Abstract: Fuel cell systems and methods for controlling the operation of components of the fuel cell system, such as which may include a fuel source and a fuel cell stack. In some examples, a fuel source is adapted to provide supply fuel to a fuel cell stack at a supply pressure. In some systems, fuel not used by the fuel cell stack is discharged through at least one exit orifice at an exit pressure. In some examples, a control system is adapted to control operation of one or both of the fuel source and the fuel cell stack based on the flow of unused fuel. In some examples, a target pressure is determined based on the level of electrical current produced by a fuel cell stack, such that when fuel is supplied at the target pressure, the fuel cell stack consumes a given proportion of the supply fuel.
Abstract: Pressure swing adsorption (PSA) assemblies and hydrogen-producing fuel processing assemblies and/or fuel cell systems including the same. The PSA assemblies include, or are utilized with, combustion fuel stream supply systems that are adapted to regulate the flow of a byproduct stream from the PSA assembly for delivery to a heating assembly for use as a combustible fuel stream, such as to maintain at least a hydrogen-producing region of the fuel processing system at a hydrogen-producing temperature or range of temperatures. In some embodiments, the combustion fuel stream supply system is configured to ensure that the supply of combustible fuel from the PSA assembly to the heating assembly contains at least a sufficient fuel value, such as to maintain at least the hydrogen-producing region at or within a predetermined hydrogen-producing temperature or range of temperatures.
Type:
Grant
Filed:
September 2, 2008
Date of Patent:
November 23, 2010
Assignee:
Idatech, LLC
Inventors:
Patton M. Adams, Travis A. Bizjak, James A. Givens
Abstract: Pressure swing adsorption (PSA) assemblies with purge control systems, and hydrogen-generation assemblies and/or fuel cell systems containing the same. The PSA assemblies are operated according to a PSA cycle to produce a product hydrogen stream and a byproduct stream from a mixed gas stream. The byproduct stream may be delivered as a fuel stream to a heating assembly, which may heat the hydrogen-producing region that produces the mixed gas stream. The PSA assemblies may be adapted to regulate the flow of purge gas utilized therein, such as according to a predetermined, non-constant profile. In some embodiments, the flow of purge gas is regulated to maintain the flow rate and/or fuel value of the byproduct stream at or within a determined range of a threshold value, and/or to regulate the flow of purge gas to limit the concentration of carbon monoxide in a heated exhaust stream produced from the byproduct stream.
Abstract: Pressure swing adsorption (PSA) assemblies with temperature-based breakthrough detection systems, as well as to hydrogen-generation assemblies and/or fuel cell systems containing the same, and to methods of operating the same. The detection systems are adapted to detect a measured temperature associated with adsorbent in an adsorbent bed of a PSA assembly and to control the operation of at least the PSA assembly responsive at least in part thereto, such as responsive to the relationship between the measured temperature and at least one reference temperature. The reference temperature may include a stored value, a previously measured temperature and/or a temperature measured elsewhere in the PSA assembly. In some embodiments, the reference temperature is associated with adsorbent downstream from the adsorbent from which the measured temperature is detected.
Abstract: Systems and methods for producing hydrogen gas with a fuel processing system that includes a hydrogen-producing region that produces hydrogen gas from a feed stream and a heating assembly that consumes a fuel stream to produce a heated exhaust stream for heating the hydrogen-producing region. In some embodiments, the heating assembly heats the hydrogen-producing region to at least a minimum hydrogen-producing temperature. In some embodiments, the feed stream and the fuel stream both contain a carbon-containing feedstock and at least 25 wt % water. In some embodiments, at least one of the feed and fuel streams contain at least one additional component. In some embodiments, the feed and fuel streams have the same composition. In some embodiments, the feed and fuel streams are drawn or obtained from a common source or supply, and in some embodiments as a liquid stream that is selectively apportioned to form the feed and fuel streams.
