Humidity transfer assemblies for fuel cells and higher-temperature electrochemical systems

What is claimed is: 1. A humidity transfer assembly comprising: a pressure vessel; and a humidity transfer device disposed in the pressure vessel, the humidity transfer device comprising: an enclosure; a first inlet line fluidly coupled to the enclosure and configured to supply anode exhaust thereto; a first outlet line fluidly coupled to the enclosure and configured to output the anode exhaust therefrom; and a second inlet line fluidly coupled to the enclosure and configured to supply feed gas thereto; wherein the humidity transfer device is configured to transfer steam from the anode exhaust to the feed gas to produce partially-humidified feed gas, and to output the partially-humidified feed gas into the pressure vessel, and wherein the pressure vessel is configured to be pressurized with the partially-humidified feed gas. 2. The humidity transfer assembly of claim 1 , further comprising a feed gas outlet formed in the pressure vessel and configured to output humidified feed gas from the pressure vessel. 3. The humidity transfer assembly of claim 1 , wherein the humidity transfer device is a shell-and-tube configuration. 4. The humidity transfer assembly of claim 1 , wherein the humidity transfer device is a planar stack configuration. 5. The humidity transfer assembly of claim 1 , wherein a pressure in the pressure vessel is approximately the same as a pressure of the anode exhaust received in the enclosure. 6. The humidity transfer assembly of claim 5 , wherein the enclosure is formed from plastic. 7. The humidity transfer assembly of claim 1 , further comprising: water disposed in the pressure vessel and defining a water level; and a feed gas conduit extending from the enclosure and defining a conduit outlet disposed below the water level. 8. The humidity transfer assembly of claim 7 , wherein an introduction of the feed gas from the feed gas conduit into the water vaporizes a portion of the water. 9. The humidity transfer assembly of claim 7 , further comprising a water level controller configured to adjust a steam-to-carbon ratio for the feed gas in the pressure vessel by controlling the water level in the pressure vessel. 10. The humidity transfer assembly of claim 1 , further comprising a polymer-electrolyte membrane disposed in the enclosure and separating the anode exhaust from the feed gas. 11. The humidity transfer assembly of claim 10 , wherein the polymer-electrolyte membrane is formed from a hydrocarbon. 12. A fuel cell system comprising: a pressure vessel; an electrochemical hydrogen separator having an anode and a cathode; and a humidity transfer device disposed in the pressure vessel, the humidity transfer device comprising: an enclosure, a first inlet line fluidly coupled to the enclosure and configured to supply anode exhaust from the anode to the enclosure, a first outlet line fluidly coupled to the enclosure and configured to output the anode exhaust therefrom, and a second inlet line fluidly coupled to the enclosure and configured to supply cathode exhaust from the cathode to the enclosure; wherein the humidity transfer device is configured to transfer steam from the anode exhaust to the cathode exhaust to produce partially-humidified cathode exhaust, and to output the partially-humidified cathode exhaust into the pressure vessel; and wherein the pressure vessel is configured to be pressurized with the partially-humidified cathode exhaust. 13. The fuel cell system of claim 12 , further comprising a polymer-electrolyte membrane disposed in the humidity transfer device, the polymer-electrolyte membrane separating the cathode exhaust from the anode exhaust and passing steam therebetween. 14. The fuel cell system of claim 12 , further comprising a fuel cell having an anode and a cathode; wherein the anode of the electrochemical hydrogen separator is configured to receive anode exhaust from the anode of the fuel cell. 15. The fuel cell system of claim 12 , further comprising an electrochemical hydrogen compressor having an anode and a cathode; wherein the anode of the electrochemical hydrogen compressor is configured to receive humidified cathode exhaust from the pressure vessel. 16. The fuel cell system of claim 15 , wherein: the cathode of the electrochemical hydrogen compressor is configured to output hydrogen; and wherein at least a portion of the hydrogen is mixed with the cathode exhaust output from the cathode of the electrochemical hydrogen separator. 17. The fuel cell system of claim 16 , wherein the hydrogen is mixed with the cathode exhaust upstream from the humidity transfer device. 18. A fuel cell system comprising: a pressure vessel; a fuel cell having an anode and a cathode; an electrochemical hydrogen separator having an anode and a cathode; and a humidity transfer device disposed in the pressure vessel, the humidity transfer device comprising: an enclosure, a first inlet line fluidly coupled to the enclosure and configured to supply anode exhaust from the anode of the fuel cell to the enclosure, a first outlet line fluidly coupled to the enclosure and configured to output the anode exhaust therefrom, and a second inlet line fluidly coupled to the enclosure and configured to supply cathode exhaust from the cathode of the electrochemical hydrogen separator to the enclosure; wherein the humidity transfer device is configured to transfer steam from the anode exhaust to the cathode exhaust to produce partially-humidified cathode exhaust, and to output the partially-humidified cathode exhaust into the pressure vessel; and wherein the pressure vessel is configured to be pressurized with the partially-humidified cathode exhaust. 19. The fuel cell system of claim 18 , further comprising a polymer-electrolyte membrane disposed in the humidity transfer device, the polymer-electrolyte membrane separating the cathode exhaust from the anode exhaust and passing steam therebetween. 20. The fuel cell system of claim 18 , wherein the humidity transfer device is configured to output dehumidified anode exhaust to the anode of the electrochemical hydrogen separator.