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2.5 Measurement of liquid-phase diffusion coefficient 
There are few methods of determination of liquid-phase diffusivities. The most commonly used method is Diaphragm cell method.

2.5.1 Diaphragm cell method 
Diaphragm cell contains two compartments as shown in Figure 2.8. These are separated by diaphragm. Let the area of the diaphragm is ‘a’ and porosity is ‘ε’. Effective area for diffusion = a ε
Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                 (2.49)

where τ is tortuosity. As the solute concentration is very low, bulk flow term can be taken as zero. Hence,

Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering
 

Figure 2.8: Diaphragm cell


Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                      (2.50)
Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                                                 (2.51)

and Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                                            (2.52)
Adding Equations (2.51) and (2.52) and substituting NA from Equation (2.50) we have,
Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering        (2.53)
Boundary conditions 
Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering
Therefore, Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                (2.54)
 

2.5.2 Semi-empirical Equation: Wilke-Chang Equation

Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                        (2.55)
where, D0AB  is diffusivity of solute A in solvent B, m2/s, φ is association factor [for H2O=2.26; MeOH=1.9; EtOH=1.5; non-associated solvent=1.0]; MB is molecular weight of B; T is absolute temperature in K; μB is solution viscosity, kg/m.s; νA is solute molar volume at normal boiling point, m3 /kmol [νA=0.0756 m3/kmol for H2O as solvent].

2.5.3 Stokes-Einstein Equation 
Liquid diffusivity varies linearly with absolute temperature and inversely proportional to viscosity of the medium. Hence,
Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering                                                 (2.56)

The document Measurement Of Liquid Phase Diffusion Coefficient | Mass Transfer - Chemical Engineering is a part of the Chemical Engineering Course Mass Transfer.
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FAQs on Measurement Of Liquid Phase Diffusion Coefficient - Mass Transfer - Chemical Engineering

1. What is the liquid phase diffusion coefficient?
Ans. The liquid phase diffusion coefficient is a measure of how quickly a solute molecule can move through a liquid medium. It quantifies the rate at which the solute molecules spread out and mix with the solvent molecules.
2. How is the liquid phase diffusion coefficient measured?
Ans. The liquid phase diffusion coefficient can be determined through various experimental techniques, such as the diffusion cell method or the Taylor dispersion technique. These methods involve monitoring the movement of solute molecules over time and analyzing the resulting concentration profiles to calculate the diffusion coefficient.
3. What factors affect the liquid phase diffusion coefficient?
Ans. Several factors can influence the liquid phase diffusion coefficient, including temperature, viscosity of the solvent, size and shape of the solute molecule, and the presence of other solutes or additives. Higher temperatures and lower viscosities generally lead to higher diffusion coefficients, while larger solute molecules and increased solute-solvent interactions can decrease the diffusion coefficient.
4. Why is the measurement of the liquid phase diffusion coefficient important in chemical engineering?
Ans. The measurement of the liquid phase diffusion coefficient is crucial in chemical engineering as it provides valuable information for the design and optimization of various processes. It helps in understanding the transport phenomena occurring in separation processes, such as distillation or absorption, and aids in the development of efficient mass transfer equipment and systems.
5. Can the liquid phase diffusion coefficient be predicted for different solute-solvent systems?
Ans. Yes, the liquid phase diffusion coefficient can be estimated or predicted for different solute-solvent systems using empirical correlations, theoretical models, or molecular simulation techniques. These methods take into account the relevant physical properties of the solute and solvent, such as molecular size, diffusivity, and intermolecular interactions, to provide approximate values of the diffusion coefficient.
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