Search results for "Streamlines"

showing 8 items of 8 documents

Origin and Flow History of Air Parcels in Orographic Banner Clouds

2015

Abstract Banner clouds are clouds in the lee of steep mountains or sharp ridges. Previous work suggests that the main formation mechanism is vertical uplift in the lee of the mountain. On the other hand, little is known about the Lagrangian behavior of air parcels as they pass the mountain, which motivates the current investigation. Three different diagnostics are applied in the framework of large-eddy simulations of airflow past an isolated pyramid-shaped obstacle: Eulerian tracers indicating the initial positions of the parcels, streamlines along the time-averaged wind field, and online trajectories computed from the instantaneous wind field. All three methods diagnose a plume of large ve…

Atmospheric ScienceMeteorologyAirflowEulerian pathInflowAtmospheric sciencesPlumeCurrent (stream)symbols.namesakeObstaclesymbolsStreamlines streaklines and pathlinesGeologyOrographic liftJournal of the Atmospheric Sciences
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Simple kinematic models for the environmental interaction of tropical cyclones in vertical wind shear

2011

A major impediment to the intensity forecast of tropical cyclones (TCs) is believed to be associated with the interaction of TCs with dry environmental air. However, the conditions under which pronounced TC-environment interaction takes place are not well understood. As a step towards improving our understanding of this problem, we analyze here the flow topology of a TC immersed in an environment of vertical wind shear in an idealized, three-dimensional, convection-permitting numerical experiment. A set of distinct streamlines, the so-called manifolds, can be identified under the assumptions of steady and layer-wise horizontal flow. The manifolds are shown to divide the flow around the TC i…

ConvectionAtmospheric ScienceMeteorologyEyeFlow (psychology)InflowMechanicslcsh:QC1-999Vortexlcsh:Chemistrylcsh:QD1-999Wind shearStreamlines streaklines and pathlinesOutflowlcsh:PhysicsPhysics::Atmospheric and Oceanic PhysicsGeologyAtmospheric Chemistry and Physics
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<title>Two-dimensional and dynamic (2DD) method of visualization of the flow characteristics in a convection boundary layer using infrared ther…

2000

The paper presents the 2D and dynamic (2DD) method of using infrared (IR) thermography for the visualization of the cooling efficiency of a heated wall, as this method was applied in an experimental investigation. The 2DD method allows the outer surface temperature measured by the IR thermography device to be worked out relative to the bulk coolant-fluid temperature. In this way the 2DD method makes visible the qualitative and quantitative flow characteristics within the thin contact layers at the inner surface of the wall. This flow characteristics, and more specifically the pattern of stream lines (for the detection of dead zones) and the distribution of the temperature differences betwee…

ConvectionFlow visualizationBoundary layerOpticsChemistrybusiness.industryBulk temperatureHeat transferThermographyStreamlines streaklines and pathlinesbusinessCoolantThermosense XXII
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Anisotropic potential of velocity fields in real fluids: Application to the MAST solution of shallow water equations

2013

In the present paper it is first shown that, due to their structure, the general governing equations of uncompressible real fluids can be regarded as an "anisotropic" potential flow problem and closed streamlines cannot occur at any time. For a discretized velocity field, a fast iterative procedure is proposed to order the computational elements at the beginning of each time level, allowing a sequential solution element by element of the advection problem. Some closed circuits could appear due to the discretization error and the elements involved in these circuits could not be ordered. We prove in the paper that the total flux of these not ordered elements goes to zero by refining the compu…

Partial differential equationDiscretizationNumerical analysisShallow waterDam-breakUnstructured meshGeometryDelaunay triangulationNumerical methodExact solutions in general relativityTriangle meshPotential flow problemApplied mathematicsPotential flowStreamlines streaklines and pathlinesDam-break; Delaunay triangulation; Numerical methods; Potential flow problem; Shallow waters; Unstructured mesh; Water Science and TechnologyShallow water equationsMathematicsWater Science and Technology
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Intravascular pillars and pruning in the extraembryonic vessels of chick embryos.

