Search results for " Numerical model"

showing 10 items of 37 documents

Mathematical modelling of pressure oscillations in sewer pressurization

2008

Settore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaPressurization Unsteady flow Transition Numerical modelling Urban drainageSettore ICAR/01 - Idraulica
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Numerical simulation of experiments in a meandering flume

2001

Numerical modelling of the flow in a meandering channel is compared with experiments done by one of the authors. A peculiar 2DH model, where bottom shear stresses are computed taking into account also accelerations, has been developed for the comparison. Good results are obtained in some sections of the channel, but, in others, some experimentally observed flow features are not well reproduced. An explanation is offered for the difficulties encountered in modelling the strong secondary current that appears along the bend.

2DH numerical modelmeandering riversbottom shear stre
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MAST solution of irrotational flow problems in 2D domains with strongly unstructured triangular meshes

2010

A new methodology for the solution of irrotational 2D flow problems in domains with strongly unstructured meshes is presented. A fractional time step procedure is applied to the original governing equations, solving consecutively a convective prediction system and a diffusive corrective system. The non linear components of the problem are concentrated in the prediction step, while the correction step leads to the solution of a linear system, of the order of the number of computational cells. A MArching in Space and Time (MAST) approach is applied for the solution of the convective prediction step. The major advantages of the model, as well as its ability to maintain the solution monotonicit…

Shallow water numerical models MASTConvectionNonlinear systemSpacetimeLinear systemApplied mathematicsMonotonic functionPolygon meshGeometryConservative vector fieldShallow water equationsSettore ICAR/01 - IdraulicaMathematicsAIP Conference Proceedings
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DACRON© 360 WOVEN: EXPERIMENTAL CHARACTERIZATION AND COMPUTATIONAL ASPECTS

2010

In this paper a first experimental study on Dacron© 360 woven constitutive behavior is presented. This woven is widely adopted in sail manufacturing, it is obtained by weaving polyethylene terephthalate (PET) yarn and it shows some peculiar features due to its own manufacturing process. The experimental tests, in terms of tensile tests and cyclic tests, clearly show the orthotropy features of the material, its high strength and deformability. The examination with optical microscope of the tested specimen allows to evidence the interaction between warp and weft yarns. The obtained results represent a first step for the definition of a correct computational approach to such materials.

Dacron© Sailcloth Experimental characterization Numerical modelingSettore ICAR/08 - Scienza Delle Costruzioni
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The role of evanescent modes in Global-Local analysis of UGW in plates with varying local zone-scatterer relations

2023

In order to provide a reliable and robust SHM performance, Ultrasonic Guided Waves (UGWs) need to be analyzed and understood. Numerical modeling of UGW propagation and scattering by hybrid methods offers the possibility of simulating UGW interaction with waveguides of arbitrary cross-sections and discontinuities. Maximizing the accuracy of such methods is important to perform quantitative SHM, while maintaining minimum computational cost. This work investigates the role of evanescent modes in the numerical analysis of UGWs in aluminum and composite plates with defects, by the hybrid Global-Local method. The complex solutions to the UGW eigenvalue problem are found and the scattering spectra…

evanescent modes numerical modeling scattering defect Ultrasonic Guided Waves Structural Health MonitoringSettore ICAR/08 - Scienza Delle Costruzioni
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Impact of Freshwater Inflow From the Volturno River on Coastal Circulation

2020

The coastal area located in front of the Volturno river's estuary (Gulf of Gaeta, central-eastern Tyrrhenian Sea) has been synoptically sampled during seven surveys, between June 2012 and October 2014. The vertical profiles of temperature and salinity have been acquired on a high resolution nearly-regular grid, in order to describe the spatial and temporal variability of the water masses characteristics. Moreover, to provide a first assessment of the steady circulation at small scale, the three-dimensional velocity field associated to each survey has been obtained through the full momentum equations of the Princeton Ocean Model. The data analysis has shown the entire water column characteri…

0106 biological sciencesWater massFreshwater inflowlcsh:QH1-199.5010504 meteorology & atmospheric sciencesWater masses characterizationTemperature salinity diagramsStratification (water)hydrologyOcean EngineeringOcean numerical simulationOcean numerical modellcsh:General. Including nature conservation geographical distributionAquatic ScienceOceanography01 natural sciencesTyrrhenia seaWater columnlcsh:Science0105 earth and related environmental sciencesWater Science and TechnologyGlobal and Planetary Change010604 marine biology & hydrobiologySettore GEO/01 - Paleontologia E Paleoecologiaeastern Tyrrhenian SeaPrinceton Ocean Modelcoastal circulation eastern Tyrrhenian Sea hydrology ocean numerical model water massesLongshore driftOceanographyOcean numerical model; eastern Tyrrhenian Sea; coastal circulation; water masses; hydrologycoastal circulationlcsh:QThermohaline circulationwater massesGeologyHydrology - HydrologieFrontiers in Marine Science
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Calculation of the Electromechanical Properties of CNTs Under Deformation by Means of a Novel Numerical Model

