Hydrogen generation assemblies and methods of generating hydrogen are disclosed. In some embodiments, the method may include receiving a feed stream in a fuel processing assembly of the hydrogen generation assembly; and generating a product hydrogen stream in the fuel processing assembly from the re
Hydrogen generation assemblies and methods of generating hydrogen are disclosed. In some embodiments, the method may include receiving a feed stream in a fuel processing assembly of the hydrogen generation assembly; and generating a product hydrogen stream in the fuel processing assembly from the received feed stream. Generating a product hydrogen stream may, in some embodiments, include generating an output stream in a hydrogen generating region from the received feed stream, and generating the product hydrogen stream in a purification region from the output stream. The method may additionally include receiving the generated product hydrogen stream in a buffer tank of the hydrogen generation assembly; and detecting pressure in the buffer tank via a tank sensor assembly. The method may further include stopping generation of the product hydrogen stream in the fuel processing assembly when the detected pressure in the buffer tank is above a predetermined maximum pressure.
대표청구항▼
1. A method of generating hydrogen in a hydrogen generation assembly, comprising: receiving a feed stream in a fuel processing assembly of the hydrogen generation assembly;generating a product hydrogen stream in the fuel processing assembly from the received feed stream, wherein generating the produ
1. A method of generating hydrogen in a hydrogen generation assembly, comprising: receiving a feed stream in a fuel processing assembly of the hydrogen generation assembly;generating a product hydrogen stream in the fuel processing assembly from the received feed stream, wherein generating the product hydrogen stream includes (a) generating an output stream in a hydrogen generating region of the fuel processing assembly from the received feed stream, and (b) generating the product hydrogen stream in a purification region of the fuel processing assembly from the output stream, the output stream contains hydrogen gas and the product hydrogen stream includes a hydrogen concentration greater than the output stream;receiving the generated product hydrogen stream in a buffer tank of the hydrogen generation assembly;detecting pressure in the buffer tank via a tank sensor assembly;stopping, via a control assembly, generation of the product hydrogen stream in the fuel processing assembly when the detected pressure in the buffer tank is above a predetermined maximum pressure, wherein stopping generation of the product hydrogen stream does not include powering down the fuel processing assembly and does not include loss of power to the fuel processing assembly; andcontrolling, via the control assembly, a product valve assembly to vent the product hydrogen stream from the fuel processing assembly when generation of the product hydrogen stream has stopped, wherein receiving the generated product hydrogen stream in a buffer tank includes controlling, via the control assembly, the product valve assembly so the product valve assembly does not vent the product hydrogen stream from the fuel processing assembly. 2. The method of claim 1, further comprising controlling, via the control assembly, the product valve assembly to isolate the buffer tank from the product hydrogen stream generated by the fuel processing assembly when generation of the product hydrogen stream has stopped. 3. The method of claim 2, further comprising opening, via the control assembly, a purge valve to allow a purge gas to flow through one or more portions of the fuel processing assembly based on detecting an interruption of power to the fuel processing assembly. 4. A method of generating hydrogen in a hydrogen generation assembly, the hydrogen generation assembly including: a fuel processing assembly configured to receive a feed stream and to be operable among a plurality of modes, including a run mode in which the fuel processing assembly generates a product hydrogen stream from the feed stream, and a standby mode in which the fuel processing assembly does not generate the product hydrogen stream from the feed stream, wherein the standby mode does not include when the fuel processing assembly is powered down and does not include loss of power to the fuel processing assembly, wherein the fuel processing assembly includes a hydrogen generating region and a purification region, the hydrogen generating region being configured to receive the feed stream and to generate an output stream containing hydrogen gas, the purification region being configured to receive the output stream and generate the product hydrogen stream, the product hydrogen stream having a hydrogen concentration greater than the output stream,a buffer tank configured to contain the product hydrogen stream,a product conduit fluidly connecting the fuel processing assembly and the buffer tank,a tank sensor assembly configured to detect pressure in the buffer tank,a control assembly configured to operate the fuel processing assembly between the run and standby modes based, at least in part, on the detected pressure in the buffer tank, anda product valve assembly configured to direct flow