Heat And Mass Transfer

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Heat And Mass Transfer

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Mechanical Engineering
Heat And Mass Transfer

CONCEPT OF MECHANISM OF HEAT FLOW

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

STEADY STATE 2-DIM HEAT CONDUCTION

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

INTRODUCTION TO CONVECTION

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

BOILING AND CONDENSATION

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

THERMAL RADIATION

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