Patent application number | Description | Published |
20100230292 | INTEGRATED SOLAR-POWERED HIGH-PRESSURE HYDROGEN PRODUCTION AND BATTERY CHARGING SYSTEM - One embodiment of the invention includes a photovoltaic system that provides both electricity and low-grade heat, together with many options of utilizing the energy. The electricity may efficiently be used to drive a high-pressure electrolyzer that produces hydrogen. The hydrogen pressure may be boosted to a final compression of at least 700 bar. In one embodiment the pressure may be boosted using a metal-hydride compressor and stored. The stored high pressure hydrogen may be used to fill fuel-cell electric vehicle (FCEV) tanks. The electricity can also be used to efficiently charge the batteries in an extended range electric vehicle (EREV). | 09-16-2010 |
20100231162 | SOLAR POWERED BATTERY CHARGING METHODS AND DEVICES FOR LITHIUM-ION BATTERY SYSTEMS - Exemplary embodiments include methods and devices for storing and recovering renewable solar (photovoltaic) energy in batteries by using circuits that automatically connect batteries in parallel during charging and in series when discharging and to build battery strings that automatically resist overcharging and excessive discharging. Other embodiments may include methods for optimizing the efficiency of solar charging by varying the number of battery cells in series to match the battery voltage to the photovoltaic maximum power point voltage. | 09-16-2010 |
20100276299 | HIGH PRESSURE ELECTROLYSIS CELL FOR HYDROGEN PRODUCTION FROM WATER - Exemplary embodiments include a method or apparatus for improving the electrolysis efficiency of high-pressure electrolysis cells by decreasing the current density at the anode and reducing an overvoltage at the anode while decreasing the amount of hydrogen permeation through the cell membrane from the cathode chamber to the anode chamber as the high-pressure electrolysis cell is operated. | 11-04-2010 |
20110297204 | METHOD AND DEVICE FOR OPTIMIZING THE USE OF SOLAR ELECTRICAL POWER - A method for optimizing the use of solar electrical power is disclosed. An operating voltage is determined for a process and at least a second process. The process is selectively connected to a portion of a photovoltaic array having a maximum power point voltage matching the operating voltage of the process. The at least a second process is selectively connected to a respective at least a second portion of the photovoltaic array having a maximum power point voltage matching the operating voltage of the at least a second process. The photovoltaic array has an available amount of electrical power that is distributed to the process and the at least a second process. | 12-08-2011 |
20110301790 | OPTIMIZING USE OF SOLAR PHOTOVOLTAIC-GENERATED ELECTRICITY IN ELECTRIC OR HYBRID VEHICLES - An electric or hybrid-electric vehicle is provided with vehicle-mounted solar cells capable of generating electrical power. The power from the array is directed to vehicle systems according to a pre-determined algorithm intended to most effectively extend the vehicle range when operated under electric power. Power from the solar cells is directed by a controller, and may be applied to directly charge the batteries or to power electric power receiving devices, for example, to control cabin temperatures, depending on factors including the state of charge of the batteries, whether or not, the vehicle is parked and the current cabin temperature. The controller is also capable of controlling and managing the operating voltage of the solar cells to ensure optimal power extraction from the cells. | 12-08-2011 |
Patent application number | Description | Published |
20080236646 | Thermal optimization of a solar photovoltaic powered electrolyzer system - One embodiment of the invention includes a process comprising transmitting electrical power produced by a PV array to an electrolyzer and transferring heat from the PV array to the electrolyzer. The resulting process produces renewable hydrogen from solar energy at a lower cost per kg. | 10-02-2008 |
20080236647 | Apparatus to reduce the cost of renewable hydrogen fuel generation by electrolysis using combined solar and grid power - One embodiment of the invention includes a PV array and an electrolyzer operatively connected together and each operatively connected to a utility power grid so that electricity produced by the PV array is selectively delivered to the utility power grid and the electrolyzer. The resulting process increases the efficiency of the solar-hydrogen production process, and results in lower-cost renewable hydrogen. | 10-02-2008 |
20090266397 | SOLAR BATTERY CHARGING SYSTEM AND OPTIONAL SOLAR HYDROGEN PRODUCTION SYSTEM FOR VEHICLE PROPULSION - A product includes a vehicle battery, capable of being charged using solar energy, a plurality of photovoltaic cells, arranged in at least one of series or parallel, forming an array that produces a self-regulated voltage and current for charging the vehicle battery using solar energy, and an electrical connection linking the array to the vehicle battery. | 10-29-2009 |
20100025232 | RECOVERING THE COMPRESSION ENERGY IN GASEOUS HYDROGEN AND OXYGEN GENERATED FROM HIGH-PRESSURE WATER ELECTROLYSIS - Exemplary embodiments include an apparatus, and method associated therewith, for recovering the compression energy stored in hydrogen gas and oxygen gas generated by the electrolysis of water in a high-pressure water electrolyzer. The restored compression energy may be recovered and converted to a useable form to provide power to the high-pressure water electrolyzer, or alternatively to provide usable power to a coupled system that uses high-pressure hydrogen gas or oxygen gas such as a fuel cell for an electric vehicle, or both for use in providing power to the electrolyzer and to the fuel cell electric vehicle. | 02-04-2010 |
20100089747 | High pressure proton exchange membrane based water electrolyzer system - A high pressure proton exchange membrane based water electrolyzer system that may include a series of proton exchange membrane (PEM) cells that may be electrically coupled together and coupled to a proton exchange membrane to form a membrane electrode assembly (MEA) that is spiral wound onto a conductive center post, wherein an innermost PEM cell of the MEA may be electrically connected with the conductive center post, or center electrode, and wherein an outermost PEM cell of the MEA may be electrically coupled to pressure vessel cylinder, or outer electrode. Each PEM cell may include an anode portion and a cathode portion separated by a portion of the PEM membrane. In addition, a non-permeable separator layer may also be spiral wound around the conductive center post and separates the wound portions of the PEM core. | 04-15-2010 |