Large heat accumulator with a cover

Großwärmespeicher, umfassend ein Speicherbecken (1), ein im Speicherbecken (1) angeordnetes flüssiges Speichermedium (2) zur Speicherung von Wärmeenergie, eine entlang einer Haupterstreckungsrichtung (3) verlaufende Abdeckvorrichtung (4) zur Abdeckung des Speichermediums (2), wobei die Abdeckvorrichtung (4) schwimmend auf dem Speichermedium (2) aufgelagert ist, und wobei die Abdeckvorrichtung (4) eine durchgehende, insbesondere flüssigkeitsdichte und dampfdichte, Dichtschicht (5) umfasst, wobei zwischen der Oberfläche (6) des Speichermediums (2) und der Dichtschicht (5) ein Dampfraum (7) zur Aufnahme und Weiterleitung von aus dem Speichermedium (2) austretendem Gas, insbesondere Dampf, freigehalten ist.

SOLAR HEAT COLLECTOR

A solar heat-collecting structure comprises a series of interconnected transparent lenses forming a dome-shaped roof for receiving direct solar radiation and for transmitting such radiation through the lenses into the enclosure formed thereby and focusing it on a shallow tray of water forming a floor of the enclosure. The inner surfaces of the lenses are coated with a solar radiationreflective film so that radiation reflected from within the enclosure toward the roof is re-reflected toward the heat-collecting water surface. Means are provided for removing heated water from the tray and replacing it with water to be heated. Each lens in the roof lens system has a focal length dependent on its position on the roof with respect to the water surface so as to concentrate solar radiation at the water surface and thereby maximize the heating effect of such solar radiation in various sun positions.

Large heat accumulator with a cover

Großwärmespeicher, umfassend ein Speicherbecken (1), ein im Speicherbecken (1) angeordnetes flüssiges Speichermedium (2) zur Speicherung von Wärmeenergie, eine entlang einer Haupterstreckungsrichtung (3) verlaufende Abdeckvorrichtung (4) zur Abdeckung des Speichermediums (2), wobei die Abdeckvorrichtung (4) schwimmend auf dem Speichermedium (2) aufgelagert ist, und wobei die Abdeckvorrichtung (4) eine durchgehende, insbesondere flüssigkeitsdichte und dampfdichte, Dichtschicht (5) umfasst, wobei zwischen der Oberfläche (6) des Speichermediums (2) und der Dichtschicht (5) ein Dampfraum (7) zur Aufnahme und Weiterleitung von aus dem Speichermedium (2) austretendem Gas, insbesondere Dampf, freigehalten ist.

METHOD FOR ASSEMBLING A PHOTOVOLTAIC STRUCTURE OPERABLE ON AN AQUATIC SURFACE

The invention proposes a method for assembling an electricity production structure, comprising a plurality of floating modules (100), each comprising a frame (110) and at least one photovoltaic panel (120), the structure further comprising at least one tarpaulin (130) stretched under the panels of the modules, the method comprising the supply (S1) of a first module (100a) comprising at least one tarpaulin (100) having a main direction and being attached to the frame in an initial folded or rolled up configuration enabling the deployment of a length of the tarpaulin in the main direction starting from the initial configuration, the positioning (S2) of at least one additional module (100b) adjacent to the first module in the main direction of the tarpaulin, the assembly (S3) of the modules, and the deployment, tensioning and fixing of each tarpaulin of the first module to the frame of a module other than the first module.

Solar power plant

Seasonal heat-cold energy storage and supply pool and seasonal heat-cold energy storage and supply system comprising the same

A seasonal heat-cold energy storage and supply pool, including a salt-free solar pool at the upper layer and an energy storage pool at the lower layer. The salt-free solar pool and the energy storage pool are separately connected to a water source. The salt-free solar pool includes a pool bottom and a pool wall. The pool bottom of the salt-free solar pool functions as a top cover of the energy storage pool. The energy storage pool includes a wall and a bottom which are a composite layer. The energy storage pool is provided with a heat exchange coil configured to implement heat exchange in the energy storage pool for supplying heat and cold for an external user. The salt-free solar pool and the energy storage pool are communicated through controllable valves at the pool bottom of the salt-free solar pool.

POWER GENERATION SYSTEM THAT FLOATS ON FOILS

disposiÇço construtiva introduzida em sistema de aquecimento solar

Passive solar float device for solar heating of stock watering facilities

A solar float device for use in a livestock watering facility to inhibit the freezing of water in a livestock watering facility. The solar float device having upper and lower shells that are connected to each other. The upper shell encloses an air space and the lower shell encloses a ballast space. A bulkhead is connected to the lower shell and separates the air and ballast spaces. A ballast material contained within the ballast space maintains the float device upright in the water and is thermally conductive for receiving and storing heat generated by the solar float device from solar radiation. An energy absorbing element contacts the lower shell and at least a portion is arranged either at or above the level of the water such that the energy absorbing element is exposed to the solar radiation for absorbing the solar radiation and converting the solar radiation into heat.

SOLAR POWER PLANT

A floating photovoltaic power plant comprising a pliable net (2) configured to be arranged on a surface (33) of a body of water, and having a plurality of buoyant photovoltaic modules (1). Each module (1) may be reinforced by means of a supporting frame (8) and/or a stiffened module back side (1b). The back side (1b) of each module (1) may be thermally connected to the water. The modules (1) may be interconnected electrically using contacts capable of submersion. The power plant may comprise preassembled strings of modules (1) folded or stacked for transport and deployment, and forming multiple strings or an array which is moored to the seabed. There is also disclosed a method of installing a floating photovoltaic power plant.

SUN-HEATED PORTABLE SHOWER

SUN-HEATED PORTABLE SHOWER This invention relates to a portable shower unit which is provided with an elevated reservoir. The reservoir is also a thermally insulated solar collector.

Multilayer body, preparation method therefor and use thereof

Disclosed is a multilayer body, comprising a base (2) and a carbon material layer (1) on the base (2), wherein the base (2) is water-permeable, and the carbon material comprises one or more of the following materials: graphite, graphene, graphene oxide, a chemical function group-modified graphene and carbon nanotubes. Further disclosed are a method for preparing the multilayer body, the use of the multilayer body, and a light-absorbing device containing the multilayer body.

Solar power plant

An offshore photovoltaic power plant (100) comprising a pliable mat (2) configured to be arranged on a surface (33) of a body of water, the mat (2) having a plurality of photovoltaic modules (1) fixed thereon. The photovoltaic modules may be marinized and equipped with a buoyant rigid aluminium structure which prevents mechanical damage to the cells. The rigid backside structure may also serve as an efficient heat sink by direct thermal conduction from the solar cells to the pliable mat. There is also provided a fish farm, an offshore power plant, a method of constructing an offshore photovoltaic power plant and a method of installing a floating photovoltaic power plant.

