| Entries |
| Document | Title | Date |
|---|
| 20080203729 | Floating power generation device and system - A floating power generating device that includes a support frame having a pair of buoyant pontoons, a power generator mounted to the support frame between the pontoons, an electrical cable in electrical communication with the power generator, and means for maintaining the floating power generating device in a substantially fixed position within the flow of water. | 08-28-2008 |
| 20080238099 | Water supply tunnel secondary purpose turbine electric power generator system - A water supply tunnel secondary purpose turbine electric power generator system includes: a.) a water supply subsystem with a water source at an elevation that is at least 300 feet above the mean altitude of a community, that includes a gravity fed underground water tunnel being located, at least in part, upstream from the community, and, at least in part, being located under the community. There is a plurality of riser conduits in the community connected to the gravity fed underground water tunnel, delivering water from the water source to the community at a pressure that is at least 100 psi in excess of desired water pressure delivered to community water lines; b.) water valving subsystems connected to each of the riser conduits and one of each including at least one safety valve, to lower water pressure of the delivered water; and, c.) a power generating turbine subsystem, including at least one water driven turbine located in at least one of the water supply subsystem and water valving subsystem. | 10-02-2008 |
| 20080284168 | Pulsed energy transfer - A system capable of converting fluid energy into electrical energy in conditions of low fluid flow is provided. In an embodiment, the system may engage and disengage an energy converter via an automatic clutch. In an embodiment, the transmission of energy to an energy converter is controlled by switching the energy converter on and off. In another embodiment, the flow of electrical energy to an electrical load is controlled by a switching device. In another embodiment, a funnel is used for condensing the flow of fluid moving through the system. | 11-20-2008 |
| 20080284169 | Method and system for generating electricity through the use of a moving vehicle - A method and system of producing electrical energy by a moving vehicle. Moving air would be introduced to the vehicle provided with a generator for producing electricity. This electricity would be transmitted to one or more storage batteries connected between the generator and the vehicle's motor. Once sufficient energy is stored in the storage batteries, the vehicle would proceed to a facility for transferring the stored electricity in the storage batteries to batteries or other storage devices provided at the facility. The vehicle's owner would then receive remuneration or credit based upon the amount of energy transferred. | 11-20-2008 |
| 20090021011 | Hydro turbine generator - A hydroelectric turbine generator and control system is provided that optimizes the maximum possible power output at all times by strictly monitoring power output from the generator unit and modulating the wicket gate angle and the runner blade pitch independently of one another. The hydroelectric turbine generator includes a means for separately controlling wicket gate angle and runner blade pitch. The wicket gate angle control mechanism controls the flow into the system, pre conditions flow for maximum power and maintains reservoir level. The runner blade pitch control mechanism continuously monitors the system power output based on actual power produced, and adjusts system parameters in order to achieve maximum power output. | 01-22-2009 |
| 20090079191 | ELECTRIC POWER GENERATION WITH MAGNETICALLY GEARED MACHINE - A power generation system includes: a prime mover; an electrical machine coupled to the prime mover and configured for converting mechanical power to electrical power, the electrical machine having a power factor of less than or equal to 0.7; a reactive power supply assembly coupled to the electrical machine and configured to supply reactive power to the electrical machine; and a power electronic converter coupled to the reactive power supply assembly and configured for transferring power from the electrical machine to a grid. | 03-26-2009 |
| 20090085353 | HYDROELECTRIC PUMPED-STORAGE - Hydroelectric pumped-storage includes monitoring electrical demand on a system over time. If the monitored demand exceeds a predetermined first value, fluid is allowed to flow substantially under the influence of gravity from a first aquifer to a second aquifer. Kinetic energy from the flowing fluid is converted into electrical energy. If the monitored demand drops below a predetermined second value, fluid from the second aquifer is moved to the first aquifer. | 04-02-2009 |
| 20090102193 | Fluid-driven electric generator for operatively connecting to a conduct carrying a fluid - A fluid-driven electric generator for operatively connecting to a conduit carrying a fluid. The generator includes a driving portion and a generating portion. The driving portion is non-protrudingly positioned in the conduit so as to have its placement be non-visible from outside the conduit and is activated by the fluid flowing in the conduit. The generating portion is operatively connected to the driving portion and generates electricity when the driving portion is activated by the fluid flowing in the conduit. | 04-23-2009 |
| 20090115189 | POWER GENERATION DEVICE - A power generation device includes a tower forming top and bottom reservoirs and a plurality of vertically arranged compartments between the top and bottom reservoirs. Each compartment is separated from the next lower compartment by a partition that defines a discharge opening. A rotary mechanism is arranged in each compartment and includes a rotary shaft carrying receptacles having openings set in different orientations. The shaft is coupled to a dynamo. Water is deposited in the top reservoir and is allowed to flow downward into the next lower compartment through the discharge opening for filling into the receptacles to cause rotation of the shaft, which in turn drives the dynamo to generate electrical power. Water flowing downward into the bottom reservoir can be selectively pumped back to the top reservoir for maintaining cyclic operation of the power generation device. | 05-07-2009 |
| 20090121481 | AQUIFER FLUID USE IN A DOMESTIC OR INDUSTRIAL APPLICATION - Fluid is moved from an aquifer to a higher elevation, and is used at the higher elevation for a domestic or industrial application. Subsequently, the fluid is allowed to return from the higher elevation to the aquifer. Kinetic energy of the fluid returning to the aquifer is converted into electrical energy. | 05-14-2009 |
| 20090134623 | FLUID ENERGY APPARATUS AND METHOD - A preferred embodiment includes a system for power generation through movement of fluid having a variety of configurations and implementations. One preferred embodiment includes a system for power generation through movement of fluid includes a power generating cell with a generally cylindrical housing a ring for rotating disposed in said housing, one or more impellers fixedly coupled to said ring, and a generator operably coupled to said ring for receiving energy from the one or more impellers in which fluid is disposed about one or more impellers for creating energy. | 05-28-2009 |
| 20090140522 | Turbine driven electric power production system and a method for control thereof - A turbine ( | 06-04-2009 |
| 20090140523 | System and process for generating hydroelectric power - A system and process for generating hydroelectric power within a body of water relying on the pressure head existing between two depths of the water. A vertically arranged conduit or penstock has an upper water intake and is in fluid communication with a reservoir situated at a lower depth. In a first cycle, water flow is established in the conduit or penstock between the water intake and lower reservoir when the reservoir is substantially full of air. A turbine housing is mounted adjacent the reservoir at a lower depth than the water intake and houses an electric turbine generator having blades mounted within the conduit or penstock to be driven by the flow of water to generate electricity. As water is introduced into the reservoir, air is exhausted out an air exhaust tube to a point above the surface of the body of water. After the reservoir is generally full of water valves are provided to cease the flow of water through the water intake and flow of air out the exhaust tube. An air pump thereafter introduces air into the reservoir to force water out of a reservoir water outlet port. The generating cycle is then repeated. | 06-04-2009 |
| 20090146422 | Transportable hydro-electric generating system - The invention is a transportable hydroelectric power generating system which is capable of being fully or partially assembled in a factory setting and then transported to a water stream. The system includes water channeling features which enhance the pressure within the system that the water exerts and a secondary pump feature which serves to further supply pressurized water to the impellers on the water wheels. Thus marginal streams may become power generating sites. | 06-11-2009 |
| 20090206602 | FLUID POWER GENERATOR - The fluid power generator is provided. The fluid power generator includes: a first member that has multiple coils; a second member that is rotatable relative to the first member and that has multiple permanent magnets; a rotating member that is mechanically linked with either one of the first member and the second member to rotate by fluid force; and a clearance controller that moves at least one of the first member and the second member to thereby change a clearance between the first member and the second member, wherein the clearance controller changes the clearance in such a manner as to make the clearance smaller after a start of rotation of the rotating member than before the start of rotation of the rotating member. | 08-20-2009 |
