MODULE 3: MASS TRANSFER COEFFICIENTS

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1 MODULE 3: MASS TRANSFER COEFFICIENTS LECTURE NO Correlation of mass transfer coefficients for single cylinder Bedingfield and Drew (1950) studied the sublimation from a solid cylinder into air which is flowing normal to its axis. They developed a correlation for the mass transfer coefficient from their experimental data which can be represented as: k P 0.281Re G G (3.42) m In this case the Reynolds number is defined based on the diameter of the cylinder. G m is the molar mass velocity of the gas and P is the total pressure. The correlation is applicable in the range of 400 < Re < and 0.6 < < Correlation of mass transfer coefficients in circular pipes In a wetted wall towers as shown in Figure 3.1, the mass transfer from the thin liquid film in the tube wall from the moving fluid has been studied extensively. In the tower a volatile pure liquid flows down inside the surface of the tube wall where a gas is allowed to pass through the central core. Here the evaporation of the liquid into the moving gas stream through the gas liquid surface is referred as mass transfer from liquid to gas Gilliland and Sherwood (1934) developed the following correlation from the experimental data obtained by using different liquid and air as gas in the range of < Re < and 0.6 < < Sh 0.023Re (3.43) Joint initiative of IITs and II Funded by MHRD Page 1 of 6

2 where the physical properties of the gas are evaluated at the bulk conditions of the moving gas. Sherwood number and Reynolds number are based on tower diameter. Linton and Sherwood (1950) studied the mass transfer by extending the hmidt number. They developed a correlation with the extended data set and the data set of Gilliland and Sherwood which can be represented as: / 3 Sh 0.023Re (3.44) In the range of < Re < and 0.6 < < Figure 3.1: Wetted-wall tower Correlation of mass transfer coefficients in packed and fluidized beds Based on advantages of increase surface area available for mass and heat transfer for a given volume compared to an empty vessel, packed and fluidized beds are commonly used in industrial mass transfer operations. For packed and fluidized beds, the area of mass transfer is generally expressed in terms of specific interfacial area which is defined as the area per unit volume of packed bed. It can e expressed as: Joint initiative of IITs and II Funded by MHRD Page 2 of 6

3 6(1 ) a (3.45) d p Where ε is the porosity or void fraction and d p is the particle diameter. Various investigations have been carried out for estimating the mass transfer coefficients in packed beds and developed correlations for mass transfer coefficient from their experimental results. For both gas and liquid packed and fluidized bed of spherical particle, Gupta and Thodos (1962) developed a correlation which can be expressed as 2 / / (3.46) 0.58 Re The correlation is valid only in the range of 1 < Re < Sherwood et al. (1975) developed the following correlation for gases in the range of 10 < Re < / Re (3.47) where Re = (d p G y )/µ. G y is the mass velocity of gas based on total cross sectional area of the tower and d p is the diameter of a sphere with the same surface area per unit volume as the particle. Stanton number ( ) for mass transfer is defined as (Sh/(Re.)) Mass transfer coefficient in hollow-fiber membrane module Hollow-fiber membrane modules are extensively used in various membrane separation processes including gas separation, reverse osmosis, filtration and dialysis. In this module a bundle of randomly packed fibers are enclosed in a case to contact two process streams. As per Bao et al. (1999), a typical hollowfiber membrane module is shown in Figure 3.2. When fluids flow through the shell and lumen as shown in Figure, mass is transferred from one stream to other stream through the fiber wall. The mass transfer depends on the nature of the membrane. There are numerous correlations in literature for shell side mass transfer coefficients in this module of membrane. Joint initiative of IITs and II Funded by MHRD Page 3 of 6

4 Figure 3.2: Typical hollow fiber membrane Costello et al. (1993) developed a correlation for mass transfer coefficient for liquid flowing through the shell parallel to the fiber which can be represented as: Sh f ( )Re (3.48) where the packing fraction, refers to the fraction of the cross sectional area that is occupied by the fibers. f() is the function of fiber packing fraction which is written as: f ( ) 0.53(1 1.1 ) (3.49) The Sherwood number and Reynolds numbers are defined as 2Rk L /D AB and (2Rv 0 ρ(1-))/(µ) respectively. R is the fiber radius and v 0 is the superficial liquid velocity. The above correlation is valid in the range of 30<100<75 and 20<Re<350. In case of flow through the lumen and constant wall concentration which is more common in application, Cussler (1997) made a correlation which is given by 1/ 3 di Sh 1.62 PeD ; Re( div / ) 2100 (3.50) L Joint initiative of IITs and II Funded by MHRD Page 4 of 6

5 where Sh = d i k L /D AB is the Sherwood number for module length L. d i is the fiber inside diameter. The correlations are also given in tabular form in Table 3.2. Cases For a single sphere (natural convection) For a single sphere (forced convection) Table 3.2: Correlations for mass transfer coefficient for different cases Correlations for mass transfer coefficient Sh Sh nc 0.347(Re ) where 1 < Re < and 0.6 < < 3200 Sh nc where Gr D < 10 8 Sh nc ( Gr ) where Gr D > 10 8 Sh D 1/ 4 1/ ( GrD ) 1/ 7 1/ Re Where 2 < Re <12000 and 0.6 < < 2.7 For flat plates at laminar condition and Re < Sh 1/ 2 1/ Re at turbulent condition and Re > Sh 4 / 5 1/ Re For both laminar and turbulent condition 0.6< < 2500 For single cylinder kg P Re G Circular pipes Sh 0.023Re m where 400 < Re < and 0.6 < < 2.6. where < Re < and 0.6 < < 2.5 Sh Re 1/ 3 where < Re < and 0.6 < < Packed and fluidized 2 / / 0.58 beds Re Joint initiative of IITs and II Funded by MHRD Page 5 of 6

6 where 1 < Re < Re / 3 Hollow-fiber membrane module where 10 < Re < di Sh 1.62 Pe D L 1/ 3 Where Re( v / ) 2100 d i Joint initiative of IITs and II Funded by MHRD Page 6 of 6

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