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1.
严格而言,流体力学中所有守恒定律均是针对物质体系的(或称流体系统),如质量、动量、动量矩和能量等守恒定律。如果跟随物质体系描述和表征流体质点系的运动行为,即为Lagrange描述方法;如果把物质体系的运动和守恒定律转换到空间坐标系中,即为人们常说的Euler描述方法。因此,对于具体考察(跟随的)的流体物质系统而言,各守恒定律存在由物质体系表征到空间体系表征的转换,这个转换关系就是著名的Reynolds输运方程。本文从动边界微积分关系式出发,系统推导了在不同运动速度控制体上的雷诺输运方程,并通过讨论进一步阐明各种不同形式输运方程的物理意义。  相似文献   

2.
In this paper, a general framework of continuum theory for a growing deformable body is established. Firstly, the so-called material accretion derivative is defined. Based on this definition, a general form of the equilibrium equation and its growing boundary condition describing motion of the growing deformable body are deduced in detail. From the process of deduction, the concept of coupling function of growth is derived, which reflects the influence of the accretive boundary surface. Then, the equilibrium equations, including the equation of mass, momentum, moment of momentum and energy, are discussed. Also, the entropy inequality is given according to the assumption of local equilibrium of non-equilibrium thermodynamics. In the meantime, the related constitutive equations are deduced. All these equations constitute a group of closed equations characterizing the growth and motion of the body.  相似文献   

3.
IntroductionThisworkisadirectcontinuationandasupplementofRefs .[1~8] .InRefs.[1~8]thecoupledbalancelawsandequationsofmomentum ,angularmomentumandenergyaswellasthenewHamiltonprinciple,principleofvirtualpowerandNoethertheoremhavebeenpresented .However,thecoupledconservationlawsofmassandinertiahavenotbeenreestablishedyet.Thepurposeofthispaperistoreestablishtheconservationlawsandequationsofmassandinertiaandtocombinethemwiththecoupledbalancelawsandequationsofmomentum ,angularmomentum ,energyand…  相似文献   

4.
An important class of gels are those composed of a polymer network and fluid solvent. The mechanical and rheological properties of these two-fluid gels can change dramatically in response to temperature, stress, and chemical stimulus. Because of their adaptivity, these gels are important in many biological systems, e.g. gels make up the cytoplasm of cells and the mucus in the respiratory and digestive systems, and they are involved in the formation of blood clots. In this study we consider a mathematical model for gels that treats the network phase as a viscoelastic fluid with spatially and temporally varying material parameters and treats the solvent phase as a viscous Newtonian fluid. The dynamics are governed by a coupled system of time-dependent partial differential equations which consist of transport equations for the two phases, constitutive equations for the viscoelastic stresses, two coupled momentum equations for the velocity fields of the two fluids, and a volume-averaged incompressibility constraint. We present a numerical method based on a staggered grid, second order finite-difference discretization of the momentum equations and a high-resolution unsplit Godunov method for the transport equations. The momentum and incompressibility equations are solved in a coupled manner with the Generalized Minimum Residual (GMRES) method using a multigrid preconditioner based on box-relaxation. We present results on the accuracy and robustness of the method together with an illustration of the interesting behavior of this gel model for the four-roll mill problem.  相似文献   

5.
For a one-dimensional dispersive medium the linear momentum of a phonon is discussed in both the Lagrangian and the Eulerian picture, i.e. with the use of substantial (material) and local coordinates, respectively. As phonons are usually considered as solutions of the linearized equations of motion, in the Eulerian picture the linear momentum of a phonon is only defined up to linear terms in the fields. To obtain results relevant towards higher order in the fields, one has to solve the nonlinear equations of motion. This is done to obtain expressions for the linear momentum up to terms quadratic in the fields.  相似文献   

6.
Oldroyd-type constitutive equations can be represented for simple shear flow and various elongational flows by at most three equations, each of which only contains the shear stress or one of the normal-stress differences. These equations are proved to be linear differential equations with respect to the stress values. Uniform modes of representation can be established for the basic equations of elongational flow as well as shear flow. These basic equations are of advantage in using the viscoelastic constitutive equations. A model analysis can be carried out most clearly in dimensionless form. When used as material functions, uniform representation is of advantage in parameter identification. In establishing models of real elongational flow processes, constitutive equations and momentum conservation law can be easily combined, as has been demonstrated.  相似文献   

7.
8.
Heat transfer and fluid flow processes of natural convection melting of a phase change material are simulated numerically inside a partially heated square cavity. The momentum and energy equations are solved by using enthalpy-based lattice Boltzmann method combined with multi distribution function model. In this communication, the dependence of liquid fraction, temperatures of vertical nodes and average Nusselt number on the positions of heated plates is investigated quantitatively.  相似文献   

9.
A set of equations governing the consolidation of a two-phase medium consisting of a porous elastic skeleton saturated with a highly compressible liquid (gas), is described. The homogenization method was utilized to deduce the equations. For the equivalent macroscopic medium, mass and momentum conservation equations and the flow equation of pore liquid are presented. Sample material constants were calculated using laboratory test results which were carried out at the Institute of Geotechnics, Technical University of Wroclaw.  相似文献   

10.
The purpose is to reestablish the coupled conservation laws, the local conservation equations and the jump conditions of mass and inertia for polar continuum theories. In this connection the new material derivatives of the deformation gradient, the line element, the surface element and the volume element were derived and the generalized Reynolds transport theorem was presented. Combining, these conservation laws of mass and inertia with the balance laws of momentum, angular momentum and energy derived in our previous papers of this series, a rather complete system of coupled basic laws and principles for polar continuum theories is constituted on the whole. From this system the coupled nonlocal balance equations of mass, inertia, momentum, angular momentum and energy may be obtained by the usual localization. Contributed by DAI Tian-min, Original Member of Editorial Committee, AMM Foundation items: the National Natural Science Foundation of China (10072024); the Research Foundation of Liaoning Education Committee (990111001) Biography: DAI Tian-min (1931≈)  相似文献   

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