of the product hydrogen stream in the product conduit; the method comprising:receiving the feed stream in the fuel processing assembly when the fuel processing assembly is in the run mode;generating the product hydrogen stream in the fuel processing assembly from the received feed stream when the fuel processing assembly is in the run mode, wherein generating the product hydrogen stream includes (a) generating the output stream in the hydrogen generating region of the fuel processing assembly from the received feed stream, and (b) generating the product hydrogen stream in the purification region of the fuel processing assembly from the output stream;controlling, via the control assembly, the product valve assembly so the product valve assembly does not vent the product hydrogen stream from the fuel processing assembly when the fuel processing assembly is in the run mode;receiving the product hydrogen stream in the buffer tank;detecting pressure in the buffer tank via the tank sensor assembly;placing, via the control assembly, the fuel processing assembly in standby mode when the detected pressure in the buffer tank is above a predetermined maximum pressure; andcontrolling, via the control assembly, the product valve assembly to vent the product hydrogen stream from the fuel processing assembly when the fuel processing assembly is in the standby mode. 5. The method of claim 4, wherein venting the product hydrogen stream includes controlling, via the control assembly, the product valve assembly to isolate the buffer tank from the product hydrogen stream generated by the fuel processing assembly when the fuel processing assembly is in the standby mode. 6. The method of claim 5, where the fuel processing assembly further includes a purge assembly having a purge valve, wherein the method further comprises opening, via the control assembly, the purge valve to allow a purge gas to flow through one or more portions of the fuel processing assembly based on detecting an interruption of power to the fuel processing assembly.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (111)
Buxbuam Robert E., Apparatus and methods for gas extraction.
Juda Walter ; Krueger Charles W. ; Bombard R. Todd, Diffusion-bonded palladium-copper alloy framed membrane for pure hydrogen generators and the like and method of prepar.
David J. Edlund ; Charles R. Hill ; William A. Pledger ; R. Todd Studebaker, Hydrogen purification devices, components and fuel processing systems containing the same.
Edlund, David J.; Hill, Charles R.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification devices, components and fuel processing systems containing the same.
Edlund, David J.; Hill, Charles R.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification devices, components and fuel processing systems containing the same.
Edlund, David J.; Hill, Charles R.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification devices, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen purification membranes, components and fuel processing systems containing the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen-selective metal membranes, membrane modules, purification assemblies and methods of forming the same.
Edlund, David J.; Pledger, William A.; Studebaker, R. Todd, Hydrogen-selective metal membranes, membrane modules, purification assemblies and methods of forming the same.
Edlund,David J.; Pledger,William A.; Studebaker,R. Todd, Hydrogen-selective metal membranes, membrane modules, purification assemblies and methods of forming the same.
Friesen Dwayne T. ; Babcock Walter C. ; Edlund David J. ; Lyon David K. ; Miller Warren K., Liquid absorbent solutions for separating nitrogen from natural gas.
Krueger,Charles W., Method of optimally operating a palladium-copper alloy membrane in the generation of pure hydrogen from a fossil fuel reformate at a controlled high temperature.
Adams, Patton M.; Edlund, David J.; Popham, Vernon Wade; Scharf, Mesa; Studebaker, R. Todd, Self-regulating feedstock delivery systems and hydrogen-generating fuel processing assemblies and fuel cell systems incorporating the same.
Edlund, David J.; Studebaker, R. Todd, Self-regulating feedstock delivery systems and hydrogen-generating fuel processing assemblies and fuel cell systems incorporating the same.
Edlund, David J.; Studebaker, R. Todd, Self-regulating feedstock delivery systems and hydrogen-generating fuel processing assemblies and fuel cell systems incorporating the same.
H?bner, Holger; Kripesh, Vaidyanathan, Soldering agent for use in diffusion soldering processes, and method for producing soldered joints using the soldering agent.
Edlund, David J.; Elliott, Darrell J.; Hayes, Alan E.; Pledger, William A.; Renn, Curtiss; Stephens, Redwood; Studebaker, R. Todd, Steam reforming fuel processor, burner assembly, and methods of operating the same.
Edlund, David J.; Elliott, Darrell J.; Hayes, Alan E.; Pledger, William A.; Renn, Curtiss; Stephens, Redwood; Studebaker, R. Todd, Steam reforming fuel processor, burner assembly, and methods of operating the same.
Friesen Dwayne T. (Bend OR) Miller Warren K. (Bend OR) Johnson Bruce M. (Bend OR) Edlund David J. (Bend OR), Sterically hindered, regenerable Schiff base complexes, solutions thereof and process using the same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.