| 20090236852 | Flow generator for use in connection with a utility conduit - There is provided a power generation and distribution system for use in combination with a utility conduit having fluid passing therethrough. The power generation and distribution system includes a rotation element disposable within the utility conduit. The rotation element rotates in response to fluid passing within the utility conduit. A power generator is in mechanical communication with the rotation element, and generates power in response to rotation of the rotation element. This system also includes a power distributor in electrical communication with the power generator and electrically connectable to a power outlet to distribute power thereto. | 09-24-2009 |
| 20090243294 | Main Circuit of Generator for Distributed Power Supply - In an electric power generating apparatus for dispersed power supply using a permanent magnet type electric power generator having many kinds of windings in order to obtain the maximum output by force of wind without using PWM converter, there is a problem that gap magnetic flux of the permanent magnet type electric power generator is demagnetized to decrease the internal induced voltage because alternating current output of the permanent magnet type electric power generator is lagging current. In an electric power generating apparatus for dispersed power supply including a permanent magnet type electric power generator having a plurality of windings inducing different effective values of induced voltages and individual rectifiers for rectifying alternating current outputs of the permanent magnet type electric power generator, a capacitor is connected in series between the individual rectifier and the alternating current output terminal of the winding inducing higher effective value of induced voltage among the plurality of windings in a manner that serial impedances of the capacitor and the permanent magnet type electric power generator become capacitive within the range of rated rotational speed of said permanent magnet type electric power generator. | 10-01-2009 |
| 20090267347 | PELATIC SUSTAINABLE ENERGY SYSTEM - The present invention provides a sustainable energy system for pelagic deployment that may comprise a frame, at least one wind turbine generator coupled to the frame, at least one pair of water turbine generators coupled to the frame, and a rotatable joint. | 10-29-2009 |
| 20090278350 | Method for starting up a system for generating electrical power - Described is a method for starting up a system for generating electrical power. The system includes a turbine that is mechanically connected to a generator, while the generator is electrically connected via a converter to a load, in particular to a power supply grid. The generator includes a total number of windings. With at least one embodiment of the method, a number of generator windings are combined at low rotational speeds of the turbine, wherein the combined number of windings is less than the total number of windings. | 11-12-2009 |
| 20090302607 | DOUBLE FED SYNCHRONOUS GENERATOR MOTOR - A double fed synchronous generator motor which is coupled to a reversible pump-turbine and operated while switched to a power generating operation mode or a pumping operation mode, is equipped with a controller for controlling the double fed synchronous generator motor so that power output from the double fed synchronous generator motor is coincident with an instruction value and the rotating speed is set between upper and lower limit values of the rotating speed by changing exciting current. In the power generating operation mode, the lower limit value of the rotating speed is varied by active power output from the double fed synchronous generator motor, and when the active power is small, the lower limit value of the rotating speed is set to a smaller value than that when the active power is large. | 12-10-2009 |
| 20100045036 | PLIANT MECHANISMS FOR EXTRACTING POWER FROM MOVING FLUID - Flexible and elastic mechanisms for extracting power from a moving fluid. Sheet-like material is deformed during fabrication through an applied force so as to create undulations in said material, whose stresses are maintained through restraining components, thereby maintaining the occurrence of said deformations in the material. When placed in moving fluid, the resulting pressure differentials cause the positions of the undulations within the material to travel along said material in the same direction as the moving fluid. Power is extracted in one of two principle ways. The first is via a mechanical coupling of the sheet-like material to a rotating mechanism, which turns an electro-magnetic dynamo or other output device. The second is via the utilization of a flexible material which exhibits an electrical response to mechanical strain, whereby the strains caused by the travel of undulations along the material create an electrical current which is extracted via two or more electrodes. | 02-25-2010 |
| 20100084862 | HYDROELECTRIC POWER DEVICE - A hydroelectric power device equipped with a casing member that has a channel that passes through from an opening on the water entry side towards an opening on the water discharge side, a rotor having a plurality of blades that are integrally fixed respective to the rotating shaft and are disposed inside the channel of the casing member, and a tapered portion, that is provided on the opening on the water entry side of the casing, and that is formed such that the cross-sectional area of the tapered portion is gradually decreased towards the downstream side. | 04-08-2010 |
| 20100140933 | Device for Capturing Energy from a Fluid Flow | 06-10-2010 |
| 20100140934 | METHOD AND SYSTEM OF CONTROLLING A HYDROELECTRIC PLANT - An embodiment of the present invention may incorporate an adaptive model based control (MBC) for determining a physical parameter, such as, but not limiting of, generator output, head, generator speed, or the like. The adaptive MBC may reduce the need for pre-defined control curves. The adaptive MBC may receive a plurality of data on the hydroelectric plant and then build an operating model. This model may then be used to forecast and/or control an output variable, such as, but not limiting of, a generator output of the hydroelectric plant. | 06-10-2010 |
| 20100140935 | REVERSIBLE HYDROELECTRIC DEVICE - Reversible hydroelectric device that can be installed on an outside pipe, comprising a hydraulic power unit comprising a hydraulic machine comprising a centrifugal pump that can be reversed as a turbine and a hydraulic circuit having bypass branches and motorized valves allowing circulation of water in said hydraulic machine in one direction or the other irrespective of the direction of circulation of the water in said outside pipe; an electric machine coupled to said hydraulic machine and comprising an asynchronous motor that can be reversed as an asynchronous generator; and an electronic system comprising a programmable controller for adjusting and/or regulating said valves and an electronic variator for adjusting and/or regulating the rotation speed of said electric machine so that the pressure and/or flow rate downstream of the hydraulic machine depending on the direction of circulation is/are stabilized or adjusted to at least one set point value. | 06-10-2010 |
| 20100207388 | SUPPLEMENTAL POWER SOURCE - A supplemental power source for a building or other structure is provided. Power is generated by converting mechanical energy derived from a fluid into electrical energy. The fluid can be, for example, in the form of air in a building air duck or water in building water lines. The invention includes a specially designed turbine enclosure through which the fluid passes. The enclosure has a Venturi area which results in movement of the fluid at a rapid speed through the turbine. An electric generator with a ratable blade also is provided within the Venturi area in order to take advantage of the faster moving fluid. The faster the fluid moves, the more energy can be converted by the generator. The generator can be constructed with a plurality of electric coils and magnets which can be arranged in series/parallel combinations depending on the power requirements of a particular application. | 08-19-2010 |
| 20100213711 | ELECTRICAL POWER GENERATION APPARATUS - A power generation apparatus is disclosed. The apparatus includes a turbine rotor to generate mechanical energy from a flow of a fluid, an induction generator coupled to the turbine rotor to convert the mechanical energy into electrical energy, a fluid speed sensor to output a fluid speed signal indicative of a speed of the fluid flow, and a controller electrically coupled to the induction generator and to the fluid speed sensor. The controller includes at least one processor programmed to determine, based on the fluid speed signal, when the speed of the fluid flow exceeds a minimum speed sufficient for operation of the turbine rotor, initiate operation of the induction generator when the fluid flow speed exceeds the minimum speed by causing electrical power from a power source to be applied to a stator of the induction generator, and monitor a flow of electrical power between the stator of the induction generator and the power source to determine when the induction generator is supplying electrical power to the power source. | 08-26-2010 |