Localized solar collectors

A localized heating structure includes a spectrally-selective solar absorber, that absorbs incident solar radiation and reflects at wavelengths longer than 2 μm, with an underlying heat-spreading layer having a thermal conductivity equal to or greater than 50 W/(mK), a thermally insulating layer, adjacent to the spectrally-selective solar absorber, having a thermal conductivity of less than 0.1 W/(mK), one or more evaporation openings through the spectrally-selective solar absorber and the thermally insulating layer, and an evaporation wick, disposed in one or more of the evaporation openings in the thermally insulating layer, that contacts liquid and allows the liquid to be transported from a location beneath the thermally insulating layer through to the spectrally-selective solar absorber in order to generate vapor from the liquid. The thermally insulating layer is configured to have a density less than the liquid so that the localized heating structure is able to float on the liquid.

Methods, apparatus and systems for generating and superheating vapor under sunlight

A solar vapor generator includes an absorber to absorb sunlight and an emitter, in thermal communication with the absorber, to radiatively evaporate a liquid under less than 1 sun illumination and without pressurization. The emitter is physically separated from the liquid, substantially reducing fouling of the emitter. The absorber and the emitter may also be heated to temperatures higher than the boiling point of the liquid and may thus may be used to further superheat the vapor. Solar vapor generation can provide the basis for many sustainable desalination, sanitization, and process heating technologies.

Device for improving water temperature of irrigation water

LARGE HEAT STORE WITH COVER

Large heat store, comprising a storage basin (1), arranged in the storage basin (1) a liquid storage medium (2) for storing heat energy, a cover device (4), running along a main direction of extent (3), for covering the storage medium (2), wherein the cover device (4) is mounted so as to float on the storage medium (2), and wherein the cover device (4) comprises a continuous, in particular liquid-tight and vapour-tight, sealing layer (5), wherein between the surface (6) of the storage medium (2) and the sealing layer (5) a vapour space (7) is kept free in order to accommodate and pass on gas, in particular steam, leaving the storage medium (2).

SOLAR POWER PLANT

A floating photovoltaic power plant comprising a pliable mat (2), the mat (2) being fixed to an endless, elongated floatation element (3') which surrounds the mat (2). The mat (2) is arranged on a surface (33) of a body of water and in contact therewith, and has a plurality of photovoltaic modules (1) fixed thereon. There is also provided a fish farm comprising a floating photovoltaic power plant.

Anti - airtight deodorizing device who hangs membrane and solar energy power generation of effluent water sump

EMISSION FREE MICRO POWER STATION

As society moves towards a carbon neutral world it is essential that power generators use mass produced, low cost, emission free technologies to help meet internationally agreed targets, such as the Paris accord. The "Emission Free Micro Power Station " combines the heat collector, power generation and storage means in the same system removing the need for large scale costly battery systems. Modern Society is searching for methods of reducing carbon dioxide emissions and providing clean, low cost, fast, reliable, resilient, symbiotic with other energy sources, dispatchable power. The emission free Micro Power Station delivers these benefits.

Swimming pool cover with lenses

A swimming pool cover with lenses is disclosed. The swimming pool cover uses lenses to focus ambient solar energy into the water of a swimming pool. In one embodiment, a plurality of rectangular lenses is connected at their edges by a minimal amount of connecting or gusset material, in order to create an impermeable sheet, while maximizing the amount of incident solar energy absorbed by the swimming pool water. The swimming pool cover also protects detritus from falling into the swimming pool, while at the same time, reduces the amount of heat loss through evaporation. In another embodiment, the gusset material connects a plurality of lenses, varying in both size and shape.

SOLAR POWER PLANT

Aquecedor solar para piscinas colocado dentro das mesmas

Thermal transfer device for covers

The solar thermal collection and radiant heating system for a spa comprising upper and lower absorber members having fluid passageways and in thermal communication, a skin member encasing said upper and lower absorber members and an insulative member located therebetween the upper and lower members and a solar collection device located on the skin member.

SOLAR POWER PLANT

METHODS, APPARATUS AND SYSTEMS FOR GENERATING AND SUPERHEATING VAPOR UNDER SUNLIGHT

A solar vapor generator includes an absorber to absorb sunlight and an emitter, in thermal communication with the absorber, to radiatively evaporate a liquid under less than 1 sun illumination and without pressurization. The emitter is physically separated from the liquid, substantially reducing fouling of the emitter. The absorber and the emitter may also be heated to temperatures higher than the boiling point of the liquid and may thus may be used to further superheat the vapor. Solar vapor generation can provide the basis for many sustainable desalination, sanitization, and process heating technologies. 1. A solar vapor generator , comprising:an absorber to absorb sunlight and convert the absorbed sunlight to heat;a housing, thermally coupled to the absorber, to transfer the heat away from the absorber;an emitter, thermally coupled the housing, to receive at least a portion of the heat transported by the housing and to emit the portion of the heat as thermal radiation; anda basin, mechanically coupled to the housing, to position the emitter such that the emitter is physically separated from a liquid that, when present, absorbs at least some of the thermal radiation and thereby undergoes vaporization to generate a vapor.2. The solar vapor generator of claim 1 , wherein the housing includes:an interior cavity;an opening to admit the generated vapor into the interior cavity of the housing such that the vapor, when present, receives a portion of the heat from the housing as the vapor flows through the interior cavity; andan outlet for the vapor to flow out of the solar vapor generator.3. The solar vapor generator of claim 2 , wherein the interior cavity of the housing is filled claim 2 , at least in part claim 2 , by at least one of a porous material or a finned channel.4. The solar vapor generator of claim 1 , wherein the housing is formed from at least one of aluminum claim 1 , copper claim 1 , carbon steel claim 1 , stainless steel claim 1 , polypropylene claim 1 ...

Floating solar pool heater

A soft, flexible, solar pool heater for floating on water generally comprises independently inflatable outer ring and central portion. When chamber and cavity are inflated, the cavity is with the top and bottom planes of the ring. The ring can be inflated with water for holding the heater in a pool in winds. Holes through the central portion permit egress of air from under the central portion when the heater is placed on water. Valves for chamber and cavity are located near one edge such that the heater may be deflated by rolling from an edge opposite the valves. Magnets on the ring condition water and attach to similar floating heaters to form rafts.

Solar power plant

An offshore photovoltaic power plant (100) comprising a pliable mat (2) configured to be arranged on a surface (33) of a body of water, the mat (2) having a plurality of photovoltaic modules (1) fixed thereon. The photovoltaic modules may be marinized and equipped with a buoyant rigid aluminium structure which prevents mechanical damage to the cells. The rigid backside structure may also serve as an efficient heat sink by direct thermal conduction from the solar cells to the pliable mat. There is also provided a fish farm, an offshore power plant, a method of constructing an offshore photovoltaic power plant and a method of installing a floating photovoltaic power plant.