2010

To investigate the local mechanical forces associated with intravascular pillars and vessel pruning, we studied the conducting vessels in the extraembryonic circulation of the chick embryo. During the development days 13-17, intravascular pillars and blood flow parameters were identified using fluorescent vascular tracers and digital time-series video reconstructions. The geometry of selected vessels was confirmed by corrosion casting and scanning electron microscopy. Computational simulations of pruning vessels suggested that serial pillars form along pre-existing velocity streamlines; blood pressure demonstrated no obvious spatial relationship with the intravascular pillars. Modeling a Re…

PeriodicityExtraembryonic MembranesNeovascularization PhysiologicChick EmbryoBiologyArticleMicrocirculationsymbols.namesakeMicroscopyShear stressAnimalsStreamlines streaklines and pathlinesComputer SimulationReynolds numberEndothelial CellsBlood flowAnatomyShear (sheet metal)Regional Blood FlowsymbolsBlood Vesselssense organsStress MechanicalCorrosion CastingDevelopmental BiologyBiomedical engineeringDevelopmental dynamics : an official publication of the American Association of Anatomists
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Experimental Analysis of Local Pressure Losses for Microirrigation Laterals

2004

The accurate design of drip irrigation laterals needs to consider the variation of hydraulic head due to pipe elevation changes, head losses along the lines, and also, at a given operating pressure, emitter discharge variations related to manufacturing variability, clogging, and water temperature. Hydraulic head variations are consequent to both the friction losses and local losses due to the in-line or on-line emitters along the pipe, which determine the contraction and subsequent enlargement of the flow streamlines. Moreover, in-line emitters usually have a smaller diameter than the pipe, and therefore an additional friction loss must be considered. Evaluation of energy losses and consequ…

Pressure dropEngineeringbusiness.industryeducationReynolds numberLow-flow irrigation systemsDrip irrigationMechanicsAgricultural and Biological Sciences (miscellaneous)Friction lossPhysics::Fluid Dynamicssymbols.namesakeHydraulic headsymbolsPhysics::Accelerator PhysicsHead (vessel)Geotechnical engineeringStreamlines streaklines and pathlinesbusinessWater Science and TechnologyCivil and Structural EngineeringJournal of Irrigation and Drainage Engineering
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Considerations on the electromagnetic flow in Airy beams based on the Gouy phase

2012

We reexamine the Gouy phase in ballistic Airy beams (AiBs). A physical interpretation of our analysis is derived in terms of the local phase velocity and the Poynting vector streamlines. Recent experiments employing AiBs are consistent with our results. We provide an approach which potentially applies to any finite-energy paraxial wave field that lacks a beam axis. This research was funded by the Spanish Ministry of Economy and Competitiveness under the project TEC2009-11635.

WavefrontPhysicsWave propagationbusiness.industryWave propagationParaxial approximationPhase (waves)Physics::OpticsModels TheoreticalAtomic and Molecular Physics and OpticsElectromagnetic FieldsOpticsClassical mechanicsPhaseDiffraction theoryPoynting vectorScattering RadiationComputer SimulationStreamlines streaklines and pathlinesPhase velocitybusinessAlgorithmsBeam (structure)Óptica
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Numerical Simulations of the Flow Field of a Submerged Hydraulic Jump over Triangular Macroroughnesses

2021

The submerged hydraulic jump is a sudden change from the supercritical to subcritical flow, specified by strong turbulence, air entrainment and energy loss. Despite recent studies, hydraulic jump characteristics in smooth and rough beds, the turbulence, the mean velocity and the flow patterns in the cavity region of a submerged hydraulic jump in the rough beds, especially in the case of triangular macroroughnesses, are not completely understood. The objective of this paper was to numerically investigate via the FLOW-3D model the effects of triangular macroroughnesses on the characteristics of submerged jump, including the longitudinal profile of streamlines, flow patterns in the cavity regi…

velocitylcsh:Hydraulic engineering010504 meteorology & atmospheric sciencesGeography Planning and Development0207 environmental engineering02 engineering and technologyAquatic Science01 natural sciencesBiochemistrySettore ICAR/01 - IdraulicaPhysics::Fluid Dynamicssymbols.namesakelcsh:Water supply for domestic and industrial purposeslcsh:TC1-978triangular macroroughnesseShear stressFroude numberStreamlines streaklines and pathlines020701 environmental engineeringHydraulic jump0105 earth and related environmental sciencesWater Science and Technologylcsh:TD201-500TKEbed shear stress coefficientFLOW-3D modelsubmerged hydraulic jumpTurbulenceMechanicsSupercritical flowTurbulence kinetic energyJumpsymbolsGeologytriangular macroroughnessesWater
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