Automatic recharger brine preparation from a salt bag

What is claimed is: 1. A system, comprising: a sorbent recharger; the sorbent recharger comprising: i) a receiving compartment for a zirconium phosphate sorbent module; ii) at least a first fluid line fluidly connectable to an inlet of the zirconium phosphate sorbent module in the receiving compartment; iii) at least a second fluid line fluidly connectable to an outlet of the zirconium phosphate sorbent module; iv) at least one pump; a brine container fluidly connectable to the first fluid line; a salt bag; the salt bag comprising an inlet fluidly connectable to a water source and an acetic acid source; and an outlet fluidly connectable to the brine container; the salt bag containing sodium chloride and sodium acetate; and a control system; the control system programmed to: i) pump a preset volume of fluid from the water source through the salt bag; ii) recirculate fluid in a first flow path from the outlet of the salt bag to the brine container and then to the inlet of the salt bag; and to iii) pump a preset volume of acetic acid into the first flow path. 2. The system of claim 1 , wherein the salt bag is a double layer bag comprising an outer bag that is water impermeable and an inner bag that is at least partly water permeable. 3. The system of claim 2 , wherein the sodium chloride and sodium acetate are initially in the inner bag of the salt bag. 4. The system of claim 2 , wherein the inner bag has a water impermeable portion at a top of the inner bag. 5. The system of claim 2 , wherein the inlet of the salt bag is connected to an interior of the inner bag; and wherein the outlet of the salt bag is connected to an exterior of the inner bag. 6. The system of claim 1 , the control system further programmed to pump fluid from the brine container through the zirconium phosphate sorbent module. 7. The system of claim 1 , the control system programmed to recirculate fluid in the first flow path until a homogeneous solution is formed in the first flow path. 8. The system of claim 1 , the salt bag further comprising a spring-loaded valve at the inlet. 9. The system of claim 1 , the salt bag further comprising a spring-loaded valve at the outlet. 10. A method for generating a brine solution for recharging zirconium phosphate using the system of claim 1 ; comprising the steps of: pumping water from the water source to the salt bag through the inlet of the salt bag; the salt bag containing sodium chloride and sodium acetate; recirculating fluid from the outlet of the salt bag, to the brine container, and back to the inlet of the salt bag in a first flow path; pumping acetic acid into the first flow path; and collecting fluid from the first flow path into the brine container to generate the brine solution. 11. The method of claim 10 , wherein the salt bag is a double layer bag comprising an outer bag that is water impermeable and an inner bag that is at least partly water permeable. 12. The method of claim 11 , wherein the sodium chloride and sodium acetate are initially in the inner bag of the salt bag. 13. The method of claim 11 , wherein the inner bag has a water impermeable portion at a top of the inner bag. 14. The method of claim 10 , wherein the brine container is fluidly connected to the sorbent recharger; and further comprising the step of pumping the brine solution through a zirconium phosphate sorbent module in the sorbent recharger. 15. The method of claim 10 , wherein the fluid is recirculated in the first flow path until a homogenous solution is generated. 16. A salt bag for use in recharging zirconium phosphate, the salt bag comprising: a water impermeable outer bag; a water permeable inner bag; an inlet fluidly connectable to a water source; and an outlet fluidly connectable to a brine container; the salt bag containing sodium chloride and sodium acetate. 17. The salt bag of claim 16 , further comprising a spring-loaded valve at the inlet. 18. The salt bag of claim 16 , further comprising a spring-loaded valve at the outlet. 19. The salt bag of claim 16 , wherein the inner bag has a water impermeable portion at a top of the inner bag. 20. The salt bag of claim 16 , wherein the inlet is connected to an interior of the inner bag; and wherein the outlet is connected to an exterior of the inner bag.