THERMODYNAMICS LECTURE NOTES

THERMODYNAMICS LECTURE NOTES

CHAPTER 1: THERMODYNAMIC SYSTEMS: BASIC CONCEPTS

ü INTRODUCTION

ü THERMODYNAMIC SYSTEM: SELECT DEFINITIONS

ü TYPES OF ENERGIES ASSOCIATED WITH THERMODYNAMIC PROCESSES

ü THERMODYNAMIC EQUILIBRIUM

ü THE PHASE RULE

ü ZEROTH LAW OF THERMODYNAMICS AND ABSOLUTE TEMPERATURE

ü THE IDEAL GAS

ü STATE AND PATH DEPENDENT THERMODYNAMIC VARIABLES

ü REVERSIBLE AND IRREVERSIBLE THERMODYNAMIC PROCESSES

ü SIGNIFICANCE OF CHEMICAL ENGINEERING THERMODYNAMICS: PROCESS PLANT SCHEME

CHAPTER 2: VOLUMETRIC PROPERTIES OF REAL FLUIDS

ü GENERAL P-V-T BEHAVIOUR OF REAL FLUIDS

ü ORIGINS OF DEVIATION FROM IDEAL GAS BEHAVIOUR

ü EQUATIONS OF STATE FOR REAL FLUIDS

ü VOLUMETRIC PROPERTIES OF MIXTURES

ü PROPERTY REPRESENTATION OF 2-PHASE SYSTEMS:

ü HEAT EFFECTS OF PHASE CHANGE

CHAPTER 3: FIRST LAW OF THERMODYNAMICS

ü CONCEPT OF INTERNAL ENERGY

ü THE FIRST LAW OF THERMODYNAMICS

ü APPLICATION OF THE FIRST LAW TO CLOSED SYSTEMS

ü APPLICATION OF THE FIRST LAW TO OPEN SYSTEMS

ü MEASUREMENT OF ENTHALPY AND INTERNAL ENERGY USING FLOW CALORIMETER

CHAPTER 4: SECOND LAW OF THERMODYNAMICS

ü HEAT ENGINES AND SECOND LAW STATEMENTS

ü SECOND LAW STATEMENTS

ü CARNOT HEAT ENGINE CYCLE AND THE 2^ND LAW

ü ENTROPY CALCULATIONS FOR IDEAL GASES

ü MATHEMATICAL STATEMENT OF THE 2^ND LAW:

ü ENTROPY BALANCE FOR OPEN SYSTEMS

ü IDEAL AND LOST WORK FOR FLOW SYSTEMS

CHAPTER 5 THERMODYNAMIC PROPERTIES OF REAL FLUIDS

ü THERMODYNAMIC PROPERTY RELATIONS FOR SINGLE PHASE SYSTEMS

ü MAXWELL RELATIONS

ü RELATIONS FOR ENTHALPY, ENTROPY AND INTERNAL ENERGY

ü RESIDUAL PROPERTY RELATIONS

ü RESIDUAL PROPERTY CALCULATIONS FROM EOS

ü GENERALIZED CORRELATIONS FOR COMPUTING DH AND DS FOR A REAL GAS

ü COMPUTATION OF ΔH AND ΔS FOR A GAS USING GENERALIZED DEPARTURE FUNCTIONS

ü EXTENSION TO GAS MIXTURES

ü RELATIONS FOR ΔH AND ΔS FOR LIQUIDS

ü APPLICATIONS TO REAL FLUID PROCESSES IN PROCESS PLANT EQUIPMENTS

CHAPTER 6: SOLUTION THERMODYNAMICS AND PRINCIPLES OF PHASE EQUILIBRIA

ü PARTIAL MOLAR PROPERTY

ü PARTIAL PROPERTIES FOR BINARY SOLUTIONS

ü CRITERIA OF THERMODYNAMIC EQUILIBRIUM

ü IDEAL GAS MIXTURES AND LIQUID SOLUTIONS

ü EXCESS PROPERTIES

ü FUGACITY-BASED PHASE EQUILIBRIUM CRITERION FOR PURE COMPONENT SYSTEM

ü FUGACITY EXPRESSIONS FOR PURE GASES

CHAPTER 7 VAPOUR-LIQUID EQUILIBRIA

ü INTRODUCTION

ü SINGLE COMPONENT SYSTEM PHASE EQUILIBRIA

ü DERIVATION OF THE PHASE RULE

ü DESCRIPTION OF GENERAL VLE BEHAVIOR

ü RAOULT’S LAW FOR VLE

ü VLE ALGORITHMS FOR LOW TO MODERATE PRESSURES

ü HIGH PRESSURE VAPOUR LIQUID EQUILIBRIA

ü HENRY’S LAW

CHAPTER 8: CHEMICAL REACTION EQUILIBRIA

ü INTRODUCTION

ü STANDARD ENTHALPY AND GIBBS FREE ENERGY OF REACTION

ü THE REACTION COORDINATE

ü CRITERIA FOR CHEMICAL REACTION EQUILIBRIUM

ü THE EQUILIBRIUM CONSTANT OF REACTIONS

ü REACTIONS INVOLVING GASEOUS SPECIES

ü REACTION EQUILIBRIA FOR SIMULTANEOUS REACTIONS

ü REACTIONS INVOLVING LIQUIDS AND SOLIDS

CHAPTER 9: OTHER TOPICS IN PHASE EQUILIBRIA

ü LIQUID-LIQUID EQUILIBRIA (LLE)

ü SOLID-LIQUID EQUILIBRIA

ü SOLID-VAPOUR EQUILIBRIUM

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