| 20100225112 | Power generator and power generation system including this power generator - According to the present invention, there is provided a power generator that can generate power having a predetermined voltage and a predetermined current even though external energy is slight or excessively strong when generating power based on water power or wind power, the power generator comprising: a magnet rotor that rotates upon receiving rotating force from a driving source; and a stator coil arranged to face magnetic poles of the magnet rotor, the magnet rotor including: a rotary shaft rotatably and axially supported by a housing; and permanent magnets that form a plurality of magnetic poles on a concentric circle with the rotary shaft at the center. The stator coil includes: a plurality of coreless winding wires arranged to face the magnetic poles formed in the rotor; and a three-phase output terminal. Thus, the plurality of coreless winding wires are formed of effective output winding wires whose number is three or its multiple number, and they are connected with the output terminal through switching means so as to enable switching a total number of turns to a large or small value. This switching means is connected to controlling means in such a manner that the total number of turns is reduced when the rotating force from the driving source is large and the total number of turns is increased when the rotating force is small. | 09-09-2010 |
| 20100253078 | Water Turbine System and Method of Operation - A system for providing electrical power from a current turbine is provided. The system includes a floatation device and a mooring. A water turbine structure is provided having an upper and lower portion wherein the lower portion includes a water fillable chamber. A plurality of cables are used to couple the system where a first cable couples the water turbine to the mooring and a second cable couples the floatation device to the first cable. The system is arranged to allow the turbine structure to be deployed and retrieved for service, repair, maintenance and redeployment. | 10-07-2010 |
| 20100259044 | Power generation system - A water tower includes a reservoir configured to store fluid. The reservoir includes a bottom surface. The water tower also includes a recirculating passageway fluidly connected to the reservoir. The recirculating passageway includes a first end connected to and located near or below the bottom surface of the reservoir, and a second end connected to the reservoir above the bottom surface of the reservoir. The water tower further includes a pump located in the recirculating passageway and configured to pump fluid through the recirculating passageway, and a fluid-driven energy generating device fluidly connected to the recirculating passageway. At least a portion of fluid directed through the energy generating device is directed through the recirculating passageway. | 10-14-2010 |
| 20100295302 | SYSTEMS AND METHODS FOR A LINEAR HYDROKINETIC GENERATOR - A linear hydrokinetic generator assembly generates power. An exemplary embodiment drifts a harnessing surface in a current of fluid away from the generator assembly and draws a cable attached to the harnessing surface from a cable spool as the cable is drawn by the drifting harness surface, wherein the drawn cable rotates the cable spool and generates power from the rotating cable spool. | 11-25-2010 |
| 20100327581 | MINIATURE HYDRO-POWER GENERATION SYSTEM POWER MANAGEMENT - A miniature hydro-power generation system may include a hydro-power generator and energy storage devices. A flow of liquid may be used to rotate the hydro-generator to generate electric power at a generator output. The generator output may be electrically coupled to each of the energy storage devices so that the energy storage devices can be independently charged with the electric power produced by the hydro-power generator. The hydro-power generator and/or the energy storage devices can also supply electric power to a load. The energy storage devices may also be electrically coupled via a series/parallel switch so that at least two of the energy storage device may be switched between a series configuration and a parallel configuration. | 12-30-2010 |
| 20100327582 | Generator With Falling Stator - A generator is provided including a rotatable pressure vessel with an inner and outer surface. Electromagnets are disposed on the inner surface of the pressure vessel. A biasing structure is configured to rotate within, and independently of, the pressure vessel and extends at least partly along a lengthwise dimension of the pressure vessel. The biasing structure has an axis of rotation that is within the circumference of the pressure vessel, and may be substantially parallel and coincident with a center axis of the pressure vessel. The biasing structure has a center of gravity at a radius away from the center axis of the pressure vessel. Armature coils are disposed on an outer portion of the biasing structure, and are positioned such that a relative motion between the electromagnets and the plurality of armature coils induces a current in the armature coils when a current is applied to the electromagnets. A transfer mechanism is configured to transfer electrical current from first electrical conductors connected to the armature windings to an outside of the pressure vessel. | 12-30-2010 |
| 20100327583 | PITCH, ROLL AND DRAG STABILIZATION OF A TETHERED HYDROKINETIC DEVICE - A hydrokinetic device is provided that extracts power from a water current. The device comprises a buoyant body and a rotor coupled to the buoyant body configured to drive a power generator. The buoyant body and the rotor jointly define a center of buoyancy and a center of gravity, the center of buoyancy being located above and upstream of the center of gravity. | 12-30-2010 |
| 20110012351 | HYDROPOWER DEVICE - A hydropower device for generating electric power comprises a pipe having an upstream portion and a downstream portion and being arranged to convey water. A valve is provided at the downstream portion and adjustable between a closed position hindering the water and an open position permitting the water to flow. A cylinder member defines an inner space and having a first end and a second end. The inner space extends away from the pipe along a centre axis (x) and receives water from the pipe via the first end when the valve is in the closed position. A piston is disposed in the inner space and movable back and forth along the centre axis. The piston moves away from the pipe by means of an overpressure arising when the valve is in the closed position. | 01-20-2011 |
| 20110018266 | TURBINE APPARATUS - Turbine apparatus for a hydroelectric power station, with a turbine impeller, which is capable of rotating about a turbine rotary spindle, which is in particular arranged vertically, with turbine blades ( | 01-27-2011 |
| 20110018267 | EXHAUST TURBINE GENERATOR SYSTEM AND METHOD OF CONTROLLING THE SAME - An exhaust gas turbine generator system for a vehicle that has an internal combustion engine with an exhaust system is provided. The exhaust system comprises a turbine, an electrical generator, a waste gate, and an electronic control module. The turbine is disposed in fluid communication with an exhaust gas system of an internal combustion engine to allow fluid flow between the turbine and the exhaust gas system. The electrical generator connects to the turbine. The waste gate is disposed in fluid communication with the exhaust gas system of the internal combustion engine. The waste gate is positionable between an open position and a closed position in response to an output signal from the electronic control module. The fluid flow in the exhaust gas system to the turbine is reduced when the waste gate is positioned to the open position. | 01-27-2011 |
| 20110025057 | Exhaust Gas Power Recovery Apparatus and Flex Generator - An apparatus and method for generating electricity from relatively low velocity exhaust gas. The apparatus includes a plurality of axial flux generators perpendicularly mounted on a support ring that is axially aligned around the exhaust gas port opening. Each axial flux generator includes a plurality of radially aligned blades mounted on a rotating hub. The hub is mounted on a stationary axle supported above the support ring by brackets. Attached to the hub are two magnetic discs each with a plurality of magnets attached thereto. Located on the outside surface of each magnet disc is a flux disc that produces an inward force to hold the two magnet discs together. Mounted on the axle and located between the two magnetic discs is a fixed stator disc that includes three internal coil systems. When the exhaust gas moves through the exhaust port it interacts with the blades causing the two magnetic discs to rotate around the stator disc and thereby induces an electric current inside each coil system. The apparatus also includes an adjustable inverter that allows the operator to adjust the load on the generator so that the blower operates optimally. | 02-03-2011 |
| 20110049882 | Device for charging at least one electrical battery on board a boat - A device for charging at least one electric battery ( | 03-03-2011 |
| 20110057442 | HYDROELECTRIC POWER GENERATOR AND RELATED METHODS - A hydroelectric power generator is capable of generating electrical power from a moving body of water. The power generator comprises a shell comprising a wall having interior and exterior surfaces, and an interior volume. A fixed gear is fixedly attached to the interior surface of the shell. A stationary shaft extends across the interior volume of the shell. A set of fins is attached to the exterior surface of the shell, and the fins are capable of rotating the shell about the stationary shaft from the force of the moving body of water. An electrical generator is mounted on the stationary shaft. The generator comprises a drive gear that engages the fixed gear to drive the electrical generator. An electrical connector transmits the generated electrical power to the external environment. | 03-10-2011 |
| 20110089691 | GEARLESS TURBO-GENERATOR - An auxiliary power unit includes a gas generator that produces a flow of gases to drive a free power turbine that directly drives an electric generator. The electric generator is driven by the free power turbine at a desired speed without the use of step down gearing to provide a lighter weight and more cost effective electric power generating system. | 04-21-2011 |