Compound-Eye-Hexlens Covers for Solar-Ponds and Lagoons

A floating pond cover comprised of a plurality of convex spherical lenses of suitable polymer and uniform thickness arranged symmetrically at maximum packing density within a singular hexagonal floatation-cell-body (Cell), said Cell comprising one of a plurality of >10{circumflex over ( )}3 identical Cells, whereupon dispersed on totality of a Salt-Gradient-Solar-Pond (SGSP) or other pond-function/lagoon surface, providing coverage of >99%, forming a floating thermal insulation and evaporation barrier, whilst maximizing absorptance or reflectance of incident solar irradiance into/from the pond media. The plurality of hemispherical-surfaces of the lenses, being positioned uniformly within a hexagonal body are arranged, convex-side up, and extends upward from a horizontal x-y plane to a prescribed height above upper surface of said Cell, such that solar rays impinging on said plurality of lenses and floatation body are refracted through the transparent, opaque or translucent Cell-body into ...

Solar power station

The invention relates to a solar power station. An offshore photovoltaic power plant (100) comprising a flexible mat (2) configured to be arranged on a surface (33) of a body of water, a plurality of photovoltaic modules (1) being secured to the mat (2). The photovoltaic module may be placed in water and equipped with a buoyant rigid aluminum structure that prevents mechanical damage to the cells. The rigid backside structure may also be used as an efficient heat sink by direct thermal conduction from the solar cell to the flexible pad. A fish farm, an offshore power plant, a method of building an offshore photovoltaic power plant, and a method of installing a floating photovoltaic power plant are also provided.

Apparatus for generating electricity from wind power

An apparatus for generating electricity from wind power includes a turbine, a generator connected with the turbine and generating electricity in response to rotation of the turbine's impeller around a substantially upright axis under an action of wind, a wind guiding device guiding wind substantially upwardly toward the turbine, wherein the wind guiding device has a guiding element which is inclined relative to a vertical plane so as to direct the wind toward the turbine.

Systems and methods for extracting and processing gases from submerged sources

Systems and methods for extracting and processing gases from submerged sources are disclosed. A system for removing and processing a gas from a submerged area in accordance with a particular embodiment includes a membrane or other open-bottom structure having a port and being disposed over at least a portion of the submerged area so as to at least partially enclose a volume of the gas. The system can further include a chemical reactor coupled to the open-bottom structure to receive the gas, and positioned to conduct a non-combustion reaction to dissociate a constituent from a donor substance of the gas.

SOLAR LIGHT WITH WIND TURBINE GENERATOR

A solar light assembly includes an electrical mount configured for electrically mounting thereon a light device. The electrical mount is positioned underneath a first protective cover, and a wind turbine is mounted above the first protective cover and underneath a second protective cover. The wind turbine is configured to generate electrical power and is in electrical communication with the electrical mount. A solar photovoltaic panel is configured to convert solar energy to electrical energy and is in electrical communication with the electrical mount. 1. A solar light assembly comprising:an electrical mount configured for electrically mounting thereon a light device, said electrical mount being positioned underneath a first protective cover;more than one wind turbine mounted above said first protective cover and underneath a second protective cover, said wind turbine, being configured to generate electrical power and in electrical communication with said electrical mount; anda solar photovoltaic panel configured to convert solar energy to electrical energy and in electrical communication with said electrical mount;wherein each of said wind turbines comprises vanes arranged to rotate about a vertical axis defined between said first and second protective covers, said vanes being exposed to wind lhat flows between said first and second protective covers, and each of the vertical axes are off-center from central axes of said first and second protective covers.24-. (canceled)5. The solar light assembly according to claim 1 , wherein said first protective cover has a larger perimeter than said second protective cover.6. The solar light assembly according to claim 1 , wherein said solar photovoltaic panel is located on at least one of said first and second protective covers.7. The solar light assembly according to claim 1 , wherein said solar photovoltaic panel is located on both of said first and second protective covers.8. The solar light assembly according to claim 1 ...

FUNNEL WIND TURBINE

A funnel wind turbine has a horizontal funnel, rotor blades in the narrower end of the funnel, the rotor blades coupled to a rotor, a shaft coupling the rotor to a generator, and a support tower. The funnel wind turbine may have bearings or a yaw system to allow rotation of the horizontal funnel on the support tower. The funnel wind turbine may have wind direction and speed sensors, an electronic control unit, and a communication device (e.g., cellular antennas, radio transmitters/receivers, etc.) for transmitting information such as wind speed and direction, power generation, and efficiency to a distant receiver. 1. A funnel wind turbine , comprising:a horizontal funnel comprising an inlet end having a first diameter, an outlet end having a second diameter, and a narrow portion having a third diameter, the narrow portion interposed between the inlet end and the outlet end, the third diameter being less than the first diameter, with the first diameter being less than the second diameter;rotor blades positioned and rotatable within the third diameter of the narrow portion;at least one tailfin; anda solar panel.2. The funnel wind turbine of claim 1 , further comprising a fourth diameter calculated at a bend.3. The funnel wind turbine of claim 2 , wherein the bend and the outlet end are in the same vertical geometric plane.4. The funnel wind turbine of claim 1 , further comprising a support frame coupled to a support tower claim 1 , the horizontal funnel coupled to the support frame claim 1 , the support frame configured to rotate on the support tower.5. A method of using the funnel wind turbine of claim 1 , the method comprising positioning the intake end of the horizontal turbine to receive wind claim 1 , the received wind compressing as it moves through the narrow portion claim 1 , turning the rotor blades claim 1 , and exiting through the outlet end; the inlet end being less in diameter than the outlet end claim 1 , thereby creating negative pressure at the outlet ...

WIND TURBINE AND CONTROL METHOD THEREFOR

The disclosure provides a wind turbine generator and a control method thereof. The wind turbine generator comprises at least two power transmission systems connected each other in parallel and a control system comprising an upper controller and control subsystems corresponding to the power transmission systems and comprising bottom controllers. The bottom controllers monitor operating state parameters of functional units in corresponding power transmission systems, and when determining corresponding functional units meet abnormal conditions according to operating state parameters, send operating state parameters of corresponding functional units to the upper controller; the upper controller generates operating instructions when determining faults of the corresponding functional units occur according to operating state parameters of corresponding functional units, to control power transmission systems to work according to operation instructions. The wind turbine generator is fully used, and the energy production thereof is further increased. 1. A wind turbine generator , comprising:at least two power transmission systems connected in parallel with each other;a control system, wherein the control system comprises an upper controller and control subsystems provided correspondingly to the power transmission systems, and each of the control subsystems comprise bottom controllers;wherein the bottom controllers are used for monitoring operating state parameters of functional units in corresponding power transmission systems, and under the condition that it is determined that corresponding functional units meet abnormal conditions according to the operating state parameters, sending the operating state parameters of the corresponding functional units to the upper controller;the upper controller is used for generating operation instructions under the condition that it is determined that faults of the corresponding functional units occur according to the operating state ...

