Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE) PDF Download

Ideal Gas Mixtures and Liquid Solutions 

We next explore the development of a quantitative definition of the chemical potential in terms of the volumetric properties and composition of mixtures. We have observed earlier that just as ideal gas state is a reference for real gas properties, ideal gas mixtures play the same role with respect to real gas mixtures. Therefore, it is instructive to establish the property relations for ideal gas mixture first. Consider the constitution of an ideal gas mixture (containing N species) at a given temperature (T) and pressure (P). To obtain n moles of the total mixture we need to bring together ni moles of each species  Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE) at temperature T but at a pressure pi which corresponds to the partial pressure that each species would exert in the final mixture. If Vt is the total volume of the mixture, the following set of relations hold.

 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)                ......(6.53)

But the molar volume of the ith species  Vig = RT/P

Hence it follows:

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.54)

The last result indicates that the molar volume for a species does not change between its pure state and in an ideal gas mixture at the same T & P.  It may then be concluded that for an ideal gas mixture the properties of each species are independent of that of the other ones. This may be easy to appreciate as the concept of an ideal gas is premised on the idea that the intermolecular interaction is non-existent in such a state. This conclusion leads to the well-known Gibbs theorem:

“Except for volume all other partial molar property of a species in an ideal-gas mixture is equal to the corresponding molar property of the species as a pure ideal gas at a temperature same as that of the mixture, but at a pressure equal to its partial pressure in the mixture.”

In mathematical terms : Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.55)
 

As an example let us consider the case of enthalpy of an ideal gas mixture. By Gibbs theorem:

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)              ......(6.56)

But, as the enthalpy of an ideal gas is independent of pressure it follows that: 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)              ......(6.57)

It follows:  Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.58)


By the standard definition, the enthalpy of the mixture is: 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.59)
Thus, using eqns. 6.56 – 6.59 we get:

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.60)

It follows: Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.61)

Employing the same reasoning: Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.62)

 

The molar entropy of mixing of ideal gas mixture, however, is not zero. As stated above, the formation of 1 mole of mixture results from bringing together yi moles each species at T and partial pressure pi to form a mixture at T and P, Hence for isothermal mixing, yi moles of each species goes from (T, pi) to (T, P). Therefore: 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.63)

On transposing:  Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.64)

But:  Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.65 

So:  Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)              ......(6.66)

 

Using eqns. 6.63 - 6.67, one obtains: 

 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.67) 

On applying the partial molar property operation (as given by eqn. 6.4) on 6.58, it may be shown that: 

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.68) 

It further follows: Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.69)


For Gibbs free energy relation we start from: G = H − TS

For an ideal gas mixture: Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.70) 

Taking the partial molar property derivative: Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.71)

On putting eqns. 6.58 and 6.59 into 6.71 we get the following relation for the chemical potential of each species in an ideal gas mixture:

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.72)
 

Using eqns. 6.51 and 6.58, it may be also shown that:  

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.73) 

The Ideal Solution: 

We have already seen that owing to the fact that pure ideal gases and mixtures are not subject to intermolecular interactions the partial molar properties (apart from volume) of each species is the same as that of the pure species at the same temperature and pressure. In other words each species “sees” no difference in their environment in pure or mixed state. One can conceptually extend this idea to posit an ideal solution behaviour which may serve as a model to which real-solution behavior can be compared. Consider a solution of two liquids, say A and B. If the intermolecular interaction in the pure species, (i.e., A-A and B-B) is equal to the cross-species interaction A-B, neither A nor B type molecules will “see” any difference in their environment before and after mixing. This is in a sense the same condition as one obtains with idea gas mixtures. Hence an identical set of ideal solution property relations may be constructed based on the model of ideal gas mixture. By convention while describing properties of liquid solutions mole fractions yi are replaced by xi. The following relations therefore, derive for ideal (liquid) solution properties (denoted by a superscript ‘id’):

Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.74 & 6.75)

Hence Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.76)

 

Lastly, Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE)               ......(6.77)

 

As we will see later the ideal solution model can also serve to describe the behaviour of mixtures of real gases or solids.

The document Ideal Gas Mixtures and Liquid Solutions | Additional Documents & Tests for Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Additional Documents & Tests for Civil Engineering (CE).
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FAQs on Ideal Gas Mixtures and Liquid Solutions - Additional Documents & Tests for Civil Engineering (CE)

1. What are ideal gas mixtures and liquid solutions in civil engineering?
Ans. Ideal gas mixtures refer to a combination of gases that behave according to the ideal gas law, where the individual gas particles do not interact with each other. Liquid solutions, on the other hand, involve the dissolution of one or more substances (solute) in a liquid solvent to form a homogeneous mixture.
2. What are the key properties of ideal gas mixtures in civil engineering?
Ans. The key properties of ideal gas mixtures in civil engineering include the ideal gas law, which describes the relationship between pressure, volume, and temperature. Additionally, the mole fraction of each gas component and the partial pressure of each component are essential properties to consider.
3. How are ideal gas mixtures and liquid solutions used in civil engineering projects?
Ans. Ideal gas mixtures are often used in civil engineering projects for calculations involving air pollutants, ventilation, and gas transport. Liquid solutions are used for various purposes, such as concrete admixtures, soil stabilization, and wastewater treatment processes.
4. What are some challenges in dealing with ideal gas mixtures and liquid solutions in civil engineering?
Ans. One challenge is the accurate prediction of gas behavior under different conditions, as real gases may deviate from ideal gas behavior. When dealing with liquid solutions, challenges can arise from the need to identify suitable solvents and solutes, as well as finding the optimal concentration for desired effects.
5. Are there any safety considerations when working with ideal gas mixtures and liquid solutions in civil engineering?
Ans. Yes, safety considerations are crucial when working with ideal gas mixtures and liquid solutions in civil engineering. It is important to handle gases properly, considering factors such as toxicity, flammability, and potential health hazards. Similarly, proper handling and storage of liquid solutions are essential to prevent accidents and ensure worker safety.
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