| 20110095530 | TETHERED AQUATIC DEVICE WITH WATER POWER TURBINE - A water power turbine energy conversion device and method of generating electric power that can take advantage of water current speeds is hereinafter disclosed. The water power turbine energy conversion device includes an unmanned tethered aquatic device (TAD) connected to one end of a tether (which may include multiple shorter tethers), the other end being connected to an anchorage point. The TAD comprises a hydrofoil wing-like structure with one or more water power turbines and performs waterborne maneuvers such as cross-current tracking to increase the relative water current speed of up to about four times the true water current speed. | 04-28-2011 |
| 20110133452 | Energy generating assembly and a method for generating energy - A number of electrical energy generating assemblies, such as assemblies | 06-09-2011 |
| 20110169264 | Remediation of mines using pumped storage electrical generation - A method to generate electrical power in order to provide resources to remediate and restore exhausted or abandoned mines, caves, and cavities; thereby rendering the space safer, resisting pollution, improving the environment, improving lost and useless wastelands, and allowing repetitive power generation year around at the same locations; providing employment. Alchemy is the power of transmutation by the seemingly miraculous change of a useless thing into something better, or the art of changing base elements into precious specie, or the elixir of perpetual vigor, to wit: remediation of abandoned mines, and caves, by introducing and converting to pumped storage electrical generation facilities, and for storage and manufacture of reliable, consistent, electrical power. | 07-14-2011 |
| 20110175351 | MINIATURE HYDRO-POWER GENERATION SYSTEM POWER MANAGEMENT - A miniature hydro-power generation system includes a hydro-power generator, a processor and an energy storage device. A flow of liquid may be used to rotate the hydro-generator to generate electric power. The processor is configured to monitor a level of the electric power generated by the hydro-power generator and a level of charge stored in the energy storage device. The processor is further configured to selectively charge and discharge the energy storage device based on the level of charge of the energy storage device, and the level of electric power generated by the hydro-power generator. The electric power generated by the hydro-power generator is selectively used to charge the energy storage device, and the energy storage device is selectively discharged to supply a load. | 07-21-2011 |
| 20110204627 | Electrical generating device with potential energy of water or fluid - An electrical generating device includes one or more ram water pumps for pumping water from a lower water reservoir into an upper water tower, a water paddling device having a rotatable housing located below the water tower and coupled to an electric generator to generate an electrical energy, and a control device having a casing for directing the water to rotate the housing and having a pivotal valve member to control a flowing of the water through the casing and into the housing, an adjusting element is attached to the casing and engaged with the valve member for pivoting and adjusting the valve member relative to the casing and to control the water to flow into the housing. | 08-25-2011 |
| 20110204628 | AIRCRAFT VENTILATION DEVICE - The ventilation device according to the invention includes a fan and an inverter. The fan comprises a rotary electrical machine and a wheel for setting an air flow into motion, integral with the rotary machine to set it in rotation. The inverter is connected to the rotary machine and, in one motor power mode of the ventilation device, is suitable for forming the supply current of the rotary machine. The inverter is suitable for being connected to a power supply network. The inverter is reversible and is, in a generating mode of the ventilation device, suitable for converting the electrical energy supplied by the rotary machine when it is driven mechanically by the wheel and injecting said converted electrical energy into the power supply network. | 08-25-2011 |
| 20110210548 | CONTROL SYSTEM FOR EXTRACTING POWER FROM WATER FLOW - A system for controlling operation of a water turbine is described, the system comprising, a turbine; means for measuring an activity affecting operation of the turbine; means for altering operation of the turbine; and a data processing apparatus comprising a central processing unit (CPU), a memory operably connected to the CPU, the memory containing a program adapted to be executed by the CPU, wherein the CPU and memory are operably adapted to receive information from the measuring means and implement an instruction to the altering means to alter the operation of the turbine. Data processing systems, computer program elements and methods for controlling operation of the turbine are also described. | 09-01-2011 |
| 20110260453 | GENERATOR UTILIZING FLUID-INDUCED OSCILLATIONS - An electrical generator including a magnetic field generator and at least one energy converter for converting energy present in fluid flows into vibrations or oscillations. The converter includes a flexible membrane having at least two fixed ends. The membrane vibrates when subject to a fluid flow. One of the electrical conductor and the magnetic field generator is attached to the membrane and configured to move with the membrane. The vibration of the membrane caused by the fluid flow causes a relative movement between the electrical conductor and the applied magnetic field. The relative movement causes a change in the strength of the magnetic field applied to the electrical conductor, and the change in the strength of the magnetic field applied to the electrical conductor induces a current flowing in the conductor. | 10-27-2011 |
| 20110309619 | Generator with Falling Stator - A generator is provided including a rotatable pressure vessel with an inner and outer surface. Electromagnets are disposed on the inner surface of the pressure vessel. A biasing structure is configured to rotate within, and independently of, the pressure vessel and extends at least partly along a lengthwise dimension of the pressure vessel. The biasing structure has an axis of rotation that is within the circumference of the pressure vessel, and may be substantially parallel and coincident with a center axis of the pressure vessel. The biasing structure has a center of gravity at a radius away from the center axis of the pressure vessel. Armature coils are disposed on an outer portion of the biasing structure, and are positioned such that a relative motion between the electromagnets and the plurality of armature coils induces a current in the armature coils when a current is applied to the electromagnets. A transfer mechanism is configured to transfer electrical current from first electrical conductors connected to the armature windings to an outside of the pressure vessel. | 12-22-2011 |
| 20120007361 | Water Handling Environment Water Electric Generator - A variable volume and velocity water electric generator system for use in a narrow channel in which variable amounts of water flow. The system includes an electric generator/water wheel unit mounted on a rigid frame vertically aligned within the channel. The unit includes an electric generator and the water wheel assembly that are axially aligned. When the frame is vertically aligned and lowered into the channel, the water wheel assembly is transversely aligned in the channel and its fixed vanes optimally positioned into the path of the water flowing through the channel. The generator's outer casing is connected to an end plate on the water wheel assembly so that the outer casing and the water wheel assembly rotates as one unit. A programmable inverter is connected to the generator that measures the voltage output and controls the amperage load exerted on the electric generator to electrical power extracted from the water is optimized. The water wheel assembly is connected to an optional winch and a sensor that automatically lowers and raises the water wheel assembly on the frame according to the level of water flowing in the channel so that the vanes are optimally positioned in the flow of water | 01-12-2012 |
| 20120056424 | METHOD AND DEVICE FOR DECELERATING AN UNDERWATER POWER STATION - The invention concerns a method for the operation of an underwater powerplant comprising a water turbine for purposes of absorbing kinetic energy from a flow of water; an electrical generator with converter feed, whose generator rotor is connected in a torsionally rigid manner with the water turbine, wherein the invention is characterised in that in normal operation a first frequency converter is used for purposes of converter feed, and in the braking operation at least one second frequency converter, or one component of a second frequency converter, is connected into the circuit and synchronised with the first frequency converter, in order to execute with the latter in a combined manner a converter feed to the electrical generator, which generates a generator torque braking the water turbine. | 03-08-2012 |
| 20120074698 | Power Control Methods - In an oscillating water column (OWC) assembly power may be generated based on a power reference that is derived from an estimate of the available mechanical power in the air turbine | 03-29-2012 |
| 20120086203 | Exhaust Generator Assembly - An apparatus for generating electricity from a relatively low velocity exhaust produced by a blower on a piece of machinery. The apparatus includes a fan assembly and a generator located inside an outer housing mounted on a base. Attached to the base and extending into the outer housing is a conical tunnel with a bypass gate that selectively closes the tunnel and thereby control the flow of exhaust gas through the apparatus. The fan assembly includes a plurality of fixed vanes that extend transversely into the path of the exhaust. The ends of the vanes are attached to two side plates that rotate freely around the frame's center axis. Attached to the inside side plate is a low RPM generator that includes two rotating magnetic plates and a fixed stator disc with a plurality of coil members is formed. The apparatus includes a programmable logic controller (PLC) coupled to sensors that monitor the exhaust gas velocity delivered to the tunnel, the fan assembly's RPMs and the position of the bypass gate in the tunnel. During operation, the PLC is constantly monitors and makes adjustments to the position of the bypass gate to control the flow of exhaust gas to the fan assembly so that the maximum amount of electricity is being produced without negatively impact the machinery's performance. | 04-12-2012 |
