As an extension of the example 4.1, we can look at different parameters and understand how they change the cation concentrations on the exchange site. Please include all Cl- and OH- aqueous complexes as in example 4.1. Please calculate the major cation concentrations on the exchange site (K, Na, Ca, Mg, Ba, Sr) by changing only the parameter discussed in each sub-question, with all other parameters being the same as those in example 4.1. For each sub questions, please plot major cation concentrations on the exchange site as the changing parameter.
For each question, calculate the mole fraction of each species on the exchange site, and the mole fraction of each species compared to its own original total mass. Please make a table and a figure comparing different species. Which one has the largest percentage of its own mass on exchange sites? Why?
Which parameter(s) have the largest impact on ion exchange reactions? In lesson 3 we learned that pH is important for surface complexation reactions. Does it make a difference for ion exchange reactions?
Read the paper (Valocchi et al., 1981). Native groundwater in the injection test of this paper had the composition of $Na^+=\ 86.5,\mathrm{\ Mg}^{2+}=18.2,\text{ and }\mathrm{Ca}^{2+}=11.1\mathrm{\ mmol}/\mathrm{L}$. Injected water has 14.66 meq Cl-/L. Selectivity coefficient were (Gaines and Thomas convention, activity = molal concentration) $\mathrm{K}_{\text{Na\Mg}}=0.54\text{ and }\mathrm{K}_{\text{Na\Ca}}=0.41$. Sediment $\mathrm{CEC}=750\mathrm{\ meq}/\mathrm{L}$ pore water. Calculate