| Patent application number | Description | Published |
|---|
| 20130017459 | Gas Generator with Combined Gas Flow Valve and Pressure Relief Vent - A gas generator includes a reactant capable of producing a gas and a gas outlet valve that can function as both a gas flow valve and a pressure relief vent, using the same gas flow path through the valve. When the valve is closed and the pressure within the gas generator is below a threshold pressure, a moveable valve member is biased against a valve seat to block the outlet port. When gas generator is coupled to the apparatus, an actuator is inserted into the valve, displacing the moveable valve member and separating it from the valve seat to open the valve. When the gas generator is uncoupled, pressure at or above a threshold displaces the moveable member, separating it from the valve seat to open the outlet port so pressure can be released to the external environment. | 01-17-2013 |
| 20130028809 | Hydrogen Generator with Improved Fluid Distribution - The invention is a hydrogen generator including a housing, a reaction area, a fluid reservoir, a pellet comprising a first reactant within the reaction area, a fluid comprising a second reactant within the fluid reservoir, a fluid flow path between the fluid reservoir and the reaction area, and a hydrogen outlet. The fluid flow path comprises a follower assembly biased toward the pellet, the follower assembly includes an articulated joint and a follower, and the second reactant can react with the first reactant in the reaction area to produce hydrogen gas and byproducts. | 01-31-2013 |
| 20130101910 | Hydrogen Generator with Pump - The invention is a hydrogen generator including a pump for pumping a liquid from a reservoir to a reaction area, where the liquid reacts to produce hydrogen gas, and a fuel cell system including the hydrogen generator and a fuel cell stack. The pump is a diaphragm pump with mechanically operated liquid inlet and outlet valves that are opened by cam-operated pushrods, and the pushrods are isolated from the liquid flowpath through the pump by diaphragms. All valves in the liquid flow path between the liquid reservoir and the reaction area are mechanically operated valves. | 04-25-2013 |
| 20130108940 | Hydrogen Generator | 05-02-2013 |
| 20130115536 | Hydrogen Generator - A hydrogen generator and a fuel cell system including a fuel cell battery and the hydrogen generator. The hydrogen generator includes a cartridge including a plurality of pellets stacked within a casing, each pellet containing a hydrogen containing material capable of releasing hydrogen gas when heated; a compartment including a hydrogen outlet through a housing and as cavity within the housing within which the cartridge can be removably disposed; and an induction heating system. The induction heating system includes a plurality of secondary coils within the cartridge casing, with each secondary coil in contact with one or more of the pellets. The induction heating system also includes at least one primary coil within the compartment housing. The induction heating system provides an electromagnetic field from a flow of the current in the primary coil, induces an electric current in the secondary coil, and producing heat to heat the pellets. | 05-09-2013 |
| 20130244128 | Hydrogen Generator System with Liquid Interface - A hydrogen generator system and a fuel cell system including the hydrogen generator system are disclosed. The hydrogen generator system includes a replaceable cartridge that is removably contained within the system, and an external pump disposed outside the cartridge housing and configured to pump a fluid. The cartridge includes a cartridge housing, a liquid reservoir disposed within the cartridge housing and configured to contain a liquid including a reactant, a reaction area disposed within the cartridge housing and within which the reactant reacts to produce hydrogen gas, a liquid flow path disposed within the cartridge housing and through which the reactant liquid can flow from the liquid reservoir to the reaction area, and an internal pump disposed within the cartridge housing that can be operated by the external pump and is configured to transport the reactant liquid through the liquid flow path. | 09-19-2013 |
| 20130273452 | Fuel Cell Stack and Compression System Therefor - A fuel cell stack and a compression system for providing compressive force to a fuel cell stack having first and second ends is provided. The compression system includes asymmetric leaf springs operatively connected to first and second ends of the fuel cell stack. Each leaf spring includes a slot having first and second connector positions. The compression system also includes tension members connected to the leaf springs. The tension members compress the leaf springs to provide a compressive load to the fuel cell stack. | 10-17-2013 |
| 20140014205 | Valve Having Concentric Fluid Paths - A valve assembly is provided with concentric fluid paths and may be used on a hydrogen generator to transport liquid reactant to the hydrogen generator and hydrogen gas. The valve assembly includes a housing defining first and second fluid paths, a first valve member disposed in the first fluid path, and a second valve member disposed in the second fluid path. The assembly includes a connector including a first elongated member configured to engage the first valve member to open the first valve member to allow a first fluid to flow through the first fluid path, and a second fluid port including a second elongated member configured to allow fluid to flow through the second fluid path. The valve assembly is concentric in that the second fluid path surrounds at least a portion of the first fluid path. | 01-16-2014 |
| 20140295304 | METHODS OF GENERATING HYDROGEN GAS AND POWER - A hydrogen generator and a fuel cell system including a fuel cell battery and the hydrogen generator. The hydrogen generator includes a cartridge, a housing with a cavity to removably contain the cartridge, and an initiation system. The cartridge includes a casing; a plurality of pellets including a hydrogen containing material; a plurality of solid heat transfer members in contact with but not penetrating the casing; a hydrogen outlet in the casing; and a hydrogen flow path from each pellet to the hydrogen outlet. A plurality of heating elements is disposed inside the housing. When the cartridge is in the cavity, each heating element is disposed so heat can be conducted from the heating element and through the casing and corresponding heat transfer member to initiate the release of hydrogen gas. The initiation system can selectively heat one or more pellets to release hydrogen gas as needed. | 10-02-2014 |
| 20140356741 | HYDROGEN GAS GENERATOR WITH FLEXIBLE FEED MEMBER - A hydrogen generator ( | 12-04-2014 |
| 20140356742 | HYDROGEN GAS GENERATOR - A hydrogen generator includes a cartridge including a plurality of thermal conductors each having an outer wall assembled together to form a housing. A plurality of fuel pellets provided on the plurality of thermal conductors. Each fuel pellet has a hydrogen-containing reactant that will react to release hydrogen gas when heated. The hydrogen generator also includes a compartment configured to removably contain the cartridge. The hydrogen generator further includes a plurality of heating elements disposed in the compartment such that each heating element is in thermal communication with one of the thermal conductors when the cartridge is disposed within the compartment to generate heat to selectively heat one or more fuel pellets to initiate a reaction to produce hydrogen gas. | 12-04-2014 |
| 20150023846 | Hydrogen Generator - A hydrogen generator and a fuel cell system including a fuel cell battery and the hydrogen generator. The hydrogen generator includes a cartridge, a housing with a cavity to removably contain the cartridge, and an initiation system. The cartridge includes a casing; a plurality of pellets including a hydrogen containing material; a plurality of solid heat transfer members in contact with but not penetrating the casing; a hydrogen outlet in the casing; and a hydrogen flow path from each pellet to the hydrogen outlet. A plurality of heating elements is disposed inside the housing. When the cartridge is in the cavity, each heating element is disposed so heat can be conducted from the heating element and through the casing and corresponding heat transfer member to initiate the release of hydrogen gas. The initiation system can selectively heat one or more pellets to release hydrogen gas as needed. | 01-22-2015 |
