Patent ID: 8916302

Claim:
A method for improving water balance in a steam reforming power unit operating in an ambient air environment, the ambient air environment having a temperature greater than 40 degrees Celsius, the method comprising: a. feeding an inlet air stream through a humidifier, wherein the inlet air stream is humidified by a cooled exhaust stream; b. feeding the humidified inlet air stream to a fuel cell cathode, wherein a portion of the oxygen in the humidified air stream is reacted with hydrogen from a fuel cell anode to form water and to produce an air stream having increased water content and decreased oxygen content; c. feeding the air stream with increased water content and decreased oxygen content to a combustor where oxygen within the air stream with increased water content and decreased oxygen content is reacted to produce heat and additional water, wherein the additional water produced is contained within an effluent stream of the combustor; d. cooling the combustor effluent stream and condensing a portion of the effluent stream to form liquid water, wherein the liquid water is collected in a water tank; e. feeding the cooled effluent stream to the humidifier, wherein a portion of uncondensed water in the cooled effluent stream is transferred to the inlet air stream; f. heating gas exiting the cathode side of the fuel cell by flowing it on a first side of a recuperative heat exchanger with the effluent gas from the combustor flowing on a second side of the recuperative heat exchanger prior to feeding the heated gas from the cathode side of the fuel cell into the combustor, wherein the effluent stream from the combustor transfers heat to a steam reformer before flowing on the second side of the recuperative heat exchanger; and g. providing a second combustor that produces a second effluent that transfers heat to the steam reformer, wherein the air to the second combustor is drawn from the humidified inlet air stream through a first check valve that prevents reverse flow during operation of the first combustor, and wherein the air stream with increased water content and decreased oxygen content fed to the first combustor passes through a second check valve to prevent backward flow during operation of the second combustor.