Hybrid bipolar plate for evaporatively cooled fuel cells

The invention claimed is: 1. A fuel cell power plant comprising: a stack of vertically disposed fuel cells, at least one of the fuel cells including a membrane electrode assembly with an electrolyte having cathode and anode catalysts disposed on opposite sides thereof, the membrane electrode assembly being separated from another membrane electrode assembly adjacent thereto in said stack by a hybrid separator plate; the hybrid separators plate comprising a solid fuel flow field plate having horizontal fuel reactant gas flow channels that extend from one end of the fuel flow field plate to an opposing end of the fuel flow field plate in a horizontal direction and that extend inwardly from a first surface of the fuel flow field plate, and a porous and hydrophilic oxidant flow field plate having vertical oxidant flow channels that extend from one end of the oxidant flow field plate to an opposing end of the oxidant flow field plate in a vertical direction and that extend inwardly from a first surface of the oxidant flow field plate, a second surface of said oxidant flow field plate, opposite to said first surface thereof, bonded to a second surface of said fuel flow field plate which is opposite to said first surface thereof, to form said hybrid separator plate, there being horizontal water passageways that extend from one end of the hybrid separator plate to an opposing end of the hybrid separator plate in a horizontal direction adjacent said second surfaces of said plates. 2. A fuel cell power plant according to claim 1 wherein: said horizontal water passageways extend inwardly into the fuel flow field plate from an upper portion of said second surface of said fuel flow field plate. 3. A fuel cell power plant according to claim 1 wherein: said horizontal water passageways are disposed over an upper portion of said fuel flow field plate which is adjacent to a portion of a respective membrane electrode assembly that does not have catalyst. 4. A fuel cell power plant according to claim 1 wherein: said horizontal water passageways are disposed over an upper 15%, by area, of said hybrid separator plate. 5. A fuel cell power plant according to claim 1 wherein: said horizontal water passageways are disposed over an upper 10%, by area, of said hybrid separator plate. 6. A fuel cell power plant according to claim 1 wherein: said catalysts are disposed over an active, lower portion of said membrane electrode assembly and are not disposed over an inactive, upper portion of said membrane electrode assembly, and said horizontal water passageways are disposed only over an upper portion of said fuel flow fields plate adjacent to the inactive, upper portion of the membrane electrode assembly. 7. A fuel cell power plant according to claim 6 wherein: the inactive, upper portion of the membrane assembly comprises less than 15% of the membrane electrode assembly by area. 8. A fuel cell power plant according to claim 6 wherein: the inactive, upper portion of the membrane electrode assembly comprises less than 10% of the membrane electrode assembly by area. 9. A fuel cell power plant according to claim 1 wherein: said second surfaces are bonded together with a peripheral layer of thermoplastic. 10. A fuel cell power plant according to claim 1 wherein: said fuel reactant gas flow channels extend inward into the feel flow field plate only from a portion of said first surface of said fuel flow field plate which is opposite to a related portion of said second surface of said fuel flow field plate having no horizontal water passageways. 11. A fuel cell power plant according to claim 1 , further comprising: a condenser connected to exits of said oxidant flow channels, condensate of said condenser being in fluid communication with said horizontal water passageways, whereby water can migrate from said horizontal water passageways through said porous and hydrophilic oxidant flow field plate into said oxidant flow channels to be evaporated. 12. A fuel cell power plant according to claim 1 wherein vertical and horizontal are vertical and horizontal, respectively, relative to an axis of earth's gravity.