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Engineering
Chemical Engineering
Chemical Process Principles
1. Introduction to Chemical Engineering and Process Analysis
2. Material Balances on Non-Reactive Systems
3. Material Balances on Reactive Systems
4. Properties of Single-Phase Systems
5. Multiphase Systems
6. Energy and Energy Balances
7. Energy Balances on Reactive Systems
8. Combined Material and Energy Balances
9. Unsteady-State Material and Energy Balances
Properties of Single-Phase Systems
Ideal Gas Behavior
The Ideal Gas Law
Assumptions and Limitations
Applications and Calculations
Standard Temperature and Pressure
STP Definitions
Standard Molar Volume
Ideal Gas Mixtures
Dalton's Law of Partial Pressures
Partial Pressure Calculations
Mole Fraction Relationships
Amagat's Law of Partial Volumes
Partial Volume Calculations
Volume Fraction Relationships
Gas Density and Molecular Weight
Average Molecular Weight
Gas Density Calculations
Real Gas Behavior
Deviations from Ideality
High Pressure Effects
Low Temperature Effects
The Compressibility Factor
Definition and Physical Meaning
Compressibility Charts
Calculation Methods
Principle of Corresponding States
Reduced Properties
Reduced Temperature
Reduced Pressure
Reduced Volume
Generalized Compressibility Charts
Critical Properties
Equations of State
Virial Equations
Second Virial Coefficient
Third Virial Coefficient
Cubic Equations of State
van der Waals Equation
Soave-Redlich-Kwong Equation
Peng-Robinson Equation
Parameter Estimation
Mixing Rules for Mixtures
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3. Material Balances on Reactive Systems
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5. Multiphase Systems