Few versus Many Particles: The Euler Relation and Forms of Exergy - Lecture 8

Few versus Many Particles: The Euler Relation and Forms of Exergy - Lecture 8

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- Large versus Small Systems

6 of 24

6 of 24

- Large versus Small Systems

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Classroom Contents

Few versus Many Particles: The Euler Relation and Forms of Exergy - Lecture 8

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  1. 1 - Introduction
  2. 2 - Review: Stability and LeChatelier-Braun Principle
  3. 3 - Introducing the “Simple-System Model”
  4. 4 - Microscopic and Mesoscopic versus Macroscopic
  5. 5 - Rarefaction Effects Near Walls at Equilibrium
  6. 6 - Large versus Small Systems
  7. 7 - Macroscipic Limit; Many-Particle Limit
  8. 8 - Effect of Inserting and Removing Partitions
  9. 9 - Simple-System Model: Limiting Assumption
  10. 10 - Simple-System Model: Proof of the Euler Relation
  11. 11 - Main Consequence of the Euler Relation
  12. 12 - Bulk-Flow Local-Equilibrium State Model
  13. 13 - Bulk Flow Interactions
  14. 14 - Pulsion Work and How Enthalpy Gets In
  15. 15 - System Open to Bulk Flow, Heat, and Work
  16. 16 - Mass, Energy and Entropy Balances for Open Systems
  17. 17 - Exergies and First and Second-Law Efficiencies
  18. 18 - Exergy Balance for an Open System
  19. 19 - Review: First-Law vs Second-Law Efficiencies
  20. 20 - First-Law Efficiency or COP Definition
  21. 21 - Second-Law Efficiency Definition
  22. 22 - Exergy Generic Definition of the Concept
  23. 23 - Exergy Associated with Heat Exchange
  24. 24 - Exergy and Second-Law Efficiency in Cogeneration

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