Acid resistant, monolithic fuel cell cooler assembly

The invention claimed is: 1. A composite fuel cell plate assembly comprising: a plate body having oppositely facing surfaces and oppositely facing edges, wherein the oppositely facing edges have a dimension corresponding to a thickness of the plate body between the oppositely facing surfaces, the plate body being formed of a material comprising a mixture of between about 80 wt. % and about 85 wt. % flake graphite and a remainder of polymer binder, the material defining an entirety of the plate body between the oppositely facing surfaces and the oppositely facing edges, the plate body including flow field channels on the oppositely facing surfaces of the plate body; and a coolant tube array embedded within the plate body between the flow field channels of one of the oppositely facing surfaces and the flow field channels of the other of the oppositely facing surfaces, the coolant tube array comprising at least one metal tube including a plurality of segments defining a plurality of passes for a coolant fluid within the plate body; wherein the plate body includes a web of the material between the coolant tube array and a deepest surface of the flow field channels on a corresponding one of the oppositely facing surfaces, the web being for preventing liquid acid electrolyte penetration through the material of the plate body to the cooler tube array for preventing contact between liquid acid electrolyte and the at least one metal tube, the web having a thickness that is at least 1.4 mm (0.06 in). 2. The composite fuel cell plate of claim 1 , wherein the at least one metal tube has a serpentine configuration. 3. The composite fuel cell plate of claim 1 , wherein the at least one metal tube comprises stainless steel. 4. The composite fuel cell plate of claim 1 , comprising an acid flow prevention flap secured to the plate body along at least one of the oppositely facing surfaces and extending beyond an adjacent one of the oppositely facing edges of the plate body. 5. The composite fuel cell plate of claim 4 , wherein the plate body includes a land along the one of the oppositely facing surfaces; and a portion of the acid flow prevention flap is received in the land. 6. The composite fuel cell plate of claim 1 , wherein the polymer binder comprises a hydrophobic polymer binder including at least one of fluorinated ethylene-propylene, perfluoroalkoxy, and polytetrafluorethene. 7. The composite fuel cell plate of claim 1 , wherein the material is uniformly consistent throughout the entirety of the plate body.