Three-way heat exchangers for liquid desiccant air-conditioning systems and methods of manufacture

The invention claimed is: 1. A three-way heat exchanger for a liquid desiccant air-conditioning system, the three-way heat exchanger comprising a plurality of panel assemblies, each panel assembly comprising: a frame bordering a central space, the frame including a liquid desiccant inlet port, a liquid desiccant outlet port, a heat transfer fluid inlet port, and a heat transfer fluid outlet port; two plates, each having an outer surface and an inner surface, wherein the plates are joined to the frame to cover opposite sides of the central space to define a heat transfer fluid channel in the central space defined by the inner surfaces of the plates and the frame, wherein the heat transfer fluid inlet port and the heat transfer fluid outlet port are in fluid communication with the heat transfer fluid channel; and two microporous sheets permitting transfer of water vapor therethrough, each microporous sheet covering the outer surface of a different one of the two plates and defining a liquid desiccant channel between the micro porous sheet and the outer surface of the plate, wherein the liquid desiccant inlet port and the liquid desiccant outlet port are in fluid communication with the liquid desiccant channel; wherein the liquid desiccant inlet ports of the frames of the panel assemblies are aligned to form a liquid desiccant inlet manifold, the liquid desiccant outlet ports of the frames of the panel assemblies are aligned to form a liquid desiccant outlet manifold, wherein the heat transfer fluid inlet ports of the frames of the panel assemblies are aligned to form a heat transfer fluid inlet manifold, and the heat transfer fluid outlet ports of the frames of the panel assemblies are aligned to form a heat transfer fluid outlet manifold; and wherein the plurality of panel assemblies have a stacked arrangement such that a microporous sheet on one panel assembly faces a microporous sheet on an adjacent panel assembly and defines an airflow channel therebetween. 2. The three-way heat exchanger of claim 1 , wherein the inner surfaces of the plates and the frame define a liquid desiccant inlet space, and wherein the inner surfaces of the plates and the frame define a liquid desiccant outlet space; and wherein the plates each include a plurality of spaced-apart openings at the liquid desiccant inlet space such that the liquid desiccant inlet space is in fluid communication with the liquid desiccant channel, and the plates each include a plurality of spaced apart openings at the liquid desiccant outlet space such that the liquid desiccant outlet space is in fluid communication with the liquid desiccant channel. 3. The three-way heat exchanger of claim 2 , wherein the plates are joined to the frame along weld or heat seal lines separately circumscribing each of the heat transfer fluid channel, the liquid desiccant inlet space, and the liquid desiccant outlet space. 4. The three-way heat exchanger of claim 1 , further comprising sealing O-rings or gaskets positioned between the liquid desiccant inlet ports of adjacent panel assemblies, between the liquid desiccant outlet ports of adjacent panel assemblies, between the heat transfer fluid inlet ports of adjacent panel assemblies, and between the heat transfer fluid outlet ports of adjacent panel assemblies. 5. The three-way heat exchanger of claim 4 , further comprising a mechanism for clamping the plurality of panel assemblies together in a sealed arrangement. 6. The three-way heat exchanger of claim 1 , wherein the panel assemblies are joined together by an adhesive. 7. The three-way heat exchanger of claim 1 , further comprising a netting in the heat transfer fluid channel of each panel assembly for maintaining a given thickness of the heat transfer fluid channel. 8. The three-way heat exchanger of claim 7 , wherein the netting is maintained in a position in each heat transfer fluid channel by corner features in the frame such that there is an elongated gap at opposite sides of the netting for distributing the heat transfer fluid across the transfer fluid channel in a direction generally perpendicular to the elongated gaps. 9. The three-way heat exchanger of claim 1 , wherein the frame of each panel assembly includes a plurality of standoffs for defining gaps between adjacent panel assemblies forming the airflow channels. 10. The three-way heat exchanger of claim 1 , wherein each of the plates includes a pattern of raised features on their outer surfaces on which the microporous membrane may be attached to form the liquid desiccant channel. 11. The three-way heat exchanger of claim 10 , wherein the liquid desiccant channel has a thickness of less than 0.3 mm. 12. The three-way heat exchanger of claim 1 , wherein each of the plates includes a cap layer on its outer surface to enhance bonding with the microporous membrane. 13. The three-way heat exchanger of claim 1 , wherein each of the plates includes additives to increase heat conductivity or plate stiffness. 14. The three-way heat exchanger of claim 1 , wherein each of the plates comprises a polymer having a thickness of less than 1 mm. 15. The three-way heat exchanger of claim 1 , wherein the frame of each panel comprises an injection molded polymer. 16. The three-way heat exchanger of claim 1 , wherein the frame of each panel assembly includes an energy absorbing dopant, additive, or conductive fiber to improve welding or heat sealing of the frame to a panel. 17. The three-way heat exchanger of claim 1 , further comprising a housing structure for supporting the plurality of stacked panel assemblies and providing a sealed pathway for air flow through the three-way heat exchanger. 18. The three-way heat exchanger of claim 17 , wherein the housing includes conduits for transferring liquid desiccant and heat transfer fluid into or out of the liquid desiccant or heat transfer fluid ports, wherein the conduits are located on one part of the housing structure. 19. The three-way heat exchanger of claim 17 , further comprising a metal filter secured to the housing to an air inlet to the three-way heat exchanger. 20. The three-way heat exchanger of claim 17 , wherein the housing includes a bottom panel, the bottom panel includes an opening for removal of any liquid desiccant leakage, heat transfer fluid leakage, or condensate. 21. The three-way heat exchanger of claim 1 , wherein the panel assemblies are configured such that the airflow, heat transfer fluid flow, and the liquid desiccant flow are all in a horizontal direction or all in a vertical direction. 22. The three-way heat exchanger of claim 1 , wherein the panel assemblies are configured such that one or two of the airflow, heat transfer fluid flow, and the liquid desiccant flow is/are in a horizontal direction and the other(s) is/are in a vertical direction. 23. A method of manufacturing a three-way heat exchanger for a liquid desiccant air-conditioning system, comprising the steps of: (a) manufacturing each of a plurality of panel assemblies by: (i) covering an outer surface of each of two plates with a microporous sheet permitting transfer of water vapor therethrough, such that a liquid desiccant channel is defined between each microporous sheet and the outer surface of each plate; (ii) joining the two plates to a frame structure, wherein the frame structure borders a central space and the two plates cover opposite sides of the central space; wherein the frame structure includes a liquid desiccant inlet port, a