MY133905A - Fuel cells employing integrated fluid management platelet technology - Google Patents

Abstract

FUEL CELL STACKS COMPRISING STACKED SEPARATOR/MEMBRANE ELECTRODE ASSEMBLY CELLS IN WHICH THE SEPARATORS COMPRISES A SERIES OF STACKED THIN SHEET PLATELETS HAVING INDIVIDUALLY CONFIGURED SERPENTINE MICRO-CHANNEL REACTANT GAS HUMIDIFICATION, ACTIVE AREA AND COOLING FIELDS THEREIN. THE INDIVIDUAL PLATELETS ARE STACKED WITH COORDINATE FEATURES PRECISELY ALIGNED IN CONTACT WITH ADJACENT PLATELETS AND BONDED TO FORM A MONOLITHIC SEPARATOR. POST BONDING PROCESSING INCLUDES PASSIVATION, SUCH AS NITRIDING. PREFERRED PLATELET MATERIAL IS 4-25 MLL TL IN WHICH THE FEATURES, SERPENTINE CHANNELS, TABS, LANDS, VIAS, MANIFOLDS AND HOLES, ARE FORMED BY CHEMICAL OR LASER ETCHING, CUTTING, PRESSING OR EMBOSSING, WITH COMBINATIONS OF DEPTH AND THROUGH-ETCHING BENG PREFERRED. THE PLATELET MANUFACTURING PROCESS IS CONTINUOUS AND FAST. BY EMPLOYING CAD BASED PLATELET DESIGN AND PHOTOLITHOGRAPHY, RAPID CHANGE IN FEATURE DESIGN TO ACCOMMODATE A WIDE RANGE OF THERMAL MANAGEMENT AND HUMIDIFICATION TECHNIQUES. 100 CELL H2-O2/AIR PEM FUEL CELL STACKS OF THIS IFMT PLATELET DESIGN WILL EXHIBIT OUTPUTS ON THE ORDER OF .75 KW/KG, SOME 3-6 TIMES GREATER THAN CURRENT GRAPHITE PLATE PEM STACKS.