Ammonia, NH3, in air is being absorbed into water within the enclosed tank shown in the figure below. The liquid and gas phases are both well mixed, and mass transfer occurs only at the exposed gas-liquid interface. The diameter of the cylindrical tank is 4m,total liquid volume inside the tank is constant. The bulk gas pressure of ammonia is maintained at 0.02atm,and the total gas pressure is constant at 1.0atm.The system is isothermal at 20oC.The inlet volume flow rate of water is 200L/h and enters Nh3 free. You may assume Henry's law, pAi=HcAidescribes the equibrium distribution of NH3 between the gas and the liquid phases where H=0.02atm/(kgmol/m3).The film mass transfer coefficients are kG=1.25kgmol/m2. h. atm and kL=0.05kgmol/m2.h.(kgmol/m3).a) Determine the overall mass transfer coefficient, KG.b) Determine the partial pressure of NH3 at gas-liquid interface, pAi.C) Determine WA the total molar rate of ammonia transfer.d) Develop a material balance for NH3;then cAi the concentration of NH3 in the outlet liquid stream.

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Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Ammonia, NH₃, in air is being absorbed into water within the enclosed tank shown in the figure below. The liquid and gas phases are both well mixed, and mass transfer occurs only at the exposed gas-liquid interface. The diameter of the cylindrical tank is 4m,total liquid volume inside the tank is constant. The bulk gas pressure of ammonia is maintained at 0.02atm,and the total gas pressure is constant at 1.0atm.The system is isothermal at 20^oC.The inlet volume flow rate of water is 200L/h and enters Nh₃ free. You may assume Henry's law, p_Ai=H_cAidescribes the equibrium distribution of NH₃ between the gas and the liquid phases where H=0.02atm/(kgmol/m³).The film mass transfer coefficients are k_G=1.25kgmol/m². h. atm and k_L=0.05kgmol/m².h.(kgmol/m³).

a) Determine the overall mass transfer coefficient, K_G.

b) Determine the partial pressure of NH₃at gas-liquid interface, p_Ai.

C) Determine W_A the total molar rate of ammonia transfer.

d) Develop a material balance for NH₃;then c_Ai the concentration of NH₃in the outlet liquid stream.

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