Abstract: A humidifier (16) includes a hollow fiber module (42) in which a gas to be humidifier flows, and a tubular casing (30) that houses the hollow fiber module (42). An inlet port (32) for introducing a humidifying gas into a flow path (30h) is formed on the peripheral surface on one end side of the casing (30), and an outlet port for discharging the humidifying gas from the flow path 30h is formed on the peripheral surface of the other end side of the casing 30. The casing (30) includes a curved portion (37), and the hollow fiber module (42) is curved along the shape of the curved portion (37).

Abstract: A humidifier assembly for humidifying fuel for use in a fuel cell system, comprising a water heater adapted to receive recycled water and to generate heated water using cathode exhaust, and a fuel saturator adapted to receive deaerated cleansed water, at least a portion of the deaerated cleansed water comprising the heated water, and fuel and to humidify the fuel with a first portion of the deaerated cleansed water, the fuel saturator tower outputting humidified fuel for use in the fuel cell system and a second portion of the deaerated cleansed water for use as recycled water in the water heater.

Abstract: A passive humidifier membrane includes polyolefin with a plurality of pores, wherein the average pore size of the plurality of pores is 0.05 ?m to 0.4 ?m as established by a PMI Capillary Flow Porometer. The humidifier membrane is virtually airtight while providing a high transfer rate of water. Transfer of heat is also high. The humidifier membrane is particularly suitable for heat exchange and water transfer between fluids and, it is particularly useful for applications inside or outside fuel cells such as PEMFC. The membrane is also particularly useful in the application as humidifier for air or oxygen.

Abstract: A humidification system using an injector for a fuel cell stack includes: a fuel cell separator including a reaction flow field, and an air inlet port and an air outlet port formed at a front portion and an end portion of the reaction flow field, respectively; a humidification chamber provided at a part of or the whole length of the front portion of the reaction flow field of the separator; and an injector mounted at a starting point of the humidification chamber to inject a mixture of water and air into the humidification chamber. With the system, humidification efficiency can be improved and/or maximized without an increase in the volume of the fuel cell stack.

Abstract: An end plate of a fuel cell stack is directly fixed to a humidifier. A resin pipe is attached to an oxygen-containing gas outlet of an end plate through a resin coupling pipe. The resin pipe includes one end having a large diameter and the other end having a small diameter. The other end is provided at an off gas supply channel of the humidifier. The off gas supply channel includes an inclined channel. The other end extends up to an end of the inclined channel where inclination of the inclined channel is started. An off gas ejection port is formed at the other end. The off gas ejection port is opened to the end of the inclined channel where inclination is started. Condensed water returned along the inclined channel flows from the off gas ejection port into the resin pipe.

Abstract: A WVT unit for a fuel cell system that employs a spiral-wound design to reduce its size and increase its performance. The WVT unit includes a center tube having a plurality of openings through which the cathode exhaust gas flows. The WVT unit also includes a cylindrical portion wound around the center tube that includes a plurality of enclosures and a plurality of dry spacer layers separating the enclosures. Each enclosure includes a pair of membranes separated by a wet spacer layer. The dry cathode inlet air flows down the dry spacer layers between the enclosures and the cathode exhaust gas flows into the plurality of enclosures through the openings in the center tube along the wet spacer layers to allow the membranes to absorb humidification that is transferred to the cathode inlet air.

Abstract: This specification discloses a humidifier that attains the inhibition of the damaging of a steam permeable membrane at low temperatures, and a fuel cell system. The humidifier has a steam permeable membrane therein. In the humidifier, an oxidizing gas and an oxidizing off gas with a humidity higher than that of the oxidizing gas are introduced, and the oxidizing gas is humidified by the oxidizing off gas via the steam permeable membrane. The steam permeable membrane is located at a position lower than an inlet for the oxidizing gas but higher than an outlet therefor. Further, the steam permeable membrane is located at a position lower than an inlet for the oxidizing off gas but higher than an outlet therefor.

Abstract: The present invention reduces deterioration in the output of a fuel cell caused by a high moisture concentration at an oxidant electrode. A control apparatus for a fuel cell comprising an electrolyte membrane, an oxidant electrode provided on one side of the electrolyte membrane, and a fuel electrode provided on the other side of the electrolyte membrane, in which electric power is generated from an oxidant gas supplied to the oxidant electrode and a fuel gas supplied to the fuel electrode, wherein when the current-voltage characteristics of the fuel cell fall below a predetermined reference level, and the electrolyte membrane has not dried beyond a predetermined reference level, the control apparatus executes a control operation that increases the gas pressure at the oxidant electrode.

Abstract: A polymer electrolyte fuel cell system is disclosed, comprising a fuel cell having a predetermined power generation portion configured to operate at a predetermined temperature to generate an electric power using a fuel gas and an oxidizing gas supplied to said fuel cell, and a humidifier configured to humidify the fuel gas and the oxidizing gas, wherein the humidifier is configured to humidify the fuel gas and the oxidizing gas to allow the fuel gas and the oxidizing gas to have dew points higher than the predetermined temperature, the humidified fuel gas and oxidizing gas having the dew points higher than the operating temperature being supplied to the fuel cell.