.. project1 documentation master file, created by sphinx-quickstart on Wed Aug 16 09:19:14 2017. You can adapt this file completely to your liking, but it should at least contain the root `toctree` directive. CHBE 241 Material and Energy Balances ==================================== .. toctree:: :maxdepth: 2 :caption: Contents: .. * :ref:`genindex` .. * :ref:`modindex` * :ref:`search` Module 0 Introduction ==================================== * :ref:`Module-0-Introduction/CHEM-154/CHEM 154 Review notebook.ipynb` * :ref:`Module-0-Introduction/MATH-152/Solving Sets of Linear Equations.ipynb` * :ref:`Module-0-Introduction/MATH-152/Unique Solution, No Solution, or Infinite Solutions.ipynb` * :ref:`Module-0-Introduction/Getting started on Using Jupyter Notebooks and Python.ipynb` * :ref:`Module-0-Introduction/Learn More.ipynb` Module 1 Proces Basics Water ==================================== * :ref:`Module-1-Proces-Basics-Water/1.1 - Unit Conversions.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.2 - Basic Unit Operations.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.3 - Flow Rate.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.4 - Input-Output and Block Flow Diagrams.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.5 - Degrees of Freedom (DOF).ipynb` * :ref:`Module-1-Proces-Basics-Water/1.6 - Types-of-Processes.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.7 - Steady-state-and-Unsteady-State-Transience.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.8 - Materials Balances.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.9 - Process Economics.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.10 - Dimensional Homogeneity.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.11 - Practice Problem 1.ipynb` * :ref:`Module-1-Proces-Basics-Water/1.12 - Practice Problem 2.ipynb` Module 2 Reactors ================== * :ref:`Module-2-reactors/2.1 - Reactive Balances.ipynb` * :ref:`Module-2-reactors/2.2 - Extent-of-reaction.ipynb` * :ref:`Module-2-reactors/2.3 - Solving Reactive Balances.ipynb` * :ref:`Module-2-reactors/2.4 - Degrees of Freedom for Reactive Systems.ipynb` * :ref:`Module-2-reactors/2.5 - Fractional Conversion Yield and Selectivity.ipynb` * :ref:`Module-2-reactors/2.6 - Equilibrium Constants.ipynb` * :ref:`Module-2-reactors/2.7 - Combustion Concepts.ipynb` * :ref:`Module-2-reactors/2.8 - Practice Problem 1.ipynb` * :ref:`Module-2-reactors/2.9 - Practice Problem 2.ipynb` Module 3 Separation I ================== * :ref:`Module-3-Separation-I/3.1 - Density and specific gravity.ipynb` * :ref:`Module-3-Separation-I/3.2 - Process and Instrumentation Diagram (P&ID).ipynb` * :ref:`Module-3-Separation-I/3.3 - Equilibrium.ipynb` * :ref:`Module-3-Separation-I/3.4 - Temperature systems ( Kelvin, Celsius, Fahrenheit, Rankine ).ipynb` * :ref:`Module-3-Separation-I/3.5 - Splitter.ipynb` * :ref:`Module-3-Separation-I/3.6 - Recycle and purge.ipynb` * :ref:`Module-3-Separation-I/3.7 - Separator.ipynb` * :ref:`Module-3-Separation-I/3.8 - Module summary and practice questions.ipynb` * :ref:`Module-3-Separation-I/3.9 - Practice Problem 1.ipynb` * :ref:`Module-3-Separation-I/3.10 - Practice Problem 2.ipynb` Module 4 Separation II ================== * :ref:`Module-4-Separation-II/4.1 - Separators.ipynb` * :ref:`Module-4-Separation-II/4.2 - Standards.ipynb` * :ref:`Module-4-Separation-II/4.3 - Non-Ideal Gas Laws.ipynb` * :ref:`Module-4-Separation-II/4.4 - Pressure Measurement.ipynb` * :ref:`Module-4-Separation-II/4.5 - Phase Diagrams.ipynb` * :ref:`Module-4-Separation-II/4.6 - Steam Tables.ipynb` * :ref:`Module-4-Separation-II/4.7 - Gibbs Phase Rule.ipynb` * :ref:`Module-4-Separation-II/4.8 - Vapour Pressure.ipynb` * :ref:`Module-4-Separation-II/4.9 - Vapour-Liquid Equilibrium.ipynb` * :ref:`Module-4-Separation-II/4.10 - Practice Problem 1.ipynb` * :ref:`Module-4-Separation-II/4.11 - Practice Problem 2.ipynb` * :ref:`Module-4-Separation-II/Extra - Steam Tables.ipynb` Module 5 Energy Balances ================== * :ref:`Module-5-Energy-Balances/5.1 - The First Law.ipynb` * :ref:`Module-5-Energy-Balances/5.2 - Heat and Work.ipynb` * :ref:`Module-5-Energy-Balances/5.3 - Open Systems and Enthalpy.ipynb` * :ref:`Module-5-Energy-Balances/5.4 - Review of Terms.ipynb` * :ref:`Module-5-Energy-Balances/5.5 - Cv and Cp Specific Heat Capacity.ipynb` * :ref:`Module-5-Energy-Balances/5.6 - Questions on Cv and Cp.ipynb` * :ref:`Module-5-Energy-Balances/5.7 - Reference States and State Properties.ipynb` * :ref:`Module-5-Energy-Balances/5.8 - Path and State Functions.ipynb` * :ref:`Module-5-Energy-Balances/5.9 - Thermo Cheat-Sheet.ipynb` * :ref:`Module-5-Energy-Balances/5.10 - Psychrometric Charts and Spray-Drying.ipynb` * :ref:`Module-5-Energy-Balances/5.11 - Practice Problem 1.ipynb` Module 6 Reactive Energy Balances ================== * :ref:`Module-6-Reactive-Energy-Balances/6.1 - The Enthalpy of Mixing.ipynb` * :ref:`Module-6-Reactive-Energy-Balances/6.2 - Heat of Reaction (Combustion).ipynb` * :ref:`Module-6-Reactive-Energy-Balances/6.3 - Hess's Law for Heats of Reaction.ipynb` * :ref:`Module-6-Reactive-Energy-Balances/6.4 - Latent Heats.ipynb` * :ref:`Module-6-Reactive-Energy-Balances/6.5 - Heat of Reaction and Formation Methods.ipynb` * :ref:`Module-6-Reactive-Energy-Balances/6.6 - Practice Problem 1.ipynb`