SYSTEM AND METHOD FOR SELECTIVELY GENERATING ELECTRICITY

Provided herein is a system and method for heat exchange of a vehicle. The system comprises an enclosure disposed on the vehicle. The enclosure comprises a vent at a base of the enclosure. The enclosure houses one or more sensors. The enclosure comprises a fan disposed at a base of the enclosure. The heat exchange system comprises an deflector disposed on the vehicle outside the enclosure and configured to direct an airflow into the vent of the enclosure. The heat exchange system comprises a motor configured to: generate electricity from the airflow and selectively supply electricity to operate the fan. The heat exchange system comprises a controller configured to adjust the deflector and regulate an amount of electricity supplied from the motor to the fan. 1. A heat exchange system of a vehicle , comprising: a vent at a base of the enclosure;', 'a fan disposed at a base of the enclosure; and', 'one or more sensors within the enclosure;, 'an enclosure disposed on the vehicle, the enclosure comprisinga deflector disposed on the vehicle outside the enclosure and configured to direct an airflow into the vent of the enclosure; generate electricity from the airflow; and', 'selectively supply electricity to operate the fan; and, 'a motor configured toa controller configured to adjust the deflector and regulate an amount of electricity supplied from the motor to the fan.2. The heat exchange system of claim 1 , wherein:the one or more sensors are configured to determine a speed of the vehicle, an internal temperature of an enclosure, and an external temperature; andthe controller is configured to regulate the amount of electricity supplied from the motor to the fan based on the speed of the vehicle, the internal temperature of the enclosure, the external temperature, or the difference between the internal temperature of the enclosure and the external temperature.3. The heat exchange system of claim 1 , wherein:the motor is further configured to, in response to supplying the ...

Hybrid Wind-Solar Power Generation System

Electrical power may be generated by a system employing wind and solar energy capturing means. A wind turbine can be connected to a controller and have at least one blade connected to an electrical generator. A pressure vessel may be pneumatically connected to at least one nozzle that is attached proximal the wind turbine. A compressor can be connected to the pressure vessel and the controller so that the compressor is operated via electricity produced by the electrical generator. At least one solar panel that is positioned proximal the at least one nozzle can clean a solar panel with compressed air from the pressure vessel in response to the controller. 1. An apparatus comprising:a wind turbine having at least one blade connected to an electrical generator, the wind turbine connected to a controller;a pressure vessel pneumatically connected to at least one nozzle attached proximal the wind turbine;a compressor connected to the pressure vessel and the controller, the compressor operated via electricity produced by the electrical generator; andat least one solar panel positioned proximal the at least one nozzle to clean the at least one solar panel with compressed air from the pressure vessel in response to the controller.2. The apparatus of claim 1 , wherein the electrical generator is positioned in a nacelle of the wind turbine.3. The apparatus of claim 1 , wherein the at least one nozzle is statically mounted to the at least one blade.4. The apparatus of claim 1 , wherein the at least one nozzle is mounted to the at least one blade via a pivot configured to tilt the at least nozzle relative to the at least one solar panel.5. The apparatus of claim 1 , wherein the at least one nozzle is supplied compressed air by a supply line claim 1 , the supply line continuously extending within a blade housing of the at least one blade.6. The apparatus of claim 1 , wherein the at least one nozzle is supplied compressed air by a supply line claim 1 , the supply line continuously ...

PHOTOVOLTAIC MODULE FLOATING SUPPORTING STRUCTURE

A photovoltaic module floating supporting structure according to the present application includes a floating body and a first supporting plate integrally formed with the floating body and configured to be connected to a connecting assembly, the first supporting plate has an upper surface smoothly connected to an upper surface of the floating body, and has a lower surface smoothly connected to a lower surface of the floating body. In use, the connecting assembly is installed on the first supporting plate and the photovoltaic module is installed on the connecting assembly. 1. A photovoltaic module floating supporting structure , comprising a floating body , and further comprising a first supporting plate integrally formed with the floating body and configured to be connected to a connecting assembly , wherein the first supporting plate has an upper surface smoothly connected to an upper surface of the floating body and a lower surface smoothly connected to a lower surface of the floating body.2. The photovoltaic module floating supporting structure according to claim 1 , further comprising a second supporting plate integrally formed with the floating body and configured to be connected to the connecting assembly claim 1 , wherein an inner support groove is defined by the second supporting plate and the upper surface of the floating body.3. The photovoltaic module floating supporting structure according to claim 2 , wherein the first supporting plate and/or the second supporting plate are solid structures.4. The photovoltaic module floating supporting structure according to claim 2 , wherein the upper surface of the first supporting plate is provided with a first connection positioning hole and a first drainage groove in communication with the first connection positioning hole;and/or, an upper surface of the second supporting plate is provided with a second connection positioning hole and a second drainage groove in communication with the second connection positioning ...

INFORMATION COMMUNICATION TECHNOLOGY-BASED UNMANNED ALERT SYSTEM

The present invention provides an information communication technology-based unmanned alert system for autonomously determining whether an intruder is present, notifying a user of invasion information, using a 4G LTE network, and forcing the intruder out. The present invention comprises: an unmanned monitoring device () comprising an information collection unit for collecting surrounding situation information, a wireless communication unit for a monitoring device, which wirelessly transmits or receives information, using an LTE communication scheme, and a first control unit for transmitting or receiving information collected by the information collection unit through the wireless communication unit for a monitoring device; and a mobile terminal () comprising a wireless communication unit for a terminal, which wirelessly transmits or receives information to or from the wireless communication unit for a monitoring device, and a second control unit for displaying, on a display unit, surrounding situation information received by a wireless transmission unit for a terminal. Therefore, the unmanned monitoring device () transmits or receives intruder information to or from the mobile terminal () through an image and a text, so that a watcher can understand the intruder information. 1. An information communication technology (ICT)-based unmanned security system comprising:{'b': '20', 'an unmanned surveillance device () comprising an information collection unit for collecting peripheral status information, a surveillance device wireless communication unit for wirelessly transmitting and receiving information using a long term evolution (LTE) communication method, and a first controller for transmitting or receiving the information collected by the information collection unit, through the surveillance device wireless communication unit; and'}{'b': '50', 'a mobile device () comprising a mobile device wireless communication unit for wirelessly transmitting and receiving ...

