This course aims to help learners understand various thermodynamic phenomena through interactive Mathematica simulations. The course covers topics such as adding components to mixtures, adiabatic processes, chemical equilibrium, phase diagrams, and more. By the end of the course, students will have gained skills in analyzing thermodynamic systems, interpreting phase behavior, and applying thermodynamic principles to real-world scenarios. The teaching method involves interactive simulations using Mathematica software. This course is intended for individuals interested in deepening their knowledge of thermodynamics, particularly students studying chemical engineering or related fields.
Overview
Syllabus
Add a Component to a Mixture with an Azeotrope (Interactive Simulation).
Adding a Second Component to a Fixed Volume Container (Interactive Simulation).
Adding a Second Component to a Single-Component VLE Mixture (Interactive Simulation).
Adding One Component to a Binary VLE Mixture (Interactive Simulation).
Adiabatic Compression of Water in VLE (Interactive Simulation).
Adiabatic Flash of a Mixture (Interactive Simulation).
Carnot Cycle with Irreversible Heat Transfer (Interactive Simulation).
Chemical Equilibrium in the Haber Process (Interactive Simulation).
Circumnavigate the Critical Point (Interactive Simulation).
Compare Compressors or Turbines with Different Efficiencies (Interactive Simulation).
Compressed Gas Spray (Interactive Simulation).
Compressible Flow Through a Nozzle/Diffuser (Interactive Simulation).
DePriester Chart for Hydrocarbons (Interactive Simulation).
Energy Balance on Filling a Tank (Interactive Simulation).
Enthalpy and Entropy Departure Functions (Interactive Simulation).
Entropy Change when Ideal Gases Mix (Interactive Simulation).
Evaporative Cooling of Water (Interactive Simulation).
Fugacities in a Soda Can (Interactive Simulation).
Fugacities in an Ideal Binary Mixture (Interactive Simulation).
Fugacity as a Driving Force for Mass Transfer (Interactive Simulation).
Fugacity from Equation of State (Interactive Simulation).
Gas-Phase Chemical Equilibrium at Constant Pressure or Constant Volume (Interactive Simulation).
Heating Water & Air in a Sealed Container (Interactive Simulation).
Henry's Law for Gases Dissolved in Water (Interactive Simulation).
Heterogenous Chemical Equilibrium (Interactive Simulation).
Immiscible Liquids P-x-y Diagram (Interactive Simulation).
Immiscible Liquids on T-x-y Diagram (Interactive Simulation).
Injecting a Liquid into an Evacuated Tank (Interactive Simulation).
Joule-Thomson Expansion (Interactive Simulation).
Mass Balance Calculations for Binary VLE.
Non-Ideal VLE Modeled by the Margules Equation (Interactive Simulation).
Partial Molar Enthalpy (Interactive Simulation).
Partially Miscible Liquids (Interactive Simulation).
Peng-Robinson EOS for Mixtures (Interactive Simulation).
Pressure-Enthalpy Diagram for Water (Interactive Simulation).
P-x-y Diagram for VLE (Interactive Simulation).
P-x-y and T-x-y Diagrams for VLE (Interactive Simulation).
Rankine Cycle (Interactive Simulation).
Reversible and Irreversible Expansion/Compression Work (Interactive Simulation).
Reversible Reaction in an Adiabatic PFR (Interactive Simulation).
Single-Component P-V and T-V Diagrams (Interactive Simulation).
Solid-Liquid Phase Diagram (Interactive Simulation).
Solid-Solid-Liquid Phase Diagram (Interactive Simulation).
Temperature-Entropy Diagram (Interactive Simulation).
Temperature Changes in an Ideal Gas (Interactive Simulation).
Ternary Phase Diagram Basics (Interactive Simulation).
Ternary Phase Diagram with Phase Envelope (Interactive Simulation).
Three Intermolecular Potential Models (Interactive Simulation).
Throttle High-Pressure Water (Interactive Simulation).
Txy Phase Diagrams for VLLE (Interactive Simulation).
Vapor-Compression Refrigeration Cycle (Interactive Simulation).
VLE for Non-Ideal Mixture (Interactive Simulation).
T-x-y and x-y Diagrams for Binary VLE in Flash Drum (Interactive Simulation).
Chemical Potential Dependence on Pressure and Temperature (Interactive Simulation).
Phase Behavior on a Pressure-Volume Diagram (Interactive Simulation).
Single Component Phase Diagrams.
Pressure-Temperature Diagram for Binary Mixture (Interactive Simulation).
Enthalpy-Entropy Diagram (Interactive Simulation).
Mass Balance for Binary VLE (Interactive Simulation).
Chemical Potential Changes When Salt Added to water.
Binary Pressure-Temperature Diagram.
Adiabatic Flash Separation for Binary Liquid Feed.
P-x-y Diagram for Vapor-Liquid Equilibrium of a Binary Mixture.
Water Phase Behavior on a Pressure-Temperature Diagram (Interactive Simulation).
Steady State Binary Fickian Diffusion (Interactive Simulation).
Pressure Volume Diagram for Heating a VL Mixture at Constant Volume (Interactive Simulation).
Vapor Pressure of Binary Solutions (Interactive Simulation).
Heating Vapor-Liquid Mixture at Constant Volume (Interactive Simulation).
Adiabatic Evaporation of Water into Vacuum (Interactive Simulation).
Adiabatic Gas Expansion between Two Tanks (Interactive Simulation).
Fugacity Dependence on Pressure for an Ideal Binary Mixture (Interactive Simulation).
Ranque-Hilsch Vortex Tube (Interactive Simulation).
Injecting Water into Liquid Nitrogen Tanks (Interactive Simulation).
Right and Equilateral Ternary Phase Diagram (Interactive Simulation).
Gibbs Free Energy of Mixing and Liquid-Liquid Equilibrium (Interactive Simulation).
Ranque-Hilsch Vortex Tube (Interactive Simulation).
Adiabatic Flame Temperature Interactive Simulation.
Ideal Gas Law (Interactive Simulation).
P-x-y and T-x-y Diagrams for Vapor-Liquid Equilibrium (Interactive Simulation).
Bubble and Dew Points on P-x-y and T-x-y Diagrams (Interactive Simulation).
Taught by
LearnChemE