The effects of mechanical deformation on the electron transport behavior of carbon nanotubes (CNTs) are of primary interest due to the enormous potential of nanotubes in making electronic devices and nanoelectromechanical systems (NEMS). Moreover it could help to evaluate the presence of defects or to assess the type of CNTs that were produced. Conventional atomistic simulations have a high computational expense that limits the size of the CNTs that can be studied with this technique. Here we present a novel numerical approach able to simulate the electromechanical behavior of SWNTs and MWNTs of the dimensions used in nano-electronic devices. The numerical model was designed to realize orde…

Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineCNTs mechanical deformation electron transport numerical models.
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The finite element implementation of 3D fractional viscoelastic constitutive models

2018

Abstract The aim of this paper is to present the implementation of 3D fractional viscoelastic constitutive theory presented in Alotta et al., 2016 [1]. Fractional viscoelastic models exactly reproduce the time dependent behaviour of real viscoelastic materials which exhibit a long “fading memory”. From an implementation point of view, this feature implies storing the stress/strain history throughout the simulations which may require a large amount of memory. We propose here a number of strategies to effectively limit the memory required. The form of the constitutive equations are summarized and the finite element implementation in a Newton-Raphson integration scheme is described in detail. …

RelaxationComputer scienceSubroutineConstitutive equation3D constitutive models; Creep; Fractional viscoelasticity; Numerical modelling; Relaxation; Analysis; Engineering (all); Computer Graphics and Computer-Aided Design; Applied Mathematics02 engineering and technologyViscoelasticityStress (mechanics)Engineering (all)0203 mechanical engineeringFractional viscoelasticityApplied mathematicsLimit (mathematics)Applied MathematicsGeneral EngineeringAnalysiCreep021001 nanoscience & nanotechnologyComputer Graphics and Computer-Aided DesignFinite element method020303 mechanical engineering & transportsNumerical modellingBenchmark (computing)3D constitutive model0210 nano-technologyAnalysisQuasistatic process
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Electromechanical Numerical Analysis of an Air-Core Pulsed Alternator via Equivalent Network Formulation

2017

In this paper, the numerical analysis on an air-core pulsed alternator is presented. Since compulsators are characterized by very fast electromechanical transients, their accurate analysis requires strong coupling between the equations governing the electrical and the mechanical behaviors. The device is investigated by using a dedicated numerical code capable to take into account eddy currents, compensating windings, as well as the excitation/control circuits. Furthermore, the code is capable of modeling centrifugal forces and vibrations acting on the shaft due to electric and mechanical unbalances or to misalignments of the shaft from its centered position. This makes the code a very power…

Alternator (automotive)Nuclear and High Energy PhysicsAir-core machine020209 energyMechanical engineeringCompensated pulsed alternator02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettrici01 natural sciencescoupled analysiseddy current010305 fluids & plasmaslaw.inventionintegral formulationlawPosition (vector)0103 physical sciences0202 electrical engineering electronic engineering information engineeringEddy currentcompulsatorNuclear and High Energy PhysicElectronic circuitPhysicsnumerical modelsAir-core machine; compulsator; coupled analysis; eddy currents; integral formulation; numerical modelsbusiness.industryNumerical analysisElectrical engineeringeddy currentsCondensed Matter PhysicsVibrationcoupled analysiElectromagnetic coilnumerical modelbusiness
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Constitutive Numerical Model of FRCM Strips Under Traction

2020

In this paper, the tensile behavior of Fiber Reinforced Cementitious Matrix (FRCM) strips is investigated through Finite Element (FE) models. The most adopted numerical modeling approaches for the simulation of the fiber-matrix interface law are described. Among them, the cohesive model is then used for the generation of FE models which are able to simulate the response under traction of FRCM strips tested in laboratory whose results are available in the technical literature. Tests on basalt, PBO and carbon coated FRCM specimens are taken into account also considering different mechanical ratios of the textile reinforcement. The comparison between FE results and experimental data allows val…

Materials scienceGeography Planning and DevelopmentTraction (engineering)0211 other engineering and technologiesNumerical modelingFRCM tensile behavior numerical modeling experimental tests interface modeling020101 civil engineering02 engineering and technologySTRIPSFRCM0201 civil engineeringlaw.inventionlcsh:HT165.5-169.9lawUltimate tensile strengthmedicinetensile behaviorComposite material021110 strategic defence & security studiesStiffnessexperimental testsBuilding and Constructionlcsh:City planningFinite element methodUrban StudiesTensile behaviornumerical modelinglcsh:TA1-2040experimental tests; FRCM; interface modeling; numerical modeling; tensile behaviorFe modelmedicine.symptominterface modelinglcsh:Engineering (General). Civil engineering (General)Frontiers in Built Environment
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