| 20120086204 | SYSTEM AND METHOD FOR CONTROLLED HYDROELECTRIC POWER GENERATION - A system for generating electricity in a water distribution network includes a hydroelectric generator in fluid communication with a pipeline or a valve of the network. A differential pressure control pilot limits differential pressure across the hydroelectric generator. A solenoid coupled to the differential control pilot controls water passage through the differential control pilot, and thus the operation of the hydroelectric generator. An electronic controller may be used to optimize power generated by the hydroelectric generator. | 04-12-2012 |
| 20120091710 | APPARATUS AND METHOD FOR CO-GENERATION - A co-generation apparatus for the generation of electricity from an external source of forced air is described in which the co-generation apparatus comprises a turbine, a generator, a co-generation control unit, and an adjustable standoff. The turbine is connected to the generator for the production of electricity. The generator interface electrically connects the generator to an electrical system. The co-generation control unit is connected to the turbine and generator interface. The forced air drives the turbine. The turbine can be positioned in a turbine housing that receives the forced air. An adjustable standoff is connected to the turbine. The standoff adjusts the position of the turbine relative to the forced air. | 04-19-2012 |
| 20120091711 | Apparatus and Method for Producing Electric Power from Injection of Water into a Downhole Formation - An apparatus and method for generating electricity from a liquid flowing in a generally vertical direction down a borehole. There is a turbine disposed at a subsurface position and having an intake and a discharge, the turbine being mechanically coupled via an output shaft to an electric generator such that rotation of the output shaft drives the generator to produce electric power. A control valve assembly is positioned below the turbine, the control valve assembly including a valve adapted to receive water discharged from the turbine and a control system operatively connected to the valve for throttling the valve in response to the rate of flow of liquid to the turbine to maintain the rotation of the turbine in a predetermined RPM range. | 04-19-2012 |
| 20120146330 | HYDRO TURBINE GENERATOR - A hydroelectric turbine generator and control system is provided that optimizes the maximum possible power output at all times by strictly monitoring power output from the generator unit and modulating the wicket gate angle and the runner blade pitch independently of one another. The hydroelectric turbine generator includes a means for separately controlling wicket gate angle and runner blade pitch. The wicket gate angle control mechanism controls the flow into the system, pre conditions flow for maximum power and maintains reservoir level. The runner blade pitch control mechanism continuously monitors the system power output based on actual power produced, and adjusts system parameters in order to achieve maximum power output. | 06-14-2012 |
| 20120187680 | ELECTRICAL POWER CONVERSION SYSTEM AND METHOD - A system and method for electrical power conversion, with the system being intended for use in converting a high voltage DC power output from a turbine generator to an AC power signal that is suitable for connecting to an AC power grid. The system utilises a mechanical coupling between a synchronous motor driving a synchronous generator in order to provide isolation, as well as allowing for control of the real power output by the system. | 07-26-2012 |
| 20120200084 | UNDERWATER POWER GENERATOR - An underwater power generator ( | 08-09-2012 |
| 20120235408 | SELF-POWERED MINIATURE LIQUID TREATMENT SYSTEM WITH CONFIGURABLE HYDROPOWER GENERATOR - A liquid treatment system that may be self-powered includes a hydro-generator. A flow of liquid may be used to rotate the hydro-generator to generate electric power. The hydro-generator may include an outer housing and an inner housing. The inner housing may include a first hub removeably engaged with a second hub. A plurality of paddles may be replaceably engaged between the first hub and the second hub. An electrical generator may be disposed in the inner housing. A flow of liquid may strike the paddles causing the inner housing to rotate. During rotation of the housing, the electrical generator may produce electrical power. | 09-20-2012 |
| 20130038058 | METHOD AND APPARATUS FOR GENERATING ELECTRICITY - An electrical generator apparatus for generating electrical energy is disclosed. The electrical generator utilizes liquid flow within a tubular member to provide mechanical force to rotate a rotor. The electrical generator includes a rotor comprising an impeller, wherein the rotor is configured to receive liquid flow within an electromagnetic induction armature from the tubular member, a stator configured to generate electrical energy within a plurality of coils utilizing a magnetic flux generated by the electromagnetic induction armature when rotated adjacent to the stator, and a bypass tubular member configured to selectively route liquid around the electrical generator to adjust voltage of generated electrical energy. | 02-14-2013 |
| 20130049362 | Tidal Power Plant and Method for Operating Said Tidal Power Plant - The invention relates to a flow power plant, comprising a water turbine having torsionally rigid rotor blades, a drive train connected to the water turbine, which at least indirectly drives an electric generator and is characterized in that at inflow speeds v for which the flow power plant is designed, the water turbine is configured to be non-auto-restarting for tip speed ratios λ below a predetermined auto-restart tip speed ratio λs where λs≧1. | 02-28-2013 |
| 20130056984 | Downhole Power Generation By Way of Electromagnetic Induction - Electrical power may be generated at a downhole position of a production well by way of electromagnetic induction through oscillating linear translation driven by the flow of a fluid being transported by the production well. In exemplary embodiments, a conductive coil is disposed in a fixed position along a length of a production pipe such that the conductive coil encircles the production pipe. A linear translation apparatus is disposed radially inward from the conductive coil and is configured to move linearly parallel to a longitudinal axis of the production pipe and within the conducting coil by harnessing mechanical energy from fluid flowing within the production pipe. Magnets are affixed to the linear translation apparatus to cause electrical power to be generated in the conductive coil by way of electromagnetic induction responsive to the magnets passing by the conductive coil when the linear translation apparatus is in motion. | 03-07-2013 |
| 20130106105 | Multi-Megawatt Ocean Current Energy Extraction Device | 05-02-2013 |
| 20130106106 | HYBRID ELECTRO MAGNETIC HYDRO KINETIC HIGH PRESSURE PROPULSION GENERATOR | 05-02-2013 |
| 20130134708 | Power generating apparatus of renewable energy type and control method thereof - A power generating apparatus of renewable energy type includes a rotation shaft, a hydraulic pump, a hydraulic motor, a generator and a pitch drive unit. When a fault even occurs, a deviation of a state indicating an operation state from a normal state value is calculated. When the deviation is not less than a first threshold value, the stop control unit performs by means of a hard-wired circuit at least one of switching the hydraulic pump to an idle state, the hydraulic motor to an idle state, and the pitch angle toward a feathering position. When the deviation is less than the first threshold and not less than a second threshold, the stop control unit performs by software control all of switching the hydraulic pump to the idle state, the hydraulic motor to the idle state, and the pitch angle toward the feathering position. | 05-30-2013 |
| 20130181448 | ELECTRIC ACTUATORS IN AIRCRAFT SYSTEMS - An electric actuation system for an emergency power system of an aircraft includes a motor control portion, a motor brake, a motor in electrical communication with the motor control portion, mechanical gearing in mechanical communication with the motor, the mechanical gearing configured to translate rotational motion of the motor into linear motion across at least one axis, and an extension member in mechanical communication with the mechanical gearing, the extension member configured to linearly travel across the at least one axis. | 07-18-2013 |
| 20130200617 | POWER TRANSMISSION SYSTEMS - A power transmission system may include a plurality of renewable-energy devices such as wind turbines or subsea turbines. The devices are connected together in parallel to a subsea cable that carries an ac transmission voltage. Each device includes a turbine assembly that is rotated by wind or water current flows, and a variable speed ac induction generator. A power converter is connected to the subsea cable and is used to interface the generators to a supply network or power grid. The power transmission system is operated such that an indicated operating speed of one or more of the devices is used to control the power converter (e.g. the PWM strategy that is used to open and close the power semiconductor devices) to achieve desired stator electrical quantities at each generator. | 08-08-2013 |