HYBRID ELECTRIC POWER SYSTEM POWER CURVE AND PRODUCTIVITY

A method of a site evaluation for a hybrid wind/solar power generation plant, the method including generating a hybrid wind/solar power curve, the power curve including a plurality of solar power level curves, each solar power level curve including a combined wind and solar output power for at least one wind condition. Evaluating performance of the hybrid wind/solar power generation plant by analyzing the family of curves. A system for implementing the method and a non-transitory computer-readable medium are also disclosed. 1. A method of site evaluation for a hybrid wind/solar power generation plant , the method comprising:generating a hybrid wind/solar power curve, the power curve including a plurality of solar power level curves, each solar power level curve including a combined wind and solar output power for at least one wind speed operating point;evaluating performance of the hybrid wind/solar power generation plant by analyzing the family of curves;generating the hybrid wind/solar power curve including:obtaining wind turbine specifications and solar panel specifications for the hybrid wind/solar power generation plant;obtaining site-specific environmental condition data;selecting a wind condition;calculating a wind generated power contribution for the selected wind condition;calculating a solar power generated contribution for the selected wind condition; andcombining the wind power generated contribution and the solar power generated contribution to obtain a net power for the selected wind condition.2. The method of claim 1 , calculating the wind power generated contribution including:calculating wind power generated contribution by applying wind turbine specifications at the selected wind speed operating point for predetermined increments of time spanning a predetermined period of time; andaveraging the calculated wind power generated contribution for a window of time encompassing a plurality of the increments of time.3. The method of claim 2 , including ...

Water management system

An outdoor water management system including at least one reservoir configured to receive highly concentrated contaminated water, a weather proof cover, covering the reservoir to define at least one chamber and water vapour removal means, configured to remove evaporated water from the at least one chamber wherein the at least one chamber is configured to further concentrate the contaminated water while providing long-term weatherproof storage thereof.

ADAPTABLE AIRPORT SYSTEM WITH INDUSTRIAL ZONES AND CLEAN ENERGY GENERATION

An environmentally-friendly airport with renewable energy sources. The environmentally-friendly airport includes a security zone encompassing the land area of the airport, and a plurality of runways across the land area. There are one or more terminals within the security zone encompassing the land area of the airport. Further, a plurality of power generator systems are disposed within the land area for generating renewable, clean energy, and an industrial zone is placed within a boundary formed by the runways. 1. A airport with steam heated runways.2. A airport of where in the steam heated runways including solar collectors.3. A airport of where in the steam heated runways including wind powered electrical generators.4. A airport of where in the steam heated runways including hydrogen fuel cells.5. A airport of where in the steam heated runways including geothermal power generators.6. A airport of where in the steam heated runways including solid oxide fuel cell generators.7. A airport of where in the steam heated runways including biomass power generators.8. A airport of where in the steam heated runways including magnetic power generators.9. A airport of claim 1 , where in the steam heated runways including hydrogen electrolysis generators.10. A airport of where in the steam heated runways including hydrogen fusion power generators.11. A airport of where in the steam heated runways including bellows power generators. The present invention relates generally to an environmentally-friendly airport with renewable energy sources. More specifically, the present invention relates to an airport complete with plurality of runways with one or more terminals, preferably within a security zone and a plurality of power generator systems disposed within the airport for generating renewable, clean energy.Airports, particularly large international airports, have long been centers of both commerce and pollution. On one hand, they offer one of the most significant means to ...

Method and System for Enhancing Electrical Power Production by a Power Generation System

A power generation system () is presented. The power generation system includes a prime mover (), a doubly-fed induction generator (DFIG) () having a rotor winding () and a stator winding (), a rotor-side converter (), a line-side converter (), and a secondary power source () electrically coupled to a DC-link (). Additionally, the power generation system includes a control sub-system () having a controller, and a plurality of switching elements (, and or ). The controller is configured to selectively control switching of one or more switching elements (, and or ) based on a value of an operating parameter corresponding to at least one of the prime mover, the DFIG, or the secondary power source to connect the rotor-side converter in parallel to the line-side converter to increase an electrical power production by the power generation system. 1100200300400. A power generation system ( , , , ) , comprising:{'b': '102', 'a prime mover ();'}{'b': 104', '102', '104', '126', '122, 'a doubly-fed induction generator (DFIG) () operatively coupled to the prime mover (), wherein the DFIG () comprises a rotor winding () and a stator winding ();'}{'b': 106', '126, 'a rotor-side converter () electrically connectible to the rotor winding ();'}{'b': 108', '114', '108', '106, 'a line-side converter () electrically connectible to a point of common coupling (PCC) (), wherein the line-side converter () and the rotor-side converter () are coupled to each other via a direct current (DC) link;'}{'b': 110', '401, 'a secondary power source (, ) electrically coupled to the DC-link; and'}a control sub-system comprising:{'b': 130', '132', '201', '126', '104', '114, 'a plurality of switching elements (, and or ) disposed between the rotor winding () of the DFIG () and the PCC (); and'}{'b': 136', '130', '132', '201', '130', '132', '201', '102', '104', '110', '401', '106', '108', '100', '200', '300', '400, 'a controller () operatively coupled to the plurality of switching elements (, and or ) and ...

Battery Powered Generator

A battery powered generator. The battery powered generator has a housing including a rechargeable battery. A pedal assembly, a wind turbine, and at least one solar panel are removably securable to the housing, enabling a user to choose any combination of which to recharge the battery. When secured to the housing, the pedal assembly, the wind turbine, and the at least one solar panel are operably connected to the rechargeable battery. A subpanel and an electrical panel are also operably connected to the rechargeable battery. An automatic transfer switch is operably connected to the electrical panel, the rechargeable battery, and the subpanel, and can control a flow of. The battery powered generator can be recharged by a variety of devices, or a combination thereof, to provide an uninterrupted flow of electricity in the event the electrical panel is unable to 120)-) (canceled)21) A battery powered generator , consisting of:a housing defined by a base, at least one sidewall disposed along a perimeter of the base, and a top disposed opposite the base;a rechargeable battery disposed within the housing;a pedal assembly, a wind turbine, and at least one solar panel, wherein each of the pedal assembly, the wind turbine, and the at least one solar panel are removably securable to the housing via at least one electric cable and received by at least one receptacle in the housing in electrical communication with the battery;the pedal assembly, the wind turbine, and the at least one solar panel operably connected to the rechargeable battery when secured to the housing;an electrical panel operably connected to the rechargeable battery via an inverter;a subpanel disposed in the housing operably connected to the rechargeable battery;an automatic transfer switch operably connected to the electrical panel, the rechargeable battery, and the subpanel; andthe automatic transfer switch configured to control a flow of electricity into and out of the subpanel. This application claims the ...

