Real Fluid Properties PVTN Equations of State Ideal Gas Heat Capacity C p*ĭeparture Functions Concepts and Applications Standard Δ_G°_ and Δ_H°_ of Formation Pure Component Properties Fundundamental Equation Theorem of Corresponding States Constitutive Property Models - Stress Connections to Molecular Level Interactions and Effects Stability Criteria, Concepts and Applications Critical States ![]() Legendre Transforms Continued Connections to the Gibbs Surface and Other Derived PropertiesĮquilibrium Criteria Concepts and Applications - Phase, Chemical, and Membrane Phase Rule Examples of Simple Phase Diagrams Legendre Transformations Equivalent Forms of the Fundamental Equation Examples Thermodynamic Properties of Pure Materials ( PDF)ĭerivative Transformation and Manipulation Maxwell Relations Jacobian Transformations ISBN: 9780139153563.Ī bibliography of supplementary readings is included below the table.Ĭourse Outline Motivation to Connect Classical Concepts and Laws to Physical Properties from Macroscopic to Molecular Definitions Nomenclature Exams Plus Homework Policy Approach to Solving Problems Constitutive Property Models and the Ideal Gas State Postulatory Approach 1st Law Conceptsġst Law Concepts (Work, Heat, and Energy) Closed and Open System Treatments, Including PE Plus KE Effects Tank Blowdown ġ (all sections), 2 (all sections), 3.1-3.8ġst Law Open Systems Tank Blowdown and Filling - Class Examples Problem 3.9Ģnd Law Concepts Reversible Heat Engines Carnot Efficiency Entropy Clausius Theorem Reversibility Įntropy Balance 1st and 2nd Laws Combined Ģnd Law Concepts and Applications Steady State and Transient Flow WorkĪvailability and Exergy Concepts Heat Integration and Pinch Analysis Power Cycle Analysis Ĭalculus of Thermodynamics Gibbs Fundamental Equation Graphical Interpretation of Fundamental Surface ![]() Upper Saddle River, NJ: Prentice Hall PTR, 1996. Chapter readings in the table are from the course text, Tester, J.
0 Comments
Leave a Reply. |