A process is being developed to produce carbonated beverages. As part of this process, a wetted-wall absorption column of 2.0 m length will be used to dissolve carbon dioxide, CO2, gas into water. Pure mountain spring water, containing no dissolved CO2 enters the top of the column at a flowrate of2.0 g mol/s. Pure 100%CO2 gasat2.54atmisfedtothebottomofthe columnataflowrateof0.5gmol/s.Astheliquidflowsdownthe wetted-wall column, CO2 gas dissolves into the water. The carbonated water exits the bottom of the column,and theunused CO2gasleavesthetopofthecolumn.Theinnercolumndiameter is 6.0 cm. The temperature is maintained at 208C. At this temperature, the Henry’s law constant for the dissolution of CO2 gas in water is 25:4atm/ðkgmol/m3Þ.At20C, the molar density of liquid water is 55:5kgmol/m3, the mass density of liquid water is 998:2kg=m3, and the viscosity of liquid water is 993 106kg/ms. Water has a finitevapor pressure at 208C. However, for this problem you may assume that the water solvent is essentially nonvolatile, so that 100% CO2 gas composition is always maintained down the length of the column.

a. What is the maximum possible concentration of dissolved CO2 in water at 2.54 atm CO2 partial pressure?

b. What is the liquid-phase mass-transfer coefficient for this process?

c. What is the exit concentration of dissolved CO2 in the carbonated water if the wetted-wall column is 2.0 m in length?