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4: Phase Diagrams III

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    Learning Objectives
    • Module Goal: To familiarize you with the basic concepts of Phase Diagrams as a means of representing thermodynamic data.
    • Module Objective: To introduce you to the additional complexity brought about by the presence of one or more additional components.

    • 4.1: Binary Systems
      This page discusses the distinctions between single-component and multicomponent systems, particularly their phase behaviors at constant temperature. It details how pressure varies during phase transitions in binary mixtures and introduces key concepts like cricondentherm and cricondenbar. Additionally, it explains critical points in unary systems, noting that definitions converge for pure substances, where terms like Cricondentherm, Cricondenbar, and Critical Point are equivalent.
    • 4.2: Retrograde Phenomenon
      Regarding multi-component mixtures (where the binary system is the simplest case), some interesting phenomenon profoundly differentiate their behavior from the behavior of single-component systems. We are now talking about retrograde phenomena.
    • 4.3: Action Item
      This page explores critical points in single-component systems and mixtures, defining key concepts and discussing the distinct roles of cricondentherm and cricondenbar. It delves into retrograde phenomena and compares P-v isotherms, highlighting differences in two-phase segments between single and binary systems. The content emphasizes the complexity of phase behavior and its thermodynamic implications.

    This page titled 4: Phase Diagrams III is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by Michael Adewumi (John A. Dutton: e-Education Institute) via source content that was edited to the style and standards of the LibreTexts platform.