Electric Bicycle Rental Outlet For Use In Off-Grid Locations

A wind and solar powered Light Electric Vehicle (LEV) rental outlet specifically configured to offer electric bicycles, SEGWAYS, 1. A Light Electric Vehicle rental outlet comprising:A plurality of Light Electric Vehicle docks;A plurality of portable battery charging stations;An electrical energy storage device;A photovoltaic solar array;A wind turbine generator;And a mobile enclosure;2. The Light Electric Vehicle rental outlet of claim 1 , wherein the said photovoltaic solar array is attached to said mobile enclosure for the purpose of providing electric power to said battery charging stations.3. The Light Electric Vehicle rental outlet of claim 1 , wherein the said wind turbine generator is attached to said mobile enclosure for the purpose of providing electric power to said battery charging stations.4. The Light Electric Vehicle rental outlet of claim 1 , wherein the said electrical energy storage device is used to store electric power generated from said photovoltaic solar array and said wind turbine generator.5. The Light Electric Vehicle rental outlet of claim 4 , wherein the said electrical energy storage device is used to provide electricity to said battery charging stations when said photovoltaic solar array and said wind turbine generator are not generating electricity.6. The Light Electric Vehicle rental outlet of claim 1 , wherein the said photovoltaic solar array claim 1 , said wind generator claim 1 , said battery charging stations claim 1 , said Light Electric Vehicle docks claim 1 , and said electrical storage device can be contained within the confines of said mobile enclosure.7. An Light Electric Vehicle rental outlet operated from within a mobile enclosure comprising:A plurality of Light Electric Vehicle docks;A plurality of portable battery charging stations;An electrical energy storage device;A photovoltaic solar array;A wind turbine generator;And a mobile enclosure comprised from an International Standards Organization (ISO) Standard Shipping ...

SYSTEM AND METHOD FOR SELECTIVELY GENERATING ELECTRICITY

Provided herein is a system and method for heat exchange of a vehicle. The system comprises an enclosure disposed on the vehicle. The enclosure comprises a vent at a base of the enclosure. The enclosure houses one or more sensors. The enclosure comprises a fan disposed at a base of the enclosure. The heat exchange system comprises an deflector disposed on the vehicle outside the enclosure and configured to direct an airflow into the vent of the enclosure. The heat exchange system comprises a motor configured to: generate electricity from the airflow and selectively supply electricity to operate the fan. The heat exchange system comprises a controller configured to adjust the deflector and regulate an amount of electricity supplied from the motor to the fan.

Waterborne photovoltaic system

Embodiment of the present disclosure provides a waterborne photovoltaic system, comprising a photovoltaic module, a photovoltaic support and a suspension device, wherein the photovoltaic module is secured to the photovoltaic support, the photovoltaic support is secured to the suspension device, the suspension device comprises a plurality of floating members, and each of the floating members comprises a plurality of floats.

Portable Multiple Source Electrical Power Unit

A portable, non-fossil fuel, multiple source, electrical power unit that includes a lightweight wind generator assembly and an optional solar panel assembly partially disassembled and stored in a rigid, protecting container. The power unit includes a pivoting tower assembly made of a plurality of tower members that are removed and assembled in an end to end manner to form an elongated tower assembly. A nacelle and wind generator are attached to the distal end of the tower assembly. The wind generator is attached to a lightweight hub assembly that uses lightweight sail/airfoil shaped blades. In one embodiment, the container includes four pivoting outrigger legs. In a second embodiment, the container's four side panels fold downward. Concrete blocks may be used to hold the container upright. Mounted on the container is a solar panel assembly with at least one solar panel and a bank of rechargeable batteries. An electronic control assembly is also provided that enables the operator to control the electrical output from the wind and solar panel assemblies. 1. A portable , electrical power unit , comprising:a. rigid container;b. a disassembled, lightweight wind generator assembly located inside said container, said wind generator assembly includes a plurality of tower members that when removed and assembled in an end to end manner, form an elongated tower, said wind generator also includes a hub and a rotor assembly that uses lightweight sail/airfoil shaped blades is attached to the upper end of said tower, said lower end of said tower being pivotally attached to said container enabling said tower to be rotated from a horizontal position to a vertical position over said container;c. at least lateral legs pivotally attached to said container;d. a bank of rechargeable batteries; ande. an electric control assembly disposed between said wind generator that selectively controls the electrical output from the wind generator and said solar panel assembly.2. The portable ...

V-shaped light distributor system

A sun-tracking light distributor for a photosynthetic culture in an aqueous liquid, comprising: two light distribution walls made of a transparent material, creating an elongated V-shaped channel adapted to receive the sunlight and to be partly immersed in the aqueous liquid, the sun-tracking light distributor has a center of buoyancy, a vertical passing through the center of buoyancy defines an axis of flotation, and a pivot axis of the sun-tracking light distributor is offset relative to the axis of flotation. Owing to the offset pivot axis, the orientation of the light distributor is changed by varying the level of aqueous liquid, thus allowing a tracking of the sun's altitude.

SMART FLOATING PLATFORMS

Disclosed are modular floating platforms configured to be joined together to form a cover over surfaces of natural and artificial bodies of water and other liquids, for reducing evaporation and other purposes. The floating platforms may be motorized and provided with remote control systems, so that the platforms may be assembled together on command to provide uniform coverage of the surface of the body of water. The floating platforms are optionally capable of solar and wind power collection. The platforms are useful for covering mining tailing storage ponds. 1. A buoyant platform comprising:a substantially planar panel having a top face, a bottom face and at least one edge;a buoyancy element integrated on or in the panel; anda coupler on or adjacent the edge of the panel for joining the platform to another buoyant platform.2. The platform of claim 1 , wherein the buoyancy element is:(a) the panel, and the panel is comprised of a buoyant material;(b) substantially encapsulated by the panel; or(c) attached to the panel.3. The platform of claim 1 , wherein the buoyancy element is selected from the group consisting of:(a) an inflatable substantially flexible container;(b) a substantially hollow, substantially rigid container;(c) a container filled with a buoyant material selected from foam, solids, liquids and mixtures thereof; and(d) a solid or semi-solid buoyant material.4. The platform of claim 1 , wherein the buoyancy element comprises a plurality of spherical or elliptical buoyancy elements.5. The platform of claim 4 , wherein the panel has orifices for receiving the spherical or elliptical buoyancy elements.6. The platform of claim 3 , wherein the top face claim 3 , the bottom face or both the top face and the bottom face of the panel is hexagonal-shaped.7. The platform of claim 3 , further comprising a propulsion system.8. The platform of claim 7 , further comprising a control system configured to control position of the platform claim 7 , or to control the ...

