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Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering PDF Download

4.4. Design of packed tower based on overall mass transfer coefficient 
From overall mass transfer equation, NA = Ky (yAG -y*A) one can write for packed tower as NA=Ky(y-y*)
Then,
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                               (4.10)
where, y* is solute concentration in gas phase that is capable of remaining in equilibrium with a liquid having a bulk concentration of x.
Therefore,
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering 
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                    (4.11) 
Graphical integration of right hand side of Equation (4.11):
Operating line AB is drawn in xy plane. Any point (x,y) is taken in operating line. A vertical line is drawn upto equilibrium line to get y*.
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                      (4.12)

5.5. Design based on height of a transfer unit (HTU) 
Equation 4.7 can be written as
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                          (4.13)
where,   Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering

Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                                                (4.14)
As, Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering remains constant at the packing section though G/ varies. This quantity is called ‘height if transfer units’ (HTU) and designated as HtG. It is important to measure the separation effectiveness of the particular packings for a particular separation process. It also describes the mass transfer coefficient. Larger mass transfer coefficient leads to the smaller value of HTU.
Hence,
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                                                                                        (4.15)
The integral part of Equation (4.14) is called number of gas phase transfer units as NtG.
hT= HtG ×NtG
When overall gas phase mass transfer coefficients are used, the height of the packing is as follows:
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                (4.16)

where,  Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering

4.6. Design Equations based concentration in mole ratio unit 
If kx, ky are individual gas phase mass transfer coefficients and KY is overall gas phase mass transfer coefficient, height of packed tower is expressed as:Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering                    (4.17)
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Slope of operating line = Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Overall gas-phase mass transfer coefficient, KY is correlated with individual mass transfer coefficients as follows:
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering


 Example Problem 4.1. 
Solute A is to be absorbed from a binary mixture containing 7.5% of A with solvent B in a packed tower. Based on flooding calculation, a tower diameter of 1.2 m is selected. Total gas flow rate is 60 kmol/h. The exit gas must not contain 0.2% of solute A. Solute free liquid B enters from the top of the tower at 40 kmol/h. The gas phase and liquid phase mass transfer coefficients based on mole ratio unit are: kX =2.05 kmol/m2h (ΔX) and kY =1.75 kmol/m2h (ΔY). The equilibrium line Equation is Y=0.63X. Specific interfacial area of gas-liquid contact (ā) is 71 m2/m3 . (a) Calculate packing height required for the desired separation. (b) For 99.5% solute A removal, what % increase in packed height is needed? (c) Determine slopes of operating line in each case.

Solution 4.1: 
Gas flow rate, G1 =60 kmol/h; y1=0.075
Area of tower cross-section Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering(1.2)2 = 1.131  Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering = 53.05 kmol/m2.h
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering =53.05(1-0.075) kmol/m2.h = 49.07 kmol/m2.h
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Solute concentration in exit gas is 0.2%.
Therefore, Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Liquid flow rate, Ls=40 kmol/h
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
X2=0
Overall mass balance Equation for the solute concentration in exit liquid as follows:
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
49.07(0.011-0.00204) = 35.37(X1-0)
X1 = 0.1097
Overall gas-phase mass transfer coefficient, KY:
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
KY=1.138 kmol/m2h (ΔY)
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Y* can be expressed in terms of Y.
The operating line Equation can be expressed as:
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
49.07(Y-0.00204) = 35.37(X-0)
X=1.387(Y-0.00204)
We have
Y* = αX = 0.63×1.387(Y-0.00204) = 0.874Y-0.00178
Therefore,
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
(a) Packed height, hT=HtoG×NtoG=0.0607×13.9 m=8.46 m.
(b) For 99.5% solute removal, Y2=0.0811×0.0005=4.05×10-4 .
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
49.07(Y-4.05×10-4) = 35.37(X-0)
X = (1.387Y – 5.62×10-4 )
Hence, Y* = αX = 0.63×(1.387Y – 5.62×10-4 ) = 0.874Y-0.000354
Therefore,
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Required packed height, hT=HtoG×NtoG=0.0607×22 m=13.35 m.
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
(c) For both the cases slope of the operating will remain same Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering
Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering

The document Design Of Packed Tower Based On Overall Mass Transfer Coefficient | Mass Transfer - Chemical Engineering is a part of the Chemical Engineering Course Mass Transfer.
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