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Exact Differentials & Partial Derivatives

Maxwell Relations

State Functions and Maxwell Relations

Heat Capacity Pressure Dependence

Three Parameter Equation of State (EOS) Introduction

Van der Waals Equation of State

Isothermal Compression of a Non-Ideal Gas

Isothermal Compression of a Non-Ideal Gas (Spreadsheet)

Real Gas Expansion

Real Gas Expansion Part 2: Excel Solver

Roots of Peng-Robinson Equation of State

Adiabatic Compressor: Non-Ideal Gas

Peng-Robinson EOS Spreadsheet 1

Peng-Robinson EOS Spreadsheet 2

Enthalpy Departure Function for Throttle Feed

Departure Function: van der Waals Fluid

VLE in a Constant-Pressure System

Heat of Vaporization: Clausius-Clapeyron

Heat of Vaporization: Antoine's Equation

Gibbs Free Energy Pressure Dependence

Gibbs Free Energy: T & P Dependence

Fugacity Introduction

What is Fugacity?

Which has the Higher Fugacity?

Calculate Fugacity of a Fluid

Steam Fugacity

Add Liquid to an Evacuated Tank

Single Component, Solid-Vapor Equilibrium

Fugacity of a Single Component

Fugacity Temperature Dependence: Single Component

Determine Pressure using Peng-Robinson EOS Spreadsheet

Saturation Pressure from EOS Spreadsheet

Calculate Fugacity from Equation of State

Condense Water Vapor from Air

COSMOtherm: Visualizing Molecular Interactions

COSMOtherm: Molecular Interactions Probability

SRK Equation of State Example

Chemical Potential: Pressure Dependence for Single-Component Part 1

Chemical Potential: Pressure Dependence for Single-Component Part 2

Chemical Potential: Pressure Dependence for Single-Component Part 3

Chemical Potential: Temperature Dependence for Single-Component Part 1

Chemical Potential: Temperature Dependence for Single-Component Part 2

Chemical Potential: Temperature Dependence for Single-Component Part 3

Single-Component Pressure-Temperature Diagram

Introduction to Nonlinear Regression

Derivation of Clapeyron and Clausius-Clapeyron Equations

Description:

Explore a comprehensive series of screencasts delving into advanced thermodynamics concepts, including Maxwell relations, equations of state, departure functions, and phase equilibrium in pure fluids. Learn to apply exact differentials, partial derivatives, and state functions to solve complex thermodynamic problems. Master the use of various equations of state, such as van der Waals and Peng-Robinson, and understand their applications in real-world scenarios. Investigate isothermal compression, adiabatic expansion, and throttling processes for non-ideal gases using spreadsheet tools. Dive into the concepts of fugacity, chemical potential, and their dependence on temperature and pressure. Analyze vapor-liquid equilibrium, solid-vapor equilibrium, and construct pressure-temperature diagrams for single-component systems. Gain insights into molecular interactions using COSMOtherm and explore nonlinear regression techniques. Enhance your understanding of thermodynamics with this in-depth, 3.5-hour video series featuring corrected closed captioning. Read more

Thermodynamics - Generalized Analysis of Fluid Properties

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#Science #Physics #Thermodynamics #Equations of State #Mathematics #Calculus #Partial Derivatives #Phase Equilibrium