| 20130214532 | Tunable Fluid Flow Generator - A tunable generator has a surface structure for contacting an exterior fluid flow relative to a base structure. The contacting surface structure also has an electrogenerative portion positioned relative to the contacting structure and the base structure. The electrogenerative portion is preferably a piezoelectric or electromagnetic structure, although other types of structures are known within the art. The contacting surface is mechanically coupled to portions of the base structure through one or more elastic elements. The various portions of the base structure can be positioned relative to other base structure portions to alter the elasticity of the system or the tensioning of the elastic elements. The field of flow exerts forces upon the contacting structure which causes movement in the contacting surface structure relative to the base structure through the electrogenerative portion. | 08-22-2013 |
| 20130214533 | Method for Power Regulation of an Underwater Power Plant - The invention concerns a method for the operation of an underwater power plant with
| 08-22-2013 |
| 20130257049 | RENEWABLE ENERGY EXTRACTION DEVICE TOLERANT OF GRID FAILURES - A renewable energy extraction device, such as a wind turbine generator includes a turbine driving a hydraulic pump and a variable displacement hydraulic motor driving an electrical generator connected directly to an electricity grid. The hydraulic motor employs electronically controlled valves operated to select the net displacement of working chambers of the hydraulic motor on each successive cycle of working chamber volume. In the event of an electric grid fault causing the maximum absorbable torque of the electrical generator to collapse, the electronically controlled valves are controlled to substantially reduce the rate of displacement of working fluid by the hydraulic motor, rapidly reducing the torque exerted on the generator rotor. This has the benefit of avoiding pole slip which could otherwise cause serious damage. During the fault, the rate of displacement of working fluid by the hydraulic motor is controlled to maintain the phase and frequency of rotation of the generator rotor in synchrony with the electricity grid so that electricity generation can resume rapidly once the grid failure is rectified. Excess working fluid displaced by the hydraulic pump is stored in an accumulator. When the maximum amount has been stored pressurised fluid is discharged through a throttle to avoid damage but maintain pressure within the hydraulic transmission so that electricity generation can resume rapidly if the grid failure is rectified. If the fault persists, the turbine blades are feathered to reduce power input and if the fault persists for a further period of time, the energy extraction device shuts down. | 10-03-2013 |
| 20130285376 | ELECTRO-HYDRODYNAMIC WIND ENERGY SYSTEM - A system for electro-hydrodynamically extracting energy from wind includes an upstream collector that is biased at an electric potential and induces an electric field. An injector introduces a particle into the electric field. The wind drag on the particle is at least partially opposed by a force of the electric field on the particle. A sensor monitors an ambient atmospheric condition, and a controller changes a parameter of the injector in response to a change in the atmospheric condition. | 10-31-2013 |
| 20130320674 | Net Present Value Optimized Wind Turbine Operation - A wind turbine control system operates a wind turbine and controls the amount of power output at maximum power output conditions to achieve the goal of emphasizing power generation in the present at the expense of power generation in the future. Because of the time value of money, a given quantity of electric power generated in the present is worth much more than the same quantity generated, for instance, 10 years in the future. Recognizing the time value of money impact on the net present value of installing and operating a wind turbine, the control system would optimize the net present value by producing more power in the turbine's early years than in its later years. The control system may also optimize return on investment by adjusting the power output based on the energy price during a current period versus the energy price forecast in a future period. | 12-05-2013 |
| 20130320675 | WATER CURRENT TURBINE ARRANGEMENTS - A method is described for controlling a water current turbine array which includes first and second pluralities of water current turbines operable to generate electricity from a water current. The method includes controlling respective power generation characteristics of the water current turbines in the array so as to maximise power generation of the array as a whole. | 12-05-2013 |
| 20130328308 | APPARATUS AND METHOD FOR RECOVERING EXHAUST KINETIC ENERGY - An apparatus and method for recovering exhaust kinetic energy. The apparatus includes a valve assembly, a motor generator and a controller. The valve assembly includes a rotary shaft which is disposed in an exhaust gas pipe and a flap which is disposed on the rotary shaft. The flap is rotated by an exhaust gas that is ejected. The motor generator is connected to the rotary shaft of the valve assembly, and in a first instance generates electricity using a rotational force transmitted from the rotary shaft and in a second instance applies a torque to the rotary shaft. The controller fixes the rotary shaft of the valve assembly at a predetermined angle in the first instance and adjusts the speed of rotation of the rotary shaft by controlling the motor generator in the second instance. | 12-12-2013 |
| 20140070534 | POWER GENERATING APPARATUS OF RENEWABLE ENERGY TYPE AND OPERATION METHOD THEREOF - A power generating apparatus of renewable energy type includes a rotating shaft rotated by the renewable energy received via a blade, a hydraulic pump driven by the rotating shaft to generate pressurized oil, hydraulic motors driven by the pressurized oil, and synchronous generators connected to a grid without an intervening frequency-conversion circuit and respectively coupled to the hydraulic motors. The displacements of the hydraulic motors are adjusted independently by a motor control unit. A synchronizer supplies a command value of the displacement of each hydraulic motor to the motor control unit so that before the synchronous generators are connected to the grid, a frequency and a phase of a terminal voltage of each synchronous generator are synchronized with the grid. | 03-13-2014 |
| 20140117667 | MARINE CURRENT POWER PLANT AND A METHOD FOR ITS OPERATION - The invention relates to a method for operating a marine current power plant, comprising a water turbine with several rotor blades arranged as buoyancy rotors, an electric generator which is driven at least indirectly by the water turbine, wherein the water turbine is guided for power limitation in an overspeed range above a power-optimal tip speed ratio. The water turbine is adjusted to the immersion depth of the marine current power plant in such a way that cavitation occurs on at least one rotor blade section in the overspeed range from a cavitation tip speed ratio threshold which lies below a tip speed ratio associated with a runaway speed, and the water turbine is operated for load limitation at tip speed ratios which lie above the cavitation tip speed ratio threshold. | 05-01-2014 |
| 20140159366 | POWER GENERATING PLANT AND FLOATING PLANT FOR RIVERS AND CANALS - A power generating and floating plant ( | 06-12-2014 |
| 20140167414 | VARIABLE DIAMETER AND ANGLE VERTICAL AXIS TURBINE - A wind turbine, particularly vertical axis, whose diameter is extensible and retractable, either from the length of the arms or the angle of the blades, or both, has advantages in operating in low wind speed regimes and surviving in high wind speed, regimes. The current application describes how to construct such a turbine, particularly the control mechanisms and the optimal aerodynamic configurations of the blades. | 06-19-2014 |
| 20140197638 | CONTROL SYSTEM OF VARIABLE SPEED PUMPED STORAGE HYDROPOWER SYSTEM AND METHOD OF CONTROLLING THE SAME - In one embodiment, a control system of a variable speed pumped storage hydropower system includes an optimization processing unit configured to calculate a flow rate adjusting valve opening demand value and a first command value, a speed control unit configured to generate a secondary current active power component command value of a secondary excitation device based on the first command value, a mechanical (pump-turbine) output compensation unit configured to calculate a compensation value of the opening of the flow rate adjusting valve and/or a compensation value of the generator-motor output, and an output control unit configured to generate a flow rate adjusting valve opening command value based on the generator-motor output command value, the flow rate adjusting valve opening demand value, the compensation value calculated by the mechanical output compensation unit, and the output detection value of the generator-motor. | 07-17-2014 |
| 20140203558 | KINETIC ENERGY HARVESTING USING CYBER-PHYSICAL SYSTEMS - The present invention provides a system for engaging a fluid flow. The system comprising one or more foil members operationally connected to a feedback control loop system. In one embodiment, the foil member is a hydrofoil member or an airfoil member. The foil members are configured for one or more degrees of freedom of oscillatory movement within the fluid flow. The feedback control loop system comprises a sensor system, actuator system, and a controller system. The feedback control loop system configured for actuating the foil members and thereby optimizing the operation of the foil members to attain one or more optimization objectives. In operation, the foil members are situated in the fluid flow and are manipulated to attain one or more optimization objectives. | 07-24-2014 |
