Search results for "Thermodynamic process"

showing 8 items of 8 documents

Modeling of Elemental Species

2005

ChemistryThermodynamicsThermodynamic process

Interface thermodynamic model for low pressure evaporation

1979

Materials scienceInterface (Java)[SPI] Engineering Sciences [physics]EvaporationGeneral Physics and AstronomyThermodynamics02 engineering and technologyGeneral ChemistryThermodynamic databases for pure substances[SPI.FLUID] Engineering Sciences [physics]/Reactive fluid environment021001 nanoscience & nanotechnology01 natural sciencesThermodynamic system010406 physical chemistry0104 chemical sciencesThermodynamic modelThermodynamic diagrams0210 nano-technologyMaterial propertiesThermodynamic process

researchProduct

Fractional-Order Thermal Energy Transport for Small-Scale Engineering Devices

2014

Fractional-order thermodynamics has proved to be an efficient tool to describe several small-scale and/or high-frequency thermodynamic processes, as shown in many engineering and physics applications. The main idea beyond fractional-order physics and engineering relies on replacing the integer-order operators of classical differential calculus with their real-order counterparts. In this study, the authors aim to extend a recently proposed physical picture of fractional-order thermodynamics to a generic 3D rigid heat conductor where the thermal energy transfer is due to two phenomena: a short-range heat flux ruled by stationary and nonstationary transport equations, and a long-range thermal …

PhysicsFundamental thermodynamic relationbusiness.industryMechanical EngineeringNon-equilibrium thermodynamicsThermodynamic equationsThermodynamic systemThermodynamic free energyLong-range energy transport Fractional calculus Phonons transport Fractional heat transfer Kapitza effectStatistical physicsSettore ICAR/08 - Scienza Delle CostruzionibusinessTransport phenomenaThermal energyThermodynamic processJournal of Nanomechanics and Micromechanics

researchProduct

Gibbs equation in the nonlinear nonequilibrium thermodynamics of dilute nonviscous gases

2003

AbstractThis paper deals with the derivation of the Gibbs equation for a nonviscous gas in the presence of heat flux. The analysis aims to shed some light on the physical interpretation of thermodynamic potentials far from equilibrium. Two different definitions for the chemical potential and thermodynamic pressure far from equilibrium are introduced: nonequilibrium chemical potential and nonequilibrium thermodynamic pressure at constant heat flux q and nonequilibrium chemical potential and nonequilibrium thermodynamic pressure at constant J = Vq, where V is the specific volume.

Thermodynamic stateThermodynamic equilibriumApplied MathematicsNonequilibrium thermodynamic potentialsThermodynamicsThermodynamic databases for pure substancesNonequilibrium thermodynamicsThermodynamic equationsThermodynamic systemExtended thermodynamicsThermodynamic potentialsymbols.namesakeGibbs equationGibbs–Helmholtz equationsymbolsKinetic theoryMathematicsThermodynamic processApplied Mathematics Letters

researchProduct

A non-local model of thermal energy transport: The fractional temperature equation

2013

Abstract Non-local models of thermal energy transport have been used in recent physics and engineering applications to describe several “small-scale” and/or high frequency thermodynamic processes as shown in several engineering and physics applications. The aim of this study is to extend a recently proposed fractional-order thermodynamics ( [5] ), where the thermal energy transfer is due to two phenomena: A short-range heat flux ruled by a local transport equation; a long-range thermal energy transfer that represents a ballistic effects among thermal energy propagators. Long-range thermal energy transfer accounts for small-scale effects that are assumed proportional to the product of the in…

Fluid Flow and Transfer ProcessesPhysicsField (physics)business.industryMechanical EngineeringNon-local thermal energy transportFractional calculuCondensed Matter PhysicsThermal conductionFractional calculusTemperature fieldLong-range heat transportHeat fluxGeneralized entropyHeat transferStatistical physicsSettore ICAR/08 - Scienza Delle CostruzioniConvection–diffusion equationbusinessSettore MAT/07 - Fisica MatematicaThermal energyThermodynamic processInternational Journal of Heat and Mass Transfer

researchProduct

A bending theory of thermoelastic diffusion plates based on Green-Naghdi theory

2017

Abstract This article is concerned with bending plate theory for thermoelastic diffusion materials under Green-Naghdi theory. First, we present the basic equations which characterize the bending of thin thermoelastic diffusion plates for type II and III models. The theory allows for the effect of transverse shear deformation without any shear correction factor, and permits the propagation of waves at a finite speed without energy dissipation for type II model and with energy dissipation for type III model. By the semigroup theory of linear operators, we prove the well-posedness of the both models and the asymptotic behavior of the solutions of type III model. For unbounded plate of type III…

Bending thermoelastic diffusion platesFOS: Physical sciencesGeneral Physics and Astronomy02 engineering and technologyAsymptotic behavior; Bending thermoelastic diffusion plates; Green-Naghdi theory; Impossibility of the localization in time; Spatial decay; Well-posednessMathematics - Analysis of PDEsThermoelastic damping0203 mechanical engineeringFOS: MathematicsGeneral Materials ScienceUniquenessMathematical PhysicsMathematicsThermodynamic processGreen-Naghdi theorySemigroupSpatial decayMechanical EngineeringMathematical analysisMathematical Physics (math-ph)Dissipation021001 nanoscience & nanotechnologyAsymptotic behaviorExponential function020303 mechanical engineering & transportsClassical mechanicsShear (geology)Well-posednessMechanics of MaterialsPlate theory0210 nano-technologyImpossibility of the localization in timeAnalysis of PDEs (math.AP)

researchProduct

Criteria for validity of thermodynamic equations from non-equilibrium molecular dynamics simulations

2008

Abstract The assumption of local equilibrium is validated in four different systems where heat and mass are transported. Mass fluxes up to 13 kmol / m 2 s and temperature gradients up to 10 12 K / m were used. A two-component mixture, two vapor–liquid interfaces, a chemical reaction in a temperature gradient and gas adsorbed in zeolite were studied using non-equilibrium molecular dynamics simulations. In all cases, we verified that thermodynamic variables obeyed normal thermodynamic relations, with an accuracy better than 5%. The heat and mass fluxes, and the reaction rate were linearly related to the driving forces. Onsager's reciprocal relations were validated for two systems. Equipartiti…

Thermodynamic stateThermodynamic equilibriumChemistryMechanical EngineeringThermodynamicsBuilding and ConstructionThermodynamic equationsPollutionThermodynamic systemMaxwell–Boltzmann distributionBoltzmann equationIndustrial and Manufacturing EngineeringThermodynamic squaresymbols.namesakeGeneral EnergysymbolsElectrical and Electronic EngineeringCivil and Structural EngineeringThermodynamic processEnergy

researchProduct

Constraining the Equation of State of Neutron Stars with Genral Relativity

2005

When a radio pulsar breakes down by virtue of magnetodipole emission, its gravitational mass decreases accordingly. If the pulsar in hosted in a binary system, this mass loss will increase the orbital period of the system. We show that this relativistic effect can be indeed observable if the NS is fast and magnetized enough and that, if observed, it will help to put tight constraints on the equation of state of ultradense matter.

Neutron stars Relativity and gravitation Thermodynamic processes conduction convection equations of state

researchProduct