSI benchmarkComputer Science ApplicationsSettore ICAR/01 - Idraulica
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A novel 2D model for the assessment of deformation-induced flow redistribution phenomena in electrodialysis units

2022

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciElectromembrane process membrane deformation flow maldistribution fluid-structure interaction Darcy flowElectromembrane processFluid structure interactionflow maldistributionfluid-structure interactionmembrane deformationDarcy flowSettore ICAR/08 - Scienza Delle Costruzioni
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Fluid-structure interaction in electromembrane processes: modelling of membrane deformation, fluid dynamics and mass transfer

2018

In recent years, water and energy supply issues have boosted a noticeable interest in the scientific community on electromembrane processes such as electrodialysis and reverse electrodialysis. In order to gain an important place in the industrial market, technological challenges on various aspects are involved for the optimization of these processes. In this context, profiled membranes exhibit interesting performances and offer countless geometric alternatives. However, the mechanical behavior of the membranes and its interaction with fluid dynamics has been poorly investigated so far. In membrane-based processes, a trans-membrane pressure (Ptm) between the different solutions flowing throu…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciReverse electrodialysiMembrane deflectionFluid-structure interactionElectrodialysiCFDSettore ICAR/08 - Scienza Delle CostruzioniSettore ING-IND/19 - Impianti NucleariIon exchange membrane
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