| 20140246854 | METHOD AND SYSTEM FOR CONTROLLING HYDROELECTRIC TURBINES - A hydroelectric turbine array system comprises an array of turbine systems and a supervisory controller. Each turbine system of the array comprises a hydroelectric turbine and a control system. The control system includes a converter system arranged to convert AC power, supplied by a generator connected to the hydroelectric turbine and having a voltage and frequency that is a function of a rotational speed of the hydroelectric turbine, to AC power having a voltage and frequency of a transmission system for transmitting the AC power to a receiving station and a control unit co-operable with the converter system to adjust the AC voltage supplied by the generator. The supervisory controller determines a performance level of a plurality of hydroelectric turbines within the array and instructs the control unit of at least one of the turbine systems to adjust the AC voltage supplied by the generator to alter the power generated by the at least one of the turbine systems to thereby control the overall power generated by the array. | 09-04-2014 |
| 20140252767 | POWER GENERATION APPARATUS AND POWER GENERATION METHOD - A power generation apparatus according to the present invention includes: an induction generator; a switch that opens or closes an electrical connection path connecting the induction generator to an electrical path in which an alternating current of a predetermined frequency flows; a control unit that controls the opening and closing state of the switch; and an expander that rotationally drives the induction generator by a working medium supplied thereto. In order to suppress a starting current generated when starting the induction generator while suppressing an increase in cost, the control unit closes the switch after the working medium is supplied to the expander so that the expander starts to rotationally drive the induction generator. | 09-11-2014 |
| 20140265328 | ELECTRICITY GENERATING ARRANGEMENT - An arrangement includes a secondary fluid conduit fitted to a primary fluid conduit which is fitted with a pressure reducing valve, a first isolating valve upstream, and a second isolating valve downstream. The secondary fluid conduit defines an inlet for allowing fluid flowing through the primary fluid conduit to enter the secondary fluid conduit, to define a mode in which all the fluid flows through the secondary fluid conduit, and an outlet for allowing fluid flowing through the secondary fluid conduit to rejoin the primary fluid conduit after the second isolating valve, the flow of fluid through the secondary fluid conduit bypassing the pressure reducing valve. The secondary fluid conduit is fitted with at least one rotatable turbine, a third isolating valve upstream, and a fourth isolating valve downstream. Under the influence of the fluid flowing through the secondary fluid conduit, each turbine can rotate to drive an electricity generator. | 09-18-2014 |
| 20140319836 | METHOD AND SYSTEM FOR CONTROLLING HYDROELECTRIC TURBINES - A control system for controlling an operation of a hydroelectric turbine. The control system comprises a converter system to convert AC power, supplied by a generator connected to the turbine, and having a voltage and frequency that is a function of a rotational speed of the turbine, to AC power having a voltage and frequency of a transmission system for transmitting the AC power to a receiving station. The system further comprises a control unit that is arranged to co-operate with the converter system to adjust the AC voltage supplied by the generator in response to a water flow speed through the turbine to thereby control rotation of the turbine. The converter system comprises a first-stage converter and a second-stage converter, with a DC link provided between the first and second-stage converters. The first-stage converter is arranged to convert the AC power supplied by the generator to DC power. The second-stage converter is arranged to convert the DC power to the AC Power for transmission to the receiving station and the second-stage converter is of a current-source inverter type. | 10-30-2014 |
| 20140319837 | METHOD AND SYSTEM FOR CONTROLLING HYDROELECTRIC TURBINES - A control system for controlling an operation of a hydroelectric turbine. The control system comprises a converter system to convert AC power, supplied by a generator connected to the turbine, and having a voltage and frequency that is a function of a rotational speed of the turbine, to AC power having a voltage and frequency of a transmission system for transmitting the AC power to a receiving station. The system further comprises a control unit that is arranged to co-operate with the converter system to adjust the AC voltage supplied by the generator in response to a water flow speed through the turbine to thereby control rotation of the turbine. The converter system comprises a first-stage converter and a second-stage converter, with a DC link provided between the first and second-stage converters. The first-stage converter is arranged to convert the AC power supplied by the generator to DC power. The second-stage converter is arranged to convert the DC power to the AC Power for transmission to the receiving station and the second-stage converter is of a voltage-source inverter type. | 10-30-2014 |
| 20140339825 | ELECTRICAL ENERGY GENERATION USING PRESSURIZED GAS FLOWS - Devices that generate electrical energy from a flow of pressurized gas and methods of use thereof. While in no way limited thereto, exemplary device embodiments are ideally suited for powering electrical energy consuming devices wherever pressurized gas (e.g., air) is available but electrical primary power is not. This includes, for example, control and monitoring equipment, especially wireless devices, in industrial settings and in remote settings such as pipelines. | 11-20-2014 |
| 20140339826 | DIFFUSER CONTROLLER FOR TIDAL STREAM POWER GENERATION - Disclosed is a diffuser controller for tidal stream power generation, for use in a tidal stream power generator installed under water to generate electricity using a tidal stream. The diffuser controller includes: a turbine configured to be rotated by the tidal stream; a diffuser which is formed with an inlet through which a fluid flows into the diffuser and an outlet through which the fluid flows out from the diffuser, the turbine being fixed inside the diffuser and a rear foil being rotatably installed in the outlet; and a control unit configured to adjust an rotating angle of the rear foil depending on a direction or velocity of the tidal stream. The diffuser is configured to be rotatable. | 11-20-2014 |
| 20150008670 | METHODS FOR MONITORING A SEAL ASSEMBLY - A method for monitoring functionality of a seal assembly within an injector feed assembly is described. The method includes providing a buffer fluid to the seal assembly, measuring at least one of a pressure and a flow rate of the buffer fluid, and determining a functionality of the seal assembly based at least partially on the at least one of a pressure and a flow rate of the buffer fluid. | 01-08-2015 |
| 20150028590 | MODULAR ELECTRIC GENERATOR FOR VARIABLE SPEED TURBINES - An electric power generation system may be constructed of multiple similar generator modules arranged between a rotor and a stator. The rotor may be coupled to and/or integrated with a turbine that is configured to rotate in the presence of a fluid stream such as wind or water. Each generator module may have a rotor portion configured to generate a magnetic field having at least one characteristic that changes with respect to the rotational speed of the rotor. Each generator module may further have a stator portion configured to generate an alternating electric current responsive to the magnetic field. The generated electric current may be controlled by the stator portion of the generator module in order to magnetically control the rotational speed of the rotor and the turbine. Separation between the rotor and stator portions of the generator module may be magnetically maintained. | 01-29-2015 |
| 20150054279 | SYSTEM FOR A HYDRAULICALLY POWERED ELECTRIC GENERATOR - A system for a hydraulically powered electric generator having a hydraulic motor coupled to an electric generator. The electric generator has a field coil that provides field excitation in the rotor. The rotor also has a permanent magnet that provides initial field excitation. A voltage regulator is connected to the rotor to adjust current in the field coil to maintain a constant output voltage as generator speed and load varies. | 02-26-2015 |
| 20150076821 | System And Method To Minimize Grid Spinning Reserve Losses By Pre-Emptively Sequencing Power Generation Equipment To Offset Wind Generation Capacity Based On Geospatial Regional Wind Conditions - A system and method to preemptively adjust power generation of one or more non-wind power generators based on near term wind generation capability, spinning reserve margin, and/or power grid spinning reserve forecast requirements to offset wind power generation based on geospatial regional wind conditions. | 03-19-2015 |
| 20150108755 | Auxiliary Power System for Turbine-Based Energy Generation System - A turbine-based energy generation system includes an electric generator and auxiliary load. A power system for the turbine-based energy generation system includes a main converter and an auxiliary converter. The main converter is operable to deliver power generated by the electric generator to a power collection system external to the turbine-based energy generation system when the main converter is coupled to the generator. The main converter is also operable to deliver power provided from the power collection system to the auxiliary converter when the main converter is decoupled from the generator. The auxiliary converter is operable to deliver power generated by the electric generator to the auxiliary load when the auxiliary converter is coupled to the generator. The auxiliary converter is also operable to deliver the power provided by the main converter from the power collection system to the auxiliary load when the auxiliary converter is decoupled from the generator. | 04-23-2015 |
| 20150292469 | ELECTRIC UNIT FOR A PUMP-STORAGE POWER PLANT - A pumped-storage power plant is disclosed, such as an electric unit having a converter and a rotating electric synchronous machine. The converter is designed as a modular multilevel converter and the machine is directly connectable to the converter, wherein the converter has an adjustable voltage. | 10-15-2015 |