Sustainable Energy Tracking System Utilizing Blockchain Technology and Merkle Tree Hashing Structure

Apparatus and associated methods relate to generating energy blocks on a blockchain corresponding to generation, transmission, and consumption of predetermined quanta of energy represented by corresponding records in an associated Merkle trie. In an illustrative example, individual energy data records may be hashed. Each hash may be stored in a leaf node of a Merkle trie. The individual energy data records may be aggregated to correspond to represent a predetermined quantum of energy. The individual energy data records may include energy generation records. The energy blocks may be associated with scheduling, delivery, and consumption data for the energy quantum. Various embodiments may advantageously provide secure, verifiable, and immutable tracking and processing of energy generation, transmission, and consumption of physical energy quanta across one or more distributed energy networks. 1. A computer program product comprising:a program of instructions tangibly embodied on at least one computer readable medium wherein, when the instructions are executed on at least one processor, a processor causes operations to be performed to verify energy generation, transmission, and consumption across at least one tracking and processing infrastructure, the operations comprising:generating a hash value for each of a plurality of energy generation data records (EGDRs), each representing a defined quantity of energy produced in a defined time period;storing each hash value in a Merkle trie;generating an aggregate of at least one of the EGDRs for a predetermined quantum of energy represented by the aggregated EGDRs;generating an energy block on at least one blockchain and storing therein at least one root hash value, the root hash value representing a root in the Merkle trie corresponding to the aggregated EGDRs; and,associating the energy block with energy validation data (EVD) relating to scheduling, delivery, and consumption corresponding to the quantum of energy.2. The ...

Steam or vapour condensing system

A steam or vapour condensing system ( 10 ) for use with radiant solar energy collecting apparatus ( 17 ) of the type having solar energy concentrators ( 20 ) and in which steam or vapour is generated for supply to a load such as to a steam turbine, the system ( 10 ) using the solar energy concentrators ( 20 ) to directly or indirectly radiate heat energy of exhaust steam or vapour from the load. The collecting apparatus ( 17 ) may float on a body of liquid ( 19 ) and heat energy of the exhaust steam or vapour is transferred to the body of liquid for example by being passed through a duct ( 23 ) in the body of liquid ( 19 ) and heat energy transferred to the body of liquid ( 19 ) is radiated by the concentrators ( 20 ).

Solar power plant

An offshore photovoltaic power plant ( 100 ) comprising a pliable mat ( 2 ) configured to be arranged on a surface ( 33 ) of a body of water, the mat ( 2 ) having a plurality of photovoltaic modules ( 1 ) fixed thereon. The photovoltaic modules may be marinized and equipped with a buoyant rigid aluminium structure which prevents mechanical damage to the cells. The rigid backside structure may also serve as an efficient heat sink by direct thermal conduction from the solar cells to the pliable mat. There is also provided a fish farm, an offshore power plant, a method of constructing an offshore photovoltaic power plant and a method of installing a floating photovoltaic power plant.

PORTABLE POWER GENERATING SOLAR CELL WIND TURBINE

Electrical power may be generated from wind and/or solar inputs. A plurality of rotor blades may extend radially from a rotor hub. The rotor blades may rotate about the rotor hub under the influence of an incident wind to produce an electrical current from a generator retained within a nacelle. Photovoltaic films may cover at least a portion of the surfaces of the rotor blades. The rotor blades may be detachable from the rotor hub for use in a solar panel arrangement. The rotor blades may be folded to enclose the nacelle for transporting the system. 1. A system for generating electrical power , the system comprising:a rotor hub affixed to a generator such that the rotation of the rotor hub about an axis of rotation will cause the generator to produce an electrical current;a plurality of rotor blades affixed to the rotor hub;a hinge affixing each of the plurality of rotor blades to the rotor hub, each hinge permitting the affixed rotor blade to be placed in a first position extending radially from the rotor hub such that when each of the plurality of rotor blades extend radially the rotor blades will cause the rotor hub to rotate around the axis of rotation under the influence of an incident wind, each hinge further permitting the affixed rotor blade to be placed in a second position extending roughly parallel to the axis of rotation;at least one pin that detachably secures each of the plurality of rotor blades in the first extended position, such that when the at least one pin is withdrawn the rotor blade may be moved to the second folded position;at least one photovoltaic material covering at least half of the surface of each of the plurality of rotor blades; andat least one current controller that regulates the electrical current output by the generator and the photovoltaic material.2. The system for generating electrical power of claim 1 , further comprising a nacelle that encloses the generator claim 1 , and wherein the rotor blades enclose the nacelle on four ...

METHOD OF OPERATING A HYBRID POWER PLANT TO OPTIMISE PV POWER OUTPUT

The present disclosure relates to a method of controlling operation of wind turbine generators (WTGs) in a hybrid power plant including both WTGs and PV modules. The method includes steps of: monitoring at least one operating parameter for one or more of the WTGs; monitoring at least one operating parameter for one or more of the PV modules; and controlling operation of the WTGs in dependence on the monitored operating parameters in order to control blade shadows cast by the WTGs on the PV modules and thereby optimise the power output of the PV modules, for example by reducing the blade shadow area cast on the PV modules. 1. A method of operating a hybrid power plant comprising at least one WTG and at least one PV module , wherein at least one of the PV modules is at a location within the hybrid power plant that is affected by blade shadows , the method comprising:monitoring at least one operating parameter for one or more of the WTGs;monitoring at least one operating parameter for one or more of the PV modules; andcontrolling operation of the WTGs in dependence on the monitored operating parameters in order to control blade shadows cast by the WTGs on the PV modules and thereby optimise the power output of the PV modules.2. The method of claim 1 , wherein the monitored operating parameters for the WTGs include any one or more of: wind speed claim 1 , direction and/or turbulence at one or more locations; the power output of one or more of the WTGs; blade load at one or more of the WTGs; cable losses for one or more of the WTGs; and the operational status of one or more of the WTGs.3. The method of claim 1 , wherein the monitored operating parameters for the PV modules include any one or more of: light conditions at one or more locations inside the hybrid power plant; light conditions at one or more reference locations outside the influence of WTG shadows; sun position; time; date; the power output of one or more of the PV modules; current or voltage of one or more ...

