热流科学与工程西步文医大学C教育部重点实验室NumericalHeatTransfer(数值传热学)Chapter1 IntroductionInstructorTao,Wen-OuanKeyLaboratoryofThermo-FluidScience&EngineeringInt.JointResearchLaboratoryof Thermal Science&EngineeringXi'anJiaotongUniversityInnovativeHarborofWestChina,Xian2022-Sept-17CFD-NHT-EHTG1/57CENTER
1/57 Instructor Tao, Wen-Quan Key Laboratory of Thermo-Fluid Science & Engineering Int. Joint Research Laboratory of Thermal Science & Engineering Xi’an Jiaotong University Innovative Harbor of West China, Xian 2022-Sept-17 Numerical Heat Transfer (数值传热学) Chapter 1 Introduction
热流科学与工程西步文通大堂E教育部重点实验室ContentsofChapter1(数学描述)of1.1Mathematicalformulationheattransferandfluidflow (HT&FF)problems1.2Basic conceptsof NHT,itsimportance andapplicationexamples1.3Mathematical and physical classificationofHT&FFproblemsanditseffectsonnumericalsolution中CFD-NHT-EHT2/57CENTER
2/57 1.1 Mathematical formulation (数学描述)of heat transfer and fluid flow (HT & FF) problems 1.2 Basic concepts of NHT, its importance and application examples 1.3 Mathematical and physical classification of HT & FF problems and its effects on numerical solution Contents of Chapter 1
热流科学与工程西步文源大堂E教育部重点实验室1.1 Mathematicalformulationofheat transferandfluidflow(HT&FF)problemsand their1.1.1Governing equations(控制方程)general form1.Massconservation2.Momentum conservation3.Energy conservation4. General form1.1.2 Conditions for unique solution (唯一解)1.1.3Exampleof mathematicalformulation中CFD-NHT-EHT3/57CENTER
3/57 1.1 Mathematical formulation of heat transfer and fluid flow (HT & FF) problems 1.1.1 Governing equations (控制方程)and their general form 1.1.2 Conditions for unique solution(唯一解) 1.1.3 Example of mathematical formulation 1. Mass conservation 2. Momentum conservation 3. Energy conservation 4. General form
热流科学与工程西步文源大堂G教育部重点实验室1.1 Mathematical formulation of heat transfer andfluidflow(HT&FF)problemsAllmacro-scale(宏观)HT&FFproblemsaregoverned by three conservation laws: mass, momentumandenergyconservationlaw(守恒定律)The differences between different problems are in:conditions for the unique solution(唯一解):initial(初始的)&boundaryconditions,physicalpropertiesandsourceterms1.1.1Governing equations and their general form1.Mass conservation(pu)a(pv)a(pw)p0OzataxayCFD-NHT-EHTG4/57CENTER
4/57 1.1 Mathematical formulation of heat transfer and fluid flow (HT & FF) problems All macro-scale (宏观)HT & FF problems are governed by three conservation laws:mass, momentum and energy conservation law (守恒定律). The differences between different problems are in: conditions for the unique solution(唯一解):initial (初始的)& boundary conditions, physical properties and source terms. 1.1.1 Governing equations and their general form 1. Mass conservation ( ) ( ) ( ) 0 u v w t x y z
热流科学与工程西步文源大学E教育部重点实验室diy"is themathematicaldysymbol for divergence(散度)a(pw)apa(pv)a(pu)div(pu)+ div(pU)= 0azaxdyatFor incompressible fluid(不可压缩流体)OuOvowdiv(U) = 0CaxOzdyflow without source and sink(没有源与汇的流动)。CFD-NHT-EHTΦ5/57CENTER
5/57 div U ( ) 0 t For incompressible fluid(不可压缩流体): ( ) 0 ; 0 u v w div U x y z flow without source and sink (没有源与汇的流动)。 ( ) ( ) ( ) ( )= u v w div U x y z ( ) 0, 0 u v w div U x y z “div” is the mathematical symbol for divergence (散度)