Membrane heat exchanger system and method

What is claimed is: 1. A heat exchanger assembly comprising: a plurality of flexible planar membrane heat exchangers that include: a first flexible planar polymer sheet having a thickness between 0.1 mm and 0.05 mm; a second flexible planar polymer sheet having a thickness between 0.1 mm and 0.05 mm coupled to the first planar polymer sheet at least by a welded seam; and at least one fluid chamber defined by the first and second flexible planar polymer sheet and the seam and comprising a first and second end that respectively communicate with a first and second port defined by the first and second sheet; a first and second fluid conduit respectively disposed at and communicating with the first and second port, the first and second fluid conduits configured to couple the plurality of planar membrane heat exchangers and generate a fluid flow within the fluid chambers of the plurality of planar membrane heat exchangers between the first and second ends of the respective fluid chambers; a flow cavity defined at least in part by the plurality of planar membrane heat exchangers; and a fan assembly disposed within the flow cavity and surrounded by the plurality of planar membrane heat exchangers and comprising an elongated shaft disposed centrally and extending within the flow cavity with a plurality of rotatable blades extending from the elongated shaft toward the plurality of flexible planar membrane heat exchangers, the fan assembly configured to move a fluid though a plurality of spaces defined by at least a portion of the plurality of planar membrane heat exchangers, wherein the heat exchanger assembly is disposed within a pressure shell of a desalination system that surrounds and encloses the heat exchanger assembly under negative pressure. 2. The heat exchanger assembly of claim 1 , wherein the plurality of planar membrane heat exchangers are disposed in a stacked and spaced apart configuration to define the plurality of spaces. 3. The heat exchanger assembly of claim 1 , wherein the first and second fluid conduits are configured to generate a liquid flow within the chambers of the plurality of planar membrane heat exchangers. 4. The heat exchanger assembly of claim 1 , wherein the fan assembly is configured to move air though the plurality of spaces defined by at least a portion of the plurality of planar membrane heat exchangers. 5. The heat exchanger assembly of claim 1 , wherein the first and second fluid conduits are configured to induce a temperature change in a liquid flow within the chambers of the plurality of planar membrane heat exchangers with a liquid having a first temperature entering the plurality of planar membrane heat exchangers at the first end and the liquid having a second temperature that is lower than the first temperature at second end, the temperature change generated by heat energy passing to air moving about the planar membrane heat exchangers having an air flow generated by the fan assembly and having a temperature that is less than the first temperature. 6. The heat exchanger assembly of claim 1 , wherein the at least one fluid chamber defined by the first and second flexible planar polymer sheet inflates from a flat configuration in response to the fluid flow generated within the fluid chambers; wherein the inflated shape of the fluid chamber is maintained by an inner pressure on the first and second flexible planar polymer sheets applied by the fluid flow generated within the fluid chambers; and wherein the fluid chamber collapses from the inflated configuration in response to the fluid flow being removed from the fluid chamber. 7. A membrane heat exchanger system comprising: a fan assembly having a shaft and a plurality of fan blades; one or more flexible planar membrane heat exchangers extending perpendicularly to an axis of the shaft of the fan assembly and facing the fan blades of the fan assembly, the one or more flexible planar membrane heat exchangers comprising: a first flexible planar sheet having a thickness between 0.1 mm and 0.05 mm; a second flexible planar sheet having a thickness between 0.1 mm and 0.05 mm and coupled to the first flexible planar sheet at least by at least one seam; and at least one fluid chamber defined by the first and second flexible planer sheet and the at least one seam and comprising a first and second end, the at least one fluid chamber extending a length of the one or more flexible planar membrane heat exchangers; and a housing defining a flow cavity, wherein the one or more flexible planar membrane heat exchangers and the fan assembly are disposed within the flow cavity, wherein the fan assembly is configured to pull fluid past the one or more membrane heat exchangers and into the flow cavity defined by the housing, the fluid pulled past the one or more membrane heat exchangers generating heat exchange in a liquid flowing through the at least one fluid chamber of the one or more membrane heat exchangers; and wherein the one or more flexible planar membrane heat exchangers and fan assembly are disposed within a pressure shell that surrounds and encloses the one or more flexible planar membrane heat exchangers and fan assembly under negative pressure. 8. The membrane heat exchanger system of claim 7 , wherein the first and second planar sheet comprise a polymer. 9. The membrane heat exchanger system of claim 7 , wherein the first and second planar sheet comprise a Polyethylene terephthalate (PET) film. 10. The membrane heat exchanger system of claim 7 , further comprising a plurality of fluid chambers defined by the first and second sheet and one or more seams, the fluid chambers each comprising a first and second end. 11. The membrane heat exchanger system of claim 10 , wherein the first ends of the plurality of fluid chambers communicate with a first port defined by the planar sheets and disposed at a first body end, and wherein the second ends of the plurality of fluid chambers communicate with a second port defined by the planar sheets and disposed at a second body end. 12. The membrane heat exchanger system of claim 10 , wherein the plurality of fluid chambers are nested in a switchback configuration. 13. A desalination system comprising: a vacuum shell that surrounds and encloses a desalination assembly under negative pressure, the desalination assembly comprising one or more flexible planar membrane heat exchangers of that define a central freshwater cavity and a salt water cavity within the vacuum shell, the one or more flexible planar membrane heat exchangers comprising: a first flexible planar sheet having a thickness between 0.1 mm and 0.05 mm; a second flexible planar sheet having a thickness between 0.1 mm and 0.05 mm and coupled to the first flexible planar sheet at least by at least one seam; and at least one fluid chamber defined by the first and second flexible planer sheet and the at least one seam and comprising a first and second end, the at least one fluid chamber extending a length of the flexible planar membrane heat exchanger, wherein the desalination system is configured to desalinate salt water that enters the vacuum shell via an inlet pipe and is introduced onto an outer surface of the one or more membrane heat exchangers facing the salt water cavity, where desalinated water evaporant is generated by the outer surface of the one or more membrane heat exchangers, and where the desalinated water evaporant passes into the freshwater cavity, where the desalinated water evaporant condenses on an internal face of the one or more membrane heat exchanger within the freshwater cavity to generate desalinated liquid water. 14. A heat