Heat And Mass Transfer
CONCEPT OF MECHANISM OF HEAT FLOW
STEADY STATE 2-DIM HEAT CONDUCTION
INTRODUCTION TO CONVECTION
BOILING AND CONDENSATION
THERMAL RADIATION
- CONCEPT OF MECHANISM OF HEAT FLOW
- CONDUCTION
- CONVECTION
- RADIATION
- RELATIONSHIP TO THE FIRST LAW OF THERMODYNAMICS
- CONSERVATION OF TOTAL ENERGY
- THE SURFACE ENERGY BALANCE
- RELATIONSHIP TO THE SECOND LAW OF THERMODYNAMICS AND THE EFFICIENCY OF HEAT ENGINES
- UNITS AND DIMENSIONS
- ANALYSIS OF HEAT TRANSFER PROBLEMS: METHODOLOGY
- INTRODUCTION TO CONDUCTION
- THE CONDUCTION RATE EQUATION
- THE THERMAL PROPERTIES OF MATTER
- THE THERMAL PROPERTIES OF THE SOLID STATE
- THE SOLID STATE: MICRO- AND NANO-SCALE EFFECTS
- THE FLUID STATE
- OTHER RELEVANT PROPERTIES
- THE HEAT DIFFUSION EQUATION
- CYLINDRICAL COORDINATES
- MICRO SCALE EFFECTS
- BOUNDARY AND INITIAL CONDITIONS
- STEADY STATE ONE-DIMENSIONAL HEAT CONDUCTION
- PLANE WALL
- THERMAL RESISTANCE
- THE COMPOSITE WALL
- CONTACT RESISTANCE
- POROUS MEDIA
- AN ALTERNATIVE CONDUCTION ANALYSIS
- RADIAL SYSTEMS IN CYLINDER
- RADIAL SYSTEM IN SPHERE
- CONDUCTION WITH THERMAL ENERGY GENERATION
- HEAT TRANSFER FROM EXTENDED SURFACES
- A GENERAL CONDUCTION ANALYSIS
- FINS OF UNIFORM CROSS-SECTIONAL AREA
- FIN PERFORMANCE
- FINS OF NON-UNIFORM CROSS-SECTIONAL AREA
- EFFICIENCY OF COMMON FIN SHAPES
- OVERALL SURFACE EFFICIENCY
- THE BIO-HEAT EQUATION
- THERMOELECTRIC POWER GENERATION
- CONDUCTION THROUGH THIN GAS LAYERS
- ALTERNATIVE APPROACHES
- THE CONDUCTION SHAPE FACTOR AND THE DIMENSIONLESS CONDUCTION HEAT RATE
- CONDUCTION SHAPE FACTORS AND DIMENSIONLESS CONDUCTION HEAT RATES FOR SELECTED SYSTEMS
- FINITE-DIFFERENCE EQUATIONS
- FINITE-DIFFERENCE FORM OF THE HEAT EQUATION
- THE ENERGY BALANCE METHOD
- FORMULATION OF THE FINITE-DIFFERENCE EQUATION
- NODAL FINITE-DIFFERENCE EQUATIONS
- FORMULATION AS A MATRIX EQUATION
- VERIFYING THE ACCURACY OF THE SOLUTION
- TRANSIENT CONDUCTION
- THE LUMPED CAPACITANCE METHOD
- VALIDITY OF THE LUMPED CAPACITANCE METHOD
- GENERAL LUMPED CAPACITANCE ANALYSIS
- RADIATION ONLY IN TRANSIENT CONDUCTION
- NEGLIGIBLE RADIATION IN TRANSIENT CONDUCTION
- CONVECTION ONLY WITH VARIABLE CONVECTION COEFFICIENT
- THE PLANE WALL WITH CONVECTION (EXACT SOLUTION)
- THE PLANE WALL WITH CONVECTION (APPROXIMATE SOLUTION)
- TOTAL ENERGY TRANSFER
- RADIAL SYSTEMS WITH CONVECTION (EXACT SOLUTIONS)
- RADIAL SYSTEMS WITH CONVECTION APPROXIMATE SOLUTIONS
- THE SEMI-INFINITE SOLID
- OBJECTS WITH CONSTANT SURFACE TEMPERATURES OR SURFACE HEAT FLUXES
- CONSTANT HEAT FLUX BOUNDARY CONDITIONS
- TRANSIENT HEAT TRANSFER RESULTS FOR CONSTANT SURFACE TEMPERATURE CASES
- PERIODIC HEATING
