y (mole) 0.008093 x (mole) 9000 L/min of a gas mixture containing 30% NH3, 70% Air by mole shall be treated in a packed absorber using 25 mm plastic Super Intalox saddles. 90% of the ammonia is to be 0.004943 0.009014 0.105263 0.046517 0.209302 0.13205 absorbed using a water rate which is 1.5 times the minimum. Operating conditions are 1.5 atm and 10°C. 0.312139 0.31167 0.413793 0.656896 0.514286 4.213524 0.613636 4.922198- Given the equilibrium data, determine the tower diameter.

Topic: Equilibrium Relations in Interphase Mass Transfer: Gas Absorption

Only answer problem 1:

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Problem 2 C, g/100g H20 9000 L/min of a gas mixture containing 22% NH3, 78% Air by mole shall be treated in a packed absorber using No. 1 plastic Intalox saddles. 95% of the ammonia is to be absorbed using a water 1000 kg/hr. Operating conditions are 1.5 atm and 30°C. mm, Hg 20 260 15 |179 10 110 7.5 79.7 51 4 40.1 29.6 24.4 3 Find the Flooding velocity 2.5 2 19.3 15.3 11.5 1.6 What will be the recommended pressure drop in the 1.2 column ?

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Problem 1 x (mole) y (mole) 9000 L/min of a gas mixture containing 30% NH3, 70% Air by mole shall be treated in a packed absorber using 25 mm plastic Super Intalox saddles. 90% of the ammonia is to be 0.008093 0.004943 0.009014 0.105263 0.046517 0.209302 0.13205 absorbed using a water rate which is 1.5 times the minimum. Operating conditions are 1.5 atm and 10°C. 0.312139 0.31167 0.413793 0.656896 0.514286 4.21352+ 0.613636 4.922198 Given the equilibrium data, determine the tower diameter.