Type:
Grant
Filed:
March 7, 2008
Date of Patent:
November 9, 2010
Assignee:
Idatech, LLC
Inventors:
David J. Edlund, Darrell J. Elliott, Alan E. Hayes, William A. Pledger, Curtiss Renn, Redwood Stephens, R. Todd Studebaker
Abstract: Multi-piece, reusable orthodontic appliances that include a support assembly to be bonded to a tooth and a corrective assembly adapted to receive an archwire and direct corrective forces exerted by the archwire to the tooth. The support assembly is releasably engaged with the corrective assembly, such as with coupling portions that disengage responsive to a force applied to the corrective assembly exceeding a predetermined value, such as less than a force sufficient to debond the support assembly from the tooth. In response to such a force, the corrective assembly disengages from the support assembly, rather than the appliance debonding from the tooth. Self-release assemblies for use with a corrective orthodontic bracket, including either a support assembly or a corrective assembly, and an engagement assembly configured to disengage as described above, may allow a conventional set of orthodontic hardware to be retrofitted with a self-release feature.
Abstract: Hydrogen-producing fuel processing systems, hydrogen purification membranes, hydrogen purification devices, and fuel processing and fuel cell systems that include hydrogen purification devices. In some embodiments, the fuel processing systems and the hydrogen purification membranes include a metal membrane, which is at least substantially comprised of palladium or a palladium alloy. In some embodiments, the membrane contains trace amounts of carbon, silicon, and/or oxygen. In some embodiments, the membranes form part of a hydrogen purification device that includes an enclosure containing a separation assembly, which is adapted to receive a mixed gas stream containing hydrogen gas and to produce a stream that contains pure or at least substantially pure hydrogen gas therefrom. In some embodiments, the membrane(s) and/or purification device forms a portion of a fuel processor, and in some embodiments, the membrane(s) and/or purification device forms a portion of a fuel processing or fuel cell system.
Type:
Grant
Filed:
August 11, 2008
Date of Patent:
October 26, 2010
Assignee:
Idatech, LLC
Inventors:
David J. Edlund, William A. Pledger, R. Todd Studebaker
Abstract: Hydrogen-producing fuel processing systems, hydrogen purification membranes, hydrogen purification devices, fuel processing and fuel cell systems that include hydrogen purification devices, and methods for operating the same. In some embodiments, operation of the fuel processing system is initiated by heating at least the reforming region of the fuel processing system to at least a selected hydrogen-producing operating temperature. In some embodiments, an electric heater is utilized to perform this initial heating. In some embodiments, use of the electric heater is discontinued after startup, and a burner or other combustion-based heating assembly combusts a fuel to heat at least the hydrogen producing region, such as due to the reforming region utilizing an endothermic catalytic reaction to produce hydrogen gas.
Type:
Grant
Filed:
April 20, 2009
Date of Patent:
September 7, 2010
Assignee:
IdaTech, LLC
Inventors:
David J. Edlund, William A. Pledger, R. Todd Studebaker
Abstract: A valve system for accepting fluid from a source supply at an upper end thereof, and ejecting it into a liquid container located below the valve system, including a fluid ejection limiting float element control located at the lower end of the valve system, to limit the amount of fluid which can be ejected.
Abstract: A control system and method for a fuel processing system. The control system automates the operation of a fuel processing system by monitoring operating parameters and automatically controlling the operation of the system responsive to the monitored parameters, predefined subroutines and/or user inputs.
Type:
Grant
Filed:
April 19, 2007
Date of Patent:
August 10, 2010
Assignee:
Idatech, LLC
Inventors:
David J. Edlund, Thomas G. Herron, William A. Pledger
Abstract: Systems, methods, and apparatus for creating a mold of a patient's teeth to which are installed orthodontic appliances with a support assembly bonded to a tooth. The appliances may include a corresponding corrective assembly with a wire engaging portion removably coupled to the support assembly. The systems and methods may include removing a corrective assembly from a support assembly, applying unset molding compound to the patient's teeth and corresponding support assemblies, setting the molding compound into a mold, and nondeformably removing the mold from the patient's mouth. The support assemblies may include a marker portion to indicate the position of the wire engaging portion of a corrective assembly that may be removed prior to making a mold and/or installed after making the mold. Marker assemblies adapted to removably engage a support assembly, and including such a marker portion, may be temporarily coupled to support assemblies prior to making a mold.