- FINITE-DIFFERENCE METHODS
- TRANSIENT, TWO-DIMENSIONAL FINITE-DIFFERENCE EQUATIONS
- DISCRETIZATION OF THE HEAT EQUATION: THE IMPLICIT METHOD
- THE CONVECTION BOUNDARY LAYERS
- THE THERMAL BOUNDARY LAYER
- THE CONCENTRATION BOUNDARY LAYER
- LOCAL AND AVERAGE CONVECTION COEFFICIENTS (HEAT TRANSFER)
- LOCAL AND AVERAGE CONVECTION COEFFICIENTS (MASS TRANSFER)
- THE PROBLEM OF CONVECTION
- LAMINAR AND TURBULENT FLOW
- LAMINAR AND TURBULENT THERMAL AND SPECIES CONCENTRATION BOUNDARY LAYERS
- COMPARISON OF LAMINAR AND TURBULENT FLOW
- THE BOUNDARY LAYER EQUATIONS
- BOUNDARY LAYER SIMILARITY: THE NORMALIZED BOUNDARY LAYER EQUATIONS
- FUNCTIONAL FORM
- SELECTED DIMENSIONLESS GROUPS OF HEAT AND MASS TRANSFER
- BOUNDARY LAYER ANALOGIES
- EVAPORATIVE COOLING
- THE REYNOLDS ANALOGY
- LAMINAR FLOW OVER AN ISOTHERMAL PLATE
- FLAT PLATE LAMINAR BOUNDARY LAYER FUNCTIONS
- AVERAGE BOUNDARY LAYER PARAMETERS
- TURBULENT FLOW OVER AN ISOTHERMAL PLATE
- MIXED BOUNDARY LAYER CONDITIONS
- UNHEATED STARTING LENGTH
- FLAT PLATES WITH CONSTANT HEAT FLUX CONDITIONS
- METHODOLOGY FOR A CONVECTION CALCULATION
- THE CYLINDER IN CROSS FLOW
- CONVECTION IN SPHERE
- FLOW ACROSS BANKS OF TUBES
- IMPINGING JETS
- PACKED BEDS
- THE GOVERNING EQUATIONS FOR LAMINAR BOUNDARY LAYERS
- DIMENSIONLESS PARAMETERS IN BOILING AND CONDENSATION
- BOILING MODES
- THE BOILING CURVE
- MODES OF POOL BOILING
- POOL BOILING CORRELATIONS
- CRITICAL HEAT FLUX FOR NUCLEATE POOL BOILING
- PARAMETRIC EFFECTS ON POOL BOILING
- FORCED CONVECTION BOILING
- TWO-PHASE FLOW
- CONDENSATION: PHYSICAL MECHANISMS
- LAMINAR FILM CONDENSATION ON A VERTICAL PLATE
- TURBULENT FILM CONDENSATION
- FILM CONDENSATION ON RADIAL SYSTEMS
- CONDENSATION IN HORIZONTAL TUBES
- DROPWISE CONDENSATION
- HEAT EXCHANGER TYPES
- HEAT EXCHANGER CONFIGURATION
- THE OVERALL HEAT TRANSFER COEFFICIENT
- HEAT EXCHANGER ANALYSIS
- THE PARALLEL-FLOW HEAT EXCHANGER
- THE COUNTER FLOW HEAT EXCHANGER
- THE EFFECTIVENESS–NTU METHOD
- HEAT EXCHANGER EFFECTIVENESS RELATIONS
- HEAT EXCHANGER DESIGN AND PERFORMANCE CALCULATIONS
- FUNDAMENTAL CONCEPTS
- ELECTROMAGNETIC RADIATION
- RADIATION HEAT FLUXES
- RADIATION INTENSITY (MATHEMATICAL DEFINITIONS)
- RADIATION INTENSITY AND ITS RELATION TO EMISSION
- RELATION TO IRRADIATION
- BLACKBODY RADIATION
- THE PLANCK DISTRIBUTION
- WIEN’S DISPLACEMENT LAW
- THE STEFAN–BOLTZMANN LAW
- BAND EMISSION
- EMISSION FROM REAL SURFACES
- ABSORPTION, REFLECTION, AND TRANSMISSION BY REAL SURFACES
- ABSORPTIVITY
- REFLECTIVITY
- TRANSMISSIVITY
- KIRCHHOFF’S LAW
- THE GRAY SURFACE
- ENVIRONMENTAL RADIATION
- THE ATMOSPHERIC RADIATION BALANCE
- RADIATIVE TERMS