| Patent application number | Description | Published |
|---|
| 20080257054 | Differential Pressure Measuring Transducer Unit - The disclosure relates to a differential pressure transducer unit comprising an over-load protection system which is used to measure low differential pressure in liquids and gases under high static pressure load which can be connected to flanges on the working pressure lines. The differential pressure transducer unit consists of a planar multi-layered arrangement comprising layers which are conductive, insulating and which are insulated from each other, whereby the insulating and conductive layers comprises recesses which at least partially cover each other, wherein the measuring mechanism and the measuring value processing means are accommodated. At least one of the layers is a functional component of the over-load protection system. | 10-23-2008 |
| 20090269634 | System for purging non-fuel material from fuel cell anodes - A fuel cell gas purge system is provided that includes at least one fuel cell, such as a fuel cell stack or a fuel cell array, a fuel supply, and an adjustable fuel cell current load. The system further includes at least one passive purge valve disposed to purge accumulated non-fuel matter in the fuel cell, and operates according to a pressure differential across the valve. The valve can be a passive bi-directional valve, such as a dome valve, or a passive unidirectional valve. Further included is a purge management module that has a purge request module to determine when to increase the pressure of the hydrogen fuel to initiate the purge, and a purge complete module to determine when to adjust the pressure of the hydrogen fuel to complete the purge. The non-fuel matter can include non-fuel gases or condensed water. | 10-29-2009 |
| 20090305112 | Fuel cell air exchange apparatus - A fuel cell air exchanger is provided. The fuel cell air exchanger includes a platform having at least one throughput opening and at least one holding post, where the holding post fixedly holds a fuel cell offset from the platform and proximal to the opening, where the opening can have many shapes. The fuel cell air exchanger provides an unimpeded air exchange through the openings to the fuel cell and can be flexible, semi-flexible or rigid. The fuel cell air exchanger can hold an array of fuel cells and fuel cell electronics. A chimney feature provides enhanced airflow when the air exchanger is disposed in a vertical position. | 12-10-2009 |
| 20100173214 | Controller for fuel cell operation - The current invention is a fuel cell controller that includes a first control loop, where the first control loop is disposed to adjust a fuel cell current to regulate a hydrogen output pressure from the fuel cell to a pressure target valve, and further includes a second control loop disposed to adjust a hydrogen flow rate from a hydrogen generator to match a DC/DC power output to a power target value. | 07-08-2010 |
| 20110020215 | Chemical hydride formulation and system design for controlled generation of hydrogen - A chemical hydride liquid reactant distribution mixture is provided. The mixture includes a fuel mixture having at least one hydride and at least one activating agent. The invention further includes a liquid-distributing agent (LDA), a form-stabilizing agent, and at least one anti-caking agent. The liquid reactant distribution mixture reduces caking and precipitation while promoting liquid reactant distribution, where the chemical hydride liquid reactant distribution mixture generates hydrogen via hydrolysis. | 01-27-2011 |
| 20110070151 | HYDROGEN GENERATOR AND PRODUCT CONDITIONING METHOD - A hydrogen generator that includes a solid fuel mixture, a liquid reactant, a liquid delivery medium (LDM), a movable boundary interface (MBI), a reaction zone, wherein the MBI provides constant contact between a reacting surface of the solid fuel mixture and the liquid reactant delivered by the LDM to form the reaction zone, and a product separation media, fluidly coupled to the reaction zone by a fluid junction, that degasses a product. The hydrogen generator may further include auxiliary LDMs disposed throughout the hydrogen generator, wherein said auxiliary LDMs may be operated based on a ratio of the liquid reactant flow rate to the hydrogen generation rate. | 03-24-2011 |
