Low Energy System and Method of Desalinating Seawater

1 .- 15 . (canceled) 16 . A seawater desalination system, comprising: at least one first electrodialysis device including at least one first depletion compartment having a first depletion compartment inlet fluidly connected to a source of seawater, and a first depletion compartment outlet, and at least one first concentration compartment having a first depletion compartment inlet and a first depletion compartment outlet; at least one second electrodialysis device including at least one second depletion compartment having a second depletion compartment inlet fluidly connected to the source of seawater, and a second depletion compartment outlet, and at least one second concentration compartment having a second concentration compartment inlet fluidly connected to the source of seawater, and a brine outlet; at least one ion exchanging unit having an ion exchanger inlet fluidly connected to at least one of the first depletion compartment outlet and the second depletion compartment outlet, and an ion exchanger outlet; and at least one electrodeionization device having a first depleting compartment fluidly connected to the ion exchanger outlet, the depleting compartment defined at least partially by a first cationic selective membrane and a first anionic selective membrane, a first concentrating compartment fluidly connected to the source of seawater, and in ionic communication with the first depleting compartment through the first cationic selective membrane, and a second depleting compartment fluidly connected downstream from the brine outlet, and in ionic communication with the first concentrating compartment through a second anionic selective membrane. 17 . The seawater desalination system of claim 16 , wherein at least one of the first concentrating compartment and the second depleting compartment does not contain ion exchange resin. 18 . The seawater desalination system of claim 16 , wherein the at least one electrodeionization device further comprises a second concentrating compartment at least partially defined by the first anionic selective membrane, and having an inlet fluidly connected to the source of seawater, and a third depleting compartment in ionic communication with the second concentrating compartment through a second cationic selective membrane, and having an inlet fluidly connected to at least one of the brine outlet, an outlet of the first concentrating compartment, and an outlet of the second depleting compartment. 19 . The seawater desalination system of claim 18 , wherein at least one of the first concentrating compartment, the second depleting compartment, the second concentrating compartment, and the third depleting compartment does not contain ion exchange resin. 20 . The seawater desalination system of claim 16 , further comprising a brine storage tank fluidly connected to at least one of an outlet of the first concentrating compartment and an outlet of the second depleting compartment. 21 . The seawater desalination system of claim 20 , wherein the brine storage tank comprises an outlet fluidly connectable to the at least one ion exchanging unit. 22 . The seawater desalination system of claim 21 , further comprising a third electrodialysis device having a third depletion compartment fluidly connected downstream from the first depletion compartment and upstream of the ion exchanging unit. 23 . The seawater desalination system of claim 22 , further comprising a fourth electrodialysis device having a fourth depletion compartment fluidly connected downstream from the second depletion compartment and upstream of the ion exchanging unit. 24 . The seawater desalination system of claim 16 , wherein the at least one first electrodialysis device comprises a monovalent selective membrane disposed between the at least one first depletion compartment and the at least one first depletion compartment. 25 . The seawater desalination system of claim 24 , wherein the first depleting compartment of the electrodeionization device contains a mixed bed of ion exchange media. 26 . The seawater desalination system of claim 16 , further comprising at least one pretreatment unit operation fluidly connected downstream from the source of seawater and upstream of at least one of the at least one first electrodialysis device, the at least one second electrodialysis device, and the at least one electrodeionization device. 27 . The seawater desalination system of claim 26 , wherein the at least one pretreatment unit operation comprises at least one subsystem selected from the group consisting of a filtration system, a chlorination system, a dechlorination system, and a pressure-driven system. 28 . The seawater desalination system of claim 27 , wherein the pretreatment unit operation comprises at least one of a microfilter, a sand filter, a particulate filter, and a nanofiltration system. 29 . The seawater desalination system of claim 16 , wherein at least one of the at least one electrodeionization device comprises an anodic collector, a cathodic collector, and a salt bridge in ionic communication with the anodic and the cathodic collectors. 30 . The seawater desalination system of claim 16 , wherein at least one of the at least one electrodeionization device, the at least one first electrodialysis device, and the at least one second electrodialysis device comprises an anode compartment fluidly connected downstream from a source of an aqueous solution having dissolved chloride species, the anode compartment comprising one of a chlorine outlet and hypochlorite outlet. 31 . The seawater desalination system of claim 16 , wherein at least one of the at least one the electrodeionization device, the at least one first electrodialysis device, and the at least one second electrodialysis device comprises a second electrode compartment comprising a caustic stream outlet. 32 . The seawater desalination system of claim 16 , wherein the at least one ion exchanging unit comprises chloride-form anion exchanging resin. 33 . A desalination system, comprising: means for selectively reducing a concentration of monoselective species in a first seawater stream to produce a first diluted stream; means for increasing a dissolved solids concentration in a second seawater stream to produce a brine stream; means for exchanging at least a portion of divalent species for monovalent species in the first diluted stream, the means for exchanging having a second diluted stream outlet; and an electrochemical separation device having a depleting compartment fluidly connected to the second diluted stream outlet, and means for providing a concentration-induced electrical potential in ionic communication with the depleting compartment. 34 . The desalination system of claim 33 , wherein the means for increasing a dissolved solids concentration in the first seawater stream comprises an electrodialysis device having a depletion compartment fluidly connected to the source of seawater, and a concentration compartment separated from the depletion compartment by a monovalent selective membrane. 35 . The desalination system of claim 33 , wherein the means for increasing a dissolved solids concentration in the second seawater stream comprises an electrodialysis device having a concentration compartment fluidly connected to the source of seawater, and a brine outlet providing the brine stream. 36 . The desalination system of claim 35 , wherein the means for providing a concentration-induced electrical potential co