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Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC PDF Download

Introduction

  • The Gibbs Phase Rule, the most important variables describing a mixture are pressure, temperature and composition. In the case of single component systems, composition is not important so only pressure and temperature are typically depicted on a phase diagram. However, for mixtures with two components, the composition is of vital important, so there is generally a choice that must be made as to whether the other variable to be depicted is temperature or pressure.
  • Temperature-composition diagrams are very useful in the description of binary systems, many of which will for two-phase compositions at a variety of temperatures and compositions. In this section, we will consider several types of cases where the composition of binary mixtures are conveniently depicted using these kind of phase diagrams.

[Question: 950677]

Partially Miscible Liquids

  • A pair of liquids is considered partially miscible if there is a set of compositions over which the liquids will form a two-phase liquid system. This is a common situation and is the general case for a pair of liquids where one is polar and the other non-polar (such as water and vegetable oil.) Another case that is commonly used in the organic chemistry laboratory is the combination of diethyl ether and water. In this case, the differential solubility in the immiscible solvents allows the two-phase liquid system to be used to separate solutes using a separatory funnel method.

Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC

  • As is the case for most solutes, their solubility is dependent on temperature. For many binary mixtures of immiscible liquids, miscibility increases with increasing temperature. And then at some temperature (known as the upper critical temperature), the liquids become miscible in all compositions. An example of a phase diagram that demonstrates this behavior is shown in Figure  8.6.1. An example of a binary combination that shows this kind of behavior is that of methyl acetate and carbon disufide, for which the critical temperature is approximately 230 K at one atmosphere (Ferloni & Spinolo, 1974). Similar behavior is seen for hexane/nitrobenzene mixtures, for which the critical temperature is 293 K.

Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC

  • Another condition that can occur is for the two immiscible liquids to become completely miscible below a certain temperature, or to have a lower critical temperature. An example of a pair of compounds that show this behavior is water and trimethylamine. A typical phase diagram for such a mixture is shown in Figure  8.6.2. Some combinations of substances show both an upper and lower critical temperature, forming two-phase liquid systems at temperatures between these two temperatures. An example of a combination of substances that demonstrate the behavior is nicotine and water.

Question for Phase Diagrams for Binary Mixtures
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What is the term used to describe a pair of liquids that form a two-phase liquid system over a range of compositions?
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The Lever Rule

  • The composition and amount of material in each phase of a two phase liquid can be determined using the lever rule. This rule can be explained using the following diagram.

Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC

  • Suppose that the temperature and composition of the mixture is given by point b in the above diagram. The horizontal line segment that passes through point b, is terminated at points a and c, which indicate the compositions of the two liquid phases. Point a indicates the mole faction of compound B (χAB) in the layer that is predominantly A, whereas the point c indicates the composition (χBB)of the layer that is predominantly compound B. The relative amounts of material in the two layers is then inversely proportional to the length of the tie-lines a-b and b-c, which are given by  lA and  lB respectively. In terms of mole fractions,
    lA =  χB − χAB
    and
    lA = χBB − χB
  • The number of moles of material in the A layer (nA) and the number of moles in the B layer (nB) are inversely proportional to the lengths of the two lines  lA and  lB.
    nAlA = nBlB
    Or, substituting the above definitions of the lengths  lA  and  lB , the ratio of these two lengths gives the ratio of moles in the two phases.

Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC

The document Phase Diagrams for Binary Mixtures | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Phase Diagrams for Binary Mixtures - Chemistry Optional Notes for UPSC

1. What are partially miscible liquids?
Ans. Partially miscible liquids are liquids that can mix together to form a single phase but only to a limited extent. They do not mix completely and form separate layers or phases within the mixture.
2. What is the Lever Rule?
Ans. The Lever Rule is a mathematical formula used to determine the relative proportion of two phases in a binary mixture at a specific temperature and composition. It is based on the principle of conservation of mass and allows for the calculation of the fraction of each phase present in the mixture.
3. What are phase diagrams for binary mixtures?
Ans. Phase diagrams for binary mixtures are graphical representations that show the equilibrium phases present in a mixture at different compositions and temperatures. They provide valuable information about the behavior of the mixture, such as the temperature and composition ranges where different phases coexist.
4. How can phase diagrams be used to understand the behavior of partially miscible liquids?
Ans. Phase diagrams can be used to understand the behavior of partially miscible liquids by identifying the regions where complete mixing occurs and where phase separation occurs. The phase diagram can show the temperature and composition ranges where the liquids are partially miscible, allowing for predictions of phase behavior and the formation of separate liquid phases.
5. What are some practical applications of understanding the behavior of partially miscible liquids?
Ans. Understanding the behavior of partially miscible liquids has several practical applications. It is important in the fields of chemistry, pharmacy, and material science for designing and optimizing processes involving liquid-liquid extraction, separation, and purification. Additionally, it is relevant in the development of pharmaceutical formulations, where the solubility and miscibility of different components can greatly impact the final product's stability and efficacy.
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