Double-acting piston batch reverse osmosis desalination assembly and method

What is claimed is: 1. An assembly for reverse osmotically desalinating water, comprising: a source containing feed water to be desalinated; a high-pressure tank having a first portion and a second portion and a movable piston wall operationally connected therebetween; a first portion inlet operationally connected to the first portion and a second portion inlet operationally connected to the second portion; a first portion outlet operationally connected to the first portion and a second portion outlet operationally connected to the second portion; a first valve having a first first valve inlet, a second first valve inlet, a first first valve outlet in fluidic communication with the first portion inlet and a second first valve outlet in fluidic communication with the second portion inlet; a high-pressure pump operationally connected to the source and to the first first valve inlet; a second valve having a first second valve inlet in fluidic communication with the portion outlet and a second second valve inlet in fluidic communication with the second portion outlet and a second valve outlet; at least one reverse osmosis module having at least one reverse osmosis module inlet connected in fluidic communication with the second valve outlet, at least one brine outlet and at least one desalinated water outlet; a circulation pump having a circulation pump inlet port connected in fluidic communication with the brine outlet and a circulation pump outlet connected in fluidic communication with the second first valve inlet; and an electronic controller operationally connected to the first valve, to the second valve, to the high-pressure pump and to the circulation pump. 2. The assembly of claim 1 and further comprising a plurality of sensors operationally connected to the electronic controller and positioned to provide control feedback. 3. The assembly of claim 2 wherein the plurality of sensors is selected from the group comprising pressure sensors, flow rate sensors, pH sensors, and conductivity sensors. 4. The assembly of claim 1 and further comprising: a power source operationally connected to the high-pressure pump. 5. The assembly of claim 4 wherein the power source is a Stirling engine. 6. The assembly of claim 1 wherein the electronic controller is programmed to calculate transmembrane water flux using the equation ∂ C i ( y ) ∂ t + J w ⁢ ∂ C i ( y ) ∂ y = D e ⁢ f ⁢ f ⁢ ∂ 2 C i ( y ) ∂ y 2 . 7. The assembly of claim 1 wherein the reverse osmosis module includes at least one high salinity chamber and at least one permeate chamber separated by an osmotic membrane; a high salinity chamber inlet port operationally connected to the at least one high salinity chamber; a high salinity chamber outlet port operationally connected to the at least one high salinity chamber; a permeate chamber inlet port operationally connected to the at least one permeate chamber; a permeate chamber outlet port operationally connected to the at least one permeate chamber; and a permeate tank connected in fluidic communication to the permeate chamber outlet port. 8. The assembly of claim 7 wherein the source of feed water to be desalinated is a reverse osmosis desalination system; wherein both the at least one high salinity chamber and the at least one permeate chamber contain saltwater; and wherein the saltwater contained in the at least one high salinity chamber has a greater salinity than the saltwater contained in the at least one permeate chamber. 9. The assembly of claim 8 wherein during cyclic operation, feed for the next cycle fills one of the first portion or second portion as working fluid to push against the movable piston wall while the contents of the other of the first portion or the second portion experience salinity concentration and a volume decrease. 10. The assembly of claim 1 wherein the brine outlet is connected in fluidic communication to a brine storage tank; and wherein the brine storage tank is connected in fluidic communication to the first and second portion inlets.