Search results for "Convection"

showing 10 items of 332 documents

Lagrangian Description of Air Masses Associated with Latent Heat Release in Tropical Storm Karl (2016) during Extratropical Transition

2019

Abstract Extratropical transition (ET) of tropical cyclones involves distinct changes of the cyclone’s structure that are not yet well understood. This study presents for the first time a comprehensive Lagrangian description of structure change near the inner core. A large sample of trajectories is computed from a convection-permitting numerical simulation of the ET of Tropical Storm Karl (2016). Three main airstreams are considered: those associated with the inner-core convection, inner-core descent, and the developing warm conveyor belt. Analysis of these airstreams is performed both in thermodynamic and physical space. Prior to ET, Karl is embedded in weak vertical wind shear and its int…

Atmospheric Science010504 meteorology & atmospheric sciencesAirflow020207 software engineering02 engineering and technology01 natural sciencesDeep convectionsymbols.namesakeClimatologyLatent heat0202 electrical engineering electronic engineering information engineeringExtratropical cyclonesymbolsEnvironmental scienceCycloneTropical cycloneLagrangian0105 earth and related environmental sciencesMonthly Weather Review
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Mean Radiant Temperature Measurements through Small Black Globes under Forced Convection Conditions

2021

One of the most critical variables in the field of thermal comfort measurements is the mean radiant temperature which is typically measured with a standard 150 mm black globe thermometer. This is also the reference instrument required for the assessment of heat stress conditions by means of the well-known Wet Bulb Globe Temperature index (WBGT). However, one of the limitations of this method is represented by the relatively long response time. This is why in recent years there has been a more and more pressing need of smart sensors for controlling Heating Ventilation and Air Conditioning (HVAC) systems, and for pocket heat stress meters (e.g., WBGT meters provided with table tennis balls). …

Atmospheric Science010504 meteorology & atmospheric sciencesthermal comfortWet-bulb globe temperature0211 other engineering and technologiesEnclosure02 engineering and technologyEnvironmental Science (miscellaneous)Heat stre01 natural sciencesheat stressmean radiant temperatureMeteorology. ClimatologyHVACRadiative transfer021108 energyMean radiant temperature0105 earth and related environmental sciencesbusiness.industryThermal comfortMechanicsmean radiant temperature; globe temperature; thermal comfort; heat stress; WBGT; Predicted Heat Strain (PHS); smart sensorsForced convectionGlobe temperature; Heat stress; Mean radiant temperature; Predicted Heat Strain (PHS); Smart sensors; Thermal comfort; WBGTSmart sensorPredicted Heat Strain (PHS)Thermometersmart sensorsglobe temperatureEnvironmental scienceQC851-999WBGTbusinessAtmosphere
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Radiative surface temperature and convective flux calculation over crop canopies

1988

The analysis presented in this paper aims at a better understanding of the potential role of radiative temperature, as measured by a radiometer over crops, in sensible heat flux calculation. Defining radiative temperature as the mean temperature of the surfaces viewed by the radiometer (leaves and soil surface) and assuming that an Ohm's law type formula can be used to express sensible heat flux as a function of the difference between air temperature and radiative temperature, the aerodynamic resistance which divides this temperature difference has been analytically defined. The parameters which appear in the resistance expression depend essentially on wind velocity and canopy structure but…

Atmospheric ScienceCOUVERT VEGETAL010504 meteorology & atmospheric sciencesMeteorologyPlanetary boundary layer[SDV]Life Sciences [q-bio]Sensible heat01 natural sciencesPhysics::GeophysicsRadiative fluxRadiative transferMean radiant temperatureFLUX THERMIQUEPhysics::Atmospheric and Oceanic PhysicsComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciencesTEMPERATURE DE SURFACEPhysicsRadiometerBIOCLIMATOLOGIE04 agricultural and veterinary sciencesMechanicsMODELISATION[SDV] Life Sciences [q-bio]Heat fluxCONVECTIONHeat transfer040103 agronomy & agriculture0401 agriculture forestry and fisheries
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The Monotone Area-preserving Flux-Form Advection Algorithm: Reducing the Time-splitting Error in Two-Dimensional Flow Fields

1993

Atmospheric ScienceMonotone polygonAdvectionMathematical analysisTwo-dimensional flowFluxGeometryConvection–diffusion equationFlow fieldMathematicsMonthly Weather Review
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Variability of the African convection centre as viewed by outgoing longwave radiation records and relationships with sea-surface temperature patterns

1995

International audience; The main African convection centre (ACC) is delimited by the 5"-square areas with outgoing longwave radiation less than 235 W m-' in the domain 17.5°N-17.5"S and 18"W-46"E. Four parameters (latitude and longitude of the centre of gravity, mean intensity, and extension) were analysed during the period June 1974 to December 1991. The relationships between the variability of the ACC and the main sea-surface temperature (SST) patterns were then studied. Correlation and composite analyses demonstrate that the first principal component of SST, representing mainly the variability of the eastern and the central tropical Pacific, is associated strongly with the extension and …