ROTATING FLOATING PLATFORM

A rotating floating platform, adapted to accommodate energy production systems, namely solar panels but not limited to these systems. The technology now developed provides rotational movement to the entire platform, on the plane of the aquatic medium where it floats, being its rotation capacity independent of fixed and rigid structures. In order to achieve this independency, the rotating floating platform comprises a central floating module connected directly or indirectly to at least two propulsion modules, where the connection to the bottom of the basin being provided through a flexible mooring unit forming a rotation floating structure where the momentum and the rotation axis act as one, thus creating a rotation platform. 18.-. (canceled)9. Rotating floating platform comprising:a central floating module comprising a central floating component having a bearing type connection for coupling an outer component, and means for fixating a mooring unit of an anchor type, said outer component providing the connection of the central floating module to a plurality of propulsion modules by means of a fixation mechanism;a plurality of propulsion modules, wherein each propulsion module comprises a motor unit coupled to at least one floating component, the motor unit comprising a propeller and a control unit, said control unit comprising a communication module configured to establish a wired/wireless communication link to an external entity, and processor means adapted to operate the propeller and defining its rotation movement direction according to instructions received by the external entity.10. The rotating floating platform according to claim 9 , wherein the outer component is of a ring shape.11. The rotating floating platform according to claim 9 , wherein the mooring unit is fixed to the central floating module by means of a swivel and rope connection providing the connection of the platform to the bottom of the basin.12. The rotating floating platform according to claim ...

SOLAR PANEL TRACKING SYSTEM

A tracking system for performing a movement control of a solar panel is provided, having a single axis solar tracking solution allowing an individual actuation of a solar panel and its respective rotation axis. The tracking system is applied in an individual solar panel, and has a local control unit, an electrical motor, a tracking actuator mechanism, a blockage unit and a tracking support mechanism, which is useful for solar power plant installations where individual panel tracking is an advantage due to site conditions such as irregular grounds or unstable locations as in aquatic sites or locations with variable slopes. 16.-. (canceled)8. The solar panel tracking system according to claim 7 , wherein the panel structure comprises two horizontal beams for fixing the tracking actuator mechanism by means of two lower half clamps and two top half clamps.9. The solar panel tracking system according to claim 7 , wherein the support structure comprises two vertical beams for fixing the panel structure claim 7 , said vertical beams connecting to the two hinge assemblies.10. The solar panel tracking system according to claim 7 , wherein each hinge assembly comprises a hinge support with a round hole or with a slotted hole.11. The solar panel tracking system according to claim 7 , wherein one hinge assembly has a round hole hinge support and the other hinge assembly has a slotted hole hinge support.12. The solar panel tracking system according to claim 7 , wherein the local control unit comprises:a communication module; anda processor unit, configured to actuate the tracking actuator mechanism upon receiving and processing the activation message sent by the remote central control unit.13. The solar panel tracking system according to claim 7 , wherein the electrical motor is connected to the threaded shaft by means of a bearing joint.14. The solar panel tracking system according to claim 10 , wherein each hinge assembly comprises additionally:a hinge part with two half ...

System and Method for Charging Autonomously Powered Devices Using Variable Power Source

A solar or self-powered assembly includes a rechargeable battery and photo voltaic panel and/or wind turbine for supplying a battery charging current. A charge controller processor is controls charging current from the photovoltaic panel and/or wind turbine to maintain the battery in a substantially fully charged state of 80% or more state of charge over daily charge and discharge cycle charging is based on a projected target energy input based on the initial bulk energy charge, the level of discharge required to compensate for charging inefficiencies and the battery capacity factor representative of the projected natural charge in the battery over its lifespan. 1. A solar light or other autonomously powered device assembly comprising: a rechargeable battery,', 'a light and/or load electrically connected to said battery, photovoltaic panel for supplying a charging current to said battery, and', 'a charge controller operable to sense a level of a depth of discharge (DOD) and/or a state of charge (SOC) of said battery and regulate or control a flow of charging current from the photovoltaic panel to the battery,', 'a processing assembly communicating with said charge controller and operable to receive input signals representative of said sensed level of DOD and/or SOC, and to output in response thereto controller control signals for controlling the flow of said charging current, the processing assembly including memory and program instructions, wherein,', {'sub': B', 'AB', 'OP, 'the memory periodically receiving initial input values representative of an estimated initial battery capacity factor F[T] for said battery, and a preselected battery target voltage V[T] at a selected operating temperature (T),'}], 'solar light pole and/or other load bearing device including,'} 'during an initial charge period:', 'wherein as part of a daily charging and discharge cycle the program instructions being operable whereby,'}{'sub': bulk', 'AB, 'A. receiving into said memory an ...

SOURCE-LOAD COOPERATION ACCESS METHOD FOR A POWER DISTRIBUTION REGION, TERMINAL AND STORAGE MEDIUM

Provided is a source-load cooperation access method for a power distribution region. The method includes: establishing a timing feature model of a distributed generator and a timing feature model of a load respectively, acquiring a timing feature of the distributed generator in an access power distribution region by using maximum likelihood estimation and acquiring a timing feature of a user which accesses the power distribution region by using classification and regression trees; and inputting the timing feature of the distributed generator and the timing feature of the user which access the power distribution region into a combination optimization model, and determining a source-load access feeder through optimization. 1. A source-load cooperation access method for a power distribution region , comprising:establishing a timing feature model of a distributed generator and a timing feature model of a load respectively, acquiring, by using a maximum likelihood estimation and the timing feature model of the distributed generator, a timing feature of the distributed generator which accesses the power distribution region, and acquiring, by using a classification and regression tree and the timing feature model of the load, a timing feature of the load which accesses the power distribution region; andinputting the timing feature of the distributed generator which accesses the power distribution region and the timing feature of the load which accesses the power distribution region into a combination optimization model, and determining a source-load access feeder through optimization.7. A terminal , comprising a processor and a memory for storing programs , wherein when executed by the processor , the programs implement the following steps: 'inputting the timing feature of the distributed generator which accesses the power distribution region and the timing feature of the load which accesses the power distribution region into a combination optimization model, and ...

MULTI-SOURCE RENEWABLE POWER GENERATION SYSTEM

A multi-source power generation system to generate electricity by utilizing a combination of renewable energy sources such as wind, solar and wave energy is disclosed. The power generating system comprises a frame including a float body and a cylindrical body integral to the float body is submerged below the surface of sea water. A solar power generator comprising solar panel is mounted above the float portion, which is configured to receive the solar power energy and produce electrical potential. A wave energy generator is disposed inside the cylindrical body to harness wave energy from wave motion. A wind turbine disposed on the float body, which is configured to harness wind energy from wind. The cylindrical body comprises a cylindrical compartment including a cylindrical magnet which is configured to move in and out of a coil to generate electrical energy. 1. A multi-source renewable power generating system , comprising: 'wherein the cylindrical body comprising a cylindrical compartment running the length of the cylindrical body,', 'a frame comprising a float body disposed above a surface of a body of liquid and a cylindrical body submerged below the surface the body of liquid;'}a solar power generator comprising a plurality of solar panel disposed above the float body is configured to receive solar energy and produce electrical energy;a wave energy generator disposed inside the cylindrical body of the frame is configured to receive wave energy, anda wind turbine comