Management of recharger effluent pH

We claim: 1. A sorbent recharger, comprising: at least a first receiving compartment for a first sorbent module; the first receiving compartment having a first sorbent module inlet and a first sorbent module outlet; a first inlet line fluidly connected to the first sorbent module inlet; a first effluent line fluidly connected to the first sorbent module outlet; a disinfectant source, a base source, a water source, and a brine source; wherein any one of one of the disinfectant source, base source, water source, brine source, and combinations thereof is fluidly connected to the first inlet line; and wherein at least one of the disinfectant source, base source, water source and brine source is fluidly connected to the first effluent line at a common reservoir or a junction with a static mixer at or downstream of the junction. 2. The sorbent recharger of claim 1 , wherein the water source, disinfectant source, and brine source are fluidly connected to the first inlet line; and wherein at least the water source and base source are fluidly connected to the first effluent line. 3. The sorbent recharger of claim 1 , wherein the water source, disinfectant source, and base source are fluidly connected to the first inlet line; and wherein at least the water source and brine source are fluidly connected to the first effluent line. 4. The sorbent recharger of claim 1 , wherein the sorbent recharger comprises a second receiving compartment for a second reusable sorbent module; the second receiving compartment comprising a second sorbent module inlet and a second sorbent module outlet; a second inlet line fluidly connected to the second sorbent module inlet; a second effluent line fluidly connected to the second sorbent module outlet; wherein at least one of the disinfectant source, base source, water source, and brine source is fluidly connected to the second inlet line; and wherein the second effluent line is fluidly connected to the common reservoir or the junction. 5. The sorbent recharger of claim 4 , further comprising a conductivity sensor positioned in at least one of the first effluent line and second effluent line. 6. The sorbent recharger of claim 1 , further comprising at least a first pump in the first inlet line for pumping fluid from the disinfectant source, base source, water source, and/or brine source to the first sorbent module inlet; and at least a second pump for pumping fluid from the disinfectant source, base source, water source, and/or brine source to the junction or common reservoir; and a controller for controlling the first pump and second pump. 7. The sorbent recharger of claim 6 , wherein the controller is configured to control the first pump to pump fluid from the brine source to the first sorbent module inlet; and to control the second pump to pump fluid from the base source to the junction or common reservoir concurrently. 8. The sorbent recharger of claim 4 , further comprising a least one module bypass line, wherein the module bypass line fluidly connects either: the first inlet line to the first effluent line; or the second inlet line to the second effluent line. 9. The sorbent recharger of claim 4 wherein the first sorbent module inlet is fluidly connectable to the first sorbent module outlet and/or the second sorbent module inlet is fluidly connectable to the second sorbent module outlet. 10. A method, comprising the steps of: pumping a brine solution through a first sorbent module containing zirconium phosphate; pumping an effluent of the first sorbent module containing zirconium phosphate to a static mixer or common reservoir; and concurrently pumping a base solution to the static mixer or common reservoir. 11. The method of claim 10 , wherein the step of pumping the base solution to the static mixer or common reservoir comprises the step of pumping the base solution through a second sorbent module, the second sorbent module containing zirconium oxide. 12. The method of claim 10 , wherein the step of pumping the base solution to the static mixer or common reservoir comprises the step of pumping the base solution through a module bypass line. 13. The method of claim 10 , further comprising the step of pumping fluid from the static mixer or common reservoir to a drain. 14. The method of claim 10 , further comprising the step of sensing a conductivity or pH in the effluent of the first sorbent module containing zirconium phosphate with a conductivity sensor, a pH sensor, or combinations thereof; and wherein the step of concurrently pumping a base solution to the static mixer or common reservoir is carried out when the conductivity sensor senses an increase in conductivity, the pH sensor sensing a decrease in pH, or combinations thereof, in the effluent of the sorbent module containing zirconium phosphate. 15. A method comprising the steps of: pumping a base solution through a first sorbent module containing zirconium oxide; pumping an effluent of the first sorbent module containing zirconium oxide to a static mixer or common reservoir; and concurrently pumping a brine solution to the static mixer or common reservoir. 16. The method of claim 15 , wherein the step of pumping the brine solution to the static mixer or common reservoir comprises the step of pumping the brine solution through a second sorbent module, the second sorbent module containing zirconium phosphate. 17. The method of claim 15 , wherein the step of pumping the brine solution to the static mixer or common reservoir comprises the step of pumping the brine solution through a module bypass line. 18. The method of claim 15 , further comprising the step of sensing a conductivity or pH in the effluent of the first sorbent module containing zirconium oxide with a conductivity sensor, a pH sensor, or combinations thereof; and wherein the step of concurrently pumping a brine solution to the static mixer or common reservoir is carried out when the conductivity sensor senses an increase in conductivity, the pH sensor sensing an increase in pH, or combinations thereof, in the effluent of the sorbent module containing zirconium oxide. 19. The system of claim 1 , wherein the system comprises the static mixer; and further comprising a pH sensor downstream of the static mixer. 20. The method of claim 10 , further comprising: wherein the step of pumping the effluent of the first sorbent module containing zirconium phosphate to a static mixer or common reservoir comprises pumping the effluent of the first sorbent module containing zirconium phosphate to the static mixer; the step of concurrently pumping a base solution to the static mixer or common reservoir comprises pumping the base solution to the static mixer; and further comprising the steps of determining a pH in a fluid downstream of the static mixer with a sensor; and pumping the fluid from the static mixer to a drain if the pH of the fluid is between 5 and 9.