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3.4 CORRELATION FOR CONVECTIVE MASS TRANSFER COEFFICIENT 
In this section various correlations that are used to estimate the convective mass transfer coefficients for various cases are presented. The various correlations are generally formed in terms of different dimensionless groups associated with the mass transfer. The definitions of mostly useful dimensionless groups associated with the mass transfer are given in Table 3.1 as follows:

Table 3.1: Dimensionless groups for mass transfer:
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering

3.4.1 Correlation of mass transfer coefficients for a single sphere 
3.4.1.1 Mass transfer coefficients for a single sphere in case of natural convection
In presence of natural convection the mass transfer from single sphere were studied by Steinberger and Treybal (1960) and they recommended the mass transfer coefficient as follows:
Sh = Shnc + 0.347(ReSc0.5)0.62                                                          (3.34)
In the range of 1 < Re < 3×104 and 0.6 < Sc < 3200 
Shnc = 2.0 + 0.569(GrDSc)1/4                                                    (3.35)
in the range of GrDSc < 108
and
Shnc = 2.0 +.0254(GrDSc)1/3  Sc0.244                                      (3.36)
in the range of GrDSc >108

3.4.1.2 Mass transfer coefficients for a single sphere in case of forced convection 
Different investigators have performed the experiment on the mass transport from a single sphere and developed correlations based on mass transfer in the environment of forced convection along with the consideration of mss transfer by molecular diffusion in the general form of:
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                          (3.37)
where m and n are correlating constants. As per Bird et al. (1960), for low Reynolds number, the effects of natural convection is negligible which results Sherwood number theoretically to a value of 2.0. Then the generalized correction becomes:
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                         (3.38)
At Reynolds numbers ranging from 2 to 12000 and Schmidt number ranging from 0.6 to 2.7, Froessling (1939) and Evnochides and Thodos (1959) developed the mass transfer coefficient for a single sphere and represented as follows:
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                             (3.39)

3.4.2 Correlation of mass transfer coefficients for flat plates 
There are several investigations in literature regarding the evaporation from a free liquid surface or the sublimation from a flat solid surface into air stream under both laminar and turbulent conditions. Wilty et al. (1984) developed correlations for the average mass transfer coefficient during evaporations from a flat solid surface of characteristic length of L under laminar and turbulent conditions as follows:
at laminar condition and Re < 3×105
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                      (3.40)
at turbulent condition and Re > 3×105
Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                       (3.41)
The Reynolds number and the Sherwood number are defined based on the characteristic length /. The range of Schmidt number for the above correlations is 0.6< Sc < 2500

The document Correlation For Convective Mass Transfer Coefficient | Mass Transfer - Chemical Engineering is a part of the Chemical Engineering Course Mass Transfer.
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FAQs on Correlation For Convective Mass Transfer Coefficient - Mass Transfer - Chemical Engineering

1. What is convective mass transfer coefficient in chemical engineering?
Ans. The convective mass transfer coefficient in chemical engineering refers to the rate at which mass is transferred between a solid surface and a fluid medium through convection. It is a measure of how efficiently the mass transfer process occurs and is influenced by factors such as fluid velocity, temperature gradients, and the properties of the fluid and surface.
2. How is the convective mass transfer coefficient calculated?
Ans. The convective mass transfer coefficient can be calculated using empirical correlations or experimental data. One commonly used correlation is the Sherwood number correlation, which relates the convective mass transfer coefficient to the Reynolds number and Schmidt number. Additionally, empirical correlations specific to certain systems or geometries can be used to estimate the convective mass transfer coefficient.
3. What factors affect the convective mass transfer coefficient?
Ans. Several factors can affect the convective mass transfer coefficient. These include the fluid velocity, temperature gradients, the properties of the fluid (such as viscosity and density), the properties of the surface (such as roughness), and the geometry of the system. Additionally, the convective mass transfer coefficient can be influenced by the presence of additives or impurities in the fluid.
4. How can the convective mass transfer coefficient be improved in chemical engineering processes?
Ans. There are several ways to improve the convective mass transfer coefficient in chemical engineering processes. Increasing the fluid velocity can enhance the rate of mass transfer by promoting better mixing and increasing the contact between the fluid and the surface. Modifying the surface properties, such as reducing roughness or using surface coatings, can also improve the convective mass transfer coefficient. Additionally, optimizing the temperature gradients and utilizing additives or catalysts can further enhance mass transfer rates.
5. What are some applications of convective mass transfer coefficient in chemical engineering?
Ans. The convective mass transfer coefficient is an important parameter in various chemical engineering applications. It is used in the design and optimization of heat exchangers, distillation columns, absorption towers, and other equipment involved in mass transfer processes. It is also relevant in processes such as drying, evaporation, and extraction, where efficient mass transfer is crucial for achieving desired product qualities and process efficiencies.
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