| 20150295481 | Bi-Rotational Generator - A fluid-driven electricity generator includes a stator assembly and a rotor assembly. The stator assembly includes a stator core that includes a plurality of stator windings and one or more stator turbines connected to the stator core. The one or more stator turbines are configured to rotate in a first direction. The rotor assembly includes a plurality of permanent magnets that are substantially surrounded by the stator core. The rotor assembly also includes one or more rotor turbines connected to the plurality of permanent magnets. The one or more rotor turbines are configured to rotate in a second direction that is opposite the first direction. | 10-15-2015 |
| 20150316033 | CONVERTER SYSTEM AND WIND OR WATER POWER PLANT - A converter system with a rectifier ( | 11-05-2015 |
| 20150354526 | WASTE WATER ELECTRICAL POWER GENERATING SYSTEM - An electrical power generating system is connected to a sewer for conveying waste water to a sanitary treatment station. Waste water is propelled through the sewer line by pumping equipment which simultaneously pulverizes most large objects carried by the waste water. The waste water drives one or more water-operated turbines. The turbines are operatively connected to electrical power generators for producing electrical power and dispersing the power through an electrical power transmission system. | 12-10-2015 |
| 20150357951 | ADJUSTABLE ASSEMBLY OF ROTOR AND STATOR AND APPLICATIONS THEREOF WITH A VARIABLE POWER GENERATOR - A variable power generator comprises one of a stator and a rotor which is adjustably movable through an infinite number of positions from being proximate to one another so that their magnetic fields overlap to a position such that the rotor is most distant from the stator and has little overlap of magnetic field strength. The variable power generator in operation may comprise one of a rotor and a stator being out of phase with one another by an angle, for example, the one of the rotor or the stator leading or lagging the other. In this instance, a motor such as a servo motor may be used to rotationally compensate for the out-of-phase angle by radially moving the rotor with respect to the stator or vice versa. The variable power generator may be also be applied in a cam-controlled speed converter and a wind or marine hydrokinetic turbine. The variable power generator may be used as a low torque generator and a high power-rated generator in these applications and may generate more electric power than a conventional fixed power generator (the rotor axially aligned to overlap the stator in a conventional manner). Moreover, the variable power generator may be applied to advantage in electric motors and internal combustion engines for speed control and other purposes. | 12-10-2015 |
| 20150377208 | REDUNDANT PRESSURE CONTROL - An electricity generating device comprising a housing; a first lobed rotor and a second lobed rotor rotatably arranged in a fluid passage enclosed by the housing such that the lobes of the first and the second lobed rotor intermesh to create a barrier between a high-pressure and a low-pressure side of the housing during operation of the device; a first electricity generator to which the first lobed rotor is coupled, the first electricity generator being capable of varying the load of the first lobed rotor; and a second electricity generator to which the second lobed rotor is coupled, the second electricity generator being capable of varying the load of the second lobed rotor. There is also provided a method of synchronizing rotational positions of a first lobed rotor coupled to a first electricity generator and a second lobed rotor connected to a second electricity generator in a turbine. | 12-31-2015 |
| 20160010620 | MARINE HYDROKINETIC TURBINE | 01-14-2016 |
| 20160013703 | POWER PLANT COMPRISING A STRUCTURE AND A VEHICLE | 01-14-2016 |
| 20160111936 | Wind Power Generator and Coupling - A wind turbine rotary shaft is coupled to the rotary axis of a grid connected generator/alternator by magnetic means to feed power to the grid at all rotation speeds of the turbine shaft that exceed the generator speed when it acts as a motor power by the grid. The coupling is a generally circular first plate having a magnet array at the end of the generator shaft. The rotary axis of a turbine is likewise connected to a second generally circular plate. The second plate is electrically conductive, but not magnetic and is offset but adjacent to the first plate. When the turbine shaft is turning faster than the generator shaft more power is fed into the grid by the generator/alternator. | 04-21-2016 |
| 20160115937 | SUBMERSIBLE POWER PLANT HAVING MULTIPLE TURBINES - A submersible power plant comprises a structure and a vehicle with a wing. The vehicle is arranged to be secured to the structure by ae tether. The vehicle is arranged to move in a predetermined trajectory by a fluid stream passing the wing. The submersible power plant comprises at least a first turbine, a second turbine and a third turbine being arranged to be attached to the wing of the vehicle. The first turbine is connected to a first generator, the second turbine is connected to a second generator, and the third turbine is connected to a third generator. At least one turbine is attached to the vehicle on a top surface of the wing, and at least one turbine is attached to a bottom surface of the wing. The generators are arranged to be able to produce different fluid dynamics pressures exerted on the respective turbines by torque control. | 04-28-2016 |
| 20160115938 | HIGH BUILDING POWER GENERATION DEVICE - A high building power generation device includes a plurality of water storage tanks and at least one power generation unit. The water storage tanks are arranged at specific floors of a high building so that a predetermined vertical distance is provided between adjacent ones of the water storage tanks. The water storage tanks are connected to each other with pipes. A control valve is mounted at a connection of each water storage tank with the pipes. The power generation unit is arranged at a bottom floor of the high building. The pipes connecting with the water storage tanks have a lower opening that is located above the power generation unit. The water storage tanks accumulate and store used water from multiple floors and the control valves are openable to release the used water to impact and drive the power generation unit to generate electrical power. | 04-28-2016 |
| 20160123296 | SYNERGIC METHOD FOR HYDRODYNAMIC ENERGY GENERATION WITH NEUTRALIZED HEAD PRESSURE PUMP - A synergic method for hydrodynamic energy generation includes providing a system and method utilization for producing electrical power or mechanical rotational pumping energy for pumping water to high level reservoir or to feeding a decorative water fall, providing a multi compartment housing, pumping water via the housing, providing a first vertically aligned compartment within or beside the housing, mechanically coupling a first water wheel, situated at the bottom of first compartment, to pump shaft, generating by the first wheel mechanical rotational power, providing a second vertically aligned compartment mechanically coupling a second water wheel to a generator, generating electrical or mechanical rotational power, by the generator, providing a third vertically aligned compartment providing a fourth compartment, a pump or external jet for removing water from the fourth compartment, utilizing energy and conductively coupling the hydrodynamic energy generation system with the external power source via a coupling. | 05-05-2016 |
| 20160138559 | AUTOMATIC HEIGHT ADJUSTING PADDLE WHEEL - An automatic height adjusting paddle wheel comprising a housing, where the housing includes a pair of side portions; a paddle wheel positioned along a shaft within the housing; a pair of hoists attached to shaft on each side of the paddle wheel, where each hoists includes a cable coupled to a top portion of the housing; a means to detect a water level fastened to the cable within the hoists, where the means to detect the water level activates the hoists to lift the shaft as the water level raises and lowers in turn raising and lowering the paddle wheel; and a generator at each end of the shaft, where the generator produces electric power as the paddle wheel rotates within the water. | 05-19-2016 |
| 20160141937 | FUEL VAPORIZATION USING DATA CENTER WASTE HEAT - Systems and methods are provided for data center cooling by vaporizing fuel using data center waste heat. The systems include, for instance, an electricity-generating assembly, a liquid fuel storage, and a heat transfer system. The electricity-generating assembly generates electricity from a fuel vapor for supply to the data center. The liquid fuel storage is coupled to supply the fuel vapor, and the heat transfer system is associated with the data center and the liquid fuel storage. In an operational mode, the heat transfer system transfers the data center waste heat to the liquid fuel storage to facilitate vaporization of liquid fuel to produce the fuel vapor for supply to the electricity-generating assembly. The system may be implemented with the liquid fuel storage and heat transfer system being the primary fuel vapor source, or a back-up fuel vapor source. | 05-19-2016 |
| 20160141986 | FLOATING POWER GENERATOR - A floating power generator having a water wheel and electrical generator. The floating power generator can comprise a variable speed drive. | 05-19-2016 |
| 20160141987 | Floating Device Generator - A floating power generator having a water wheel and electrical generator. The floating power generator can comprise a variable speed drive. | 05-19-2016 |
| 20160201641 | UNDERWATER DEVICE AND METHOD FOR CONTROLLING POSTURE OF UNDERWATER DEVICE | 07-14-2016 |
| 20170234292 | METHOD FOR OPERATION OF HYDROPOWER RESERVOIR WITH A 2-PARAMETER ELEVATION RULE CURVE | 08-17-2017 |
| 20180023536 | SYSTEM AND METHOD FOR ENERGY GENERATION AND FLUID TREATMENT | 01-25-2018 |
