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Lecture
Chemical Engineering Fundamentals
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Related lectures (27)
Chemical Engineering Fundamentals
Covers material and energy balances, properties of mixtures, and the formation of liquid solutions.
Flash Drum: Principles and Mass Balance in Separation Processes
Covers the principles of flash drums and the mass and energy balances involved in separation processes.
Ideal solutions and phase equilibria
Covers the concept of ideal solutions and phase equilibria.
Chemical Potential and Solutions
Explores chemical potential, Gibbs energy, and ideal solutions' properties like colligative effects and vapor pressure lowering.
Solutions Properties: Raoult's Law
Explores Raoult's Law for ideal solutions and Henry's Law for gas solubility.
Gas-Liquid Equilibrium
Explores non-ideal gases, phase transitions, chemical potential, and gas-liquid equilibrium in mixtures.
Osmosis and Van't Hoff Law
Explores osmotic pressure, dilute solutions, and biological applications of osmosis.
Properties of Solutions: Ideal Solutions and Thermodynamics
Explores ideal solutions, thermodynamics of mixtures, chemical potential, and colligative properties of solutions.
Vapor-Liquid Equilibria in Solutions
Explores vapor-liquid equilibria, Raoult's Law, distillation, and temperature effects on boiling points in solutions.
Thermodynamics: Understanding Mixtures and Distillation Processes
Explains thermodynamic principles of mixtures, focusing on distillation and phase behavior of real gases and liquids.
Chemical Equilibria and Reactivity
Covers chemical equilibria, dissolution, solvation, solubility, entropy effects, colligative properties, and osmotic pressure.
Thermodynamic Modeling: Ge-Ni System
Explores thermodynamic modeling of the Ge-Ni binary system, focusing on phase diagrams, enthalpy of mixing, and Gibbs energy.
Equations of Heat and Fourier Transform
Covers heat equations, Fourier transforms, and variable separation methods.
Chemical Equilibria and Reactivity
Explores cohesion rupture, solvation, gas dissolution, and colligative properties in solutions.
Fourier Analysis and PDEs
Explores Fourier analysis, PDEs, historical context, heat equation, Laplace equation, and periodic boundary conditions.
Chemical Equilibria and Reactivity
Delves into the second law of thermodynamics, chemical equilibrium, free enthalpy, activity in mixtures, and the Debye-Hückel equation.
Liquid-Liquid Extraction: Principles and Applications
Discusses liquid-liquid extraction principles, focusing on purifying acetic acid using 1-butanol as a solvent in a countercurrent extraction process.
Heat Equation: Separation of Variables
Covers the application of separation of variables method to solve the heat equation.
Solvents: Properties and Applications
Explores the properties and applications of solvents, including polarity, density, viscosity, and solubility, as well as their role in heterogeneous mixtures and auto-ignition.
Chemical Equilibria and Reactivity Course
Explains osmosis, the van't Hoff equation, and osmometry applications.
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