Atmospheric radiationTropical pacificConvection[SDU.OCEAN]Sciences of the Universe [physics]/Ocean AtmosphereAtmospheric Science010504 meteorology & atmospheric sciences0207 environmental engineeringOLR02 engineering and technologyConvection01 natural sciencesLatitudeSea surface temperaturesea surface temperature13. Climate actionAtmospheric convection[SDU.STU.CL]Sciences of the Universe [physics]/Earth Sciences/ClimatologyClimatologyAfricaOutgoing longwave radiation020701 environmental engineeringBoreal summerGeologyComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciences
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Adaptive discontinuous evolution Galerkin method for dry atmospheric flow

2014

We present a new adaptive genuinely multidimensional method within the framework of the discontinuous Galerkin method. The discontinuous evolution Galerkin (DEG) method couples a discontinuous Galerkin formulation with approximate evolution operators. The latter are constructed using the bicharacteristics of multidimensional hyperbolic systems, such that all of the infinitely many directions of wave propagation are considered explicitly. In order to take into account multiscale phenomena that typically appear in atmospheric flows nonlinear fluxes are split into a linear part governing the acoustic and gravitational waves and a nonlinear part that models advection. Time integration is realiz…

Backward differentiation formulasteady statesPhysics and Astronomy (miscellaneous)Wave propagationdry atmospheric convectionlarge time stepsystems of hyperbolic balance lawssymbols.namesakeDiscontinuous Galerkin methodApplied mathematicsevolution Galerkin schemesGalerkin methodMathematicssemi-implicit approximationNumerical AnalysisAdaptive mesh refinementApplied MathematicsEuler equationsRiemann solverComputer Science ApplicationsEuler equationsComputational MathematicsNonlinear systemClassical mechanicsModeling and SimulationsymbolsJournal of Computational Physics
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Thermomagnetic Materials: Thermomagnetic Properties Improved by Self-Organized Flower-Like Phase Separation of Ferromagnetic Co2Dy0.5Mn0.5Sn (Adv. Fu…

2012

BiomaterialsMaterials scienceCondensed matter physicsFerromagnetismFlower likeElectrochemistryThermomagnetic convectionCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsAdvanced Functional Materials
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Theoretical study of a Bénard Marangoni problem

2011

[EN] In this paper we prove the existence of strong solutions for the stationary Benard-Marangoni problem in a finite domain flat on the top, bifurcating from the basic heat conductive state. The Benard-Marangoni problem is a physical phenomenon of thermal convection in which the effects of buoyancy and surface tension are taken into account. This problem is modelled with a system of partial differential equations of the type Navier-Stokes and heat equation. The boundary conditions include crossed boundary conditions involving tangential derivatives of the temperature and normal derivatives of the velocity field. To define tangential derivatives at the boundary, intended in the trace sense,…

Bénard–Marangoni problemPartial differential equationMarangoni effectIncompressible Boussinesq–Navier–Stokes equationsApplied MathematicsMathematical analysisBoundary (topology)INGENIERIA AEROESPACIALWeak formulationDomain (mathematical analysis)Physics::Fluid DynamicsIncompressible Boussinesq-Navier-Stokes equationsFluid dynamicsFree boundary problemThermal convectionBenard-Marangoni problemHeat equationBifurcationBoundary value problemAnalysisMathematics
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Thermomagnetic Properties Improved by Self-Organized Flower-Like Phase Separation of Ferromagnetic Co2Dy0.5Mn0.5Sn

2012

A thermodynamically stable phase separation of Co2Dy0.5Mn0.5Sn into the Heusler compound Co2MnSn and Co8Dy3Sn4 is induced by rapid cooling from the liquid phase. The phase separation forms an ordered flower-like structure on the microscale. The increased scattering of phonons at the phase boundaries reduces the thermal conductivity and thus improves thermoelectric and spincaloric properties.

ChromatographyMaterials scienceCondensed matter physicsScatteringThermomagnetic convectionengineering.materialCondensed Matter PhysicsHeusler compoundElectronic Optical and Magnetic MaterialsBiomaterialsCondensed Matter::Materials ScienceThermal conductivityFerromagnetismPhase (matter)Thermoelectric effectElectrochemistryengineeringCondensed Matter::Strongly Correlated ElectronsMicroscale chemistryAdvanced Functional Materials
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Linear relationship between effective radius and precipitation water content near the top of convective clouds

2021

Quantifying the precipitation within clouds is a crucial challenge to improve our current understanding of the Earth’s hydrological cycle. We have investigated the relationship between the effective radius of droplets and ice particles (re) and precipitation water content (PWC) measured by cloud probes near the top of growing convective cumuli. The data for this study were collected by aircraft measurements in clean and polluted conditions over the Amazon Basin and over the western tropical Atlantic in September 2014. Our results indicate a threshold of re ∼ 13 μm for warm rain initiation in convective clouds, which is in agreement with previous studies. In…

Coalescence (physics)Effective radiusConvection010504 meteorology & atmospheric sciencesAccretion (meteorology)clouds15. Life on landTropical AtlanticprecipitationAtmospheric sciences01 natural sciences13. Climate actionEnvironmental scienceCloud condensation nucleiDrizzleWater cycleconvection0105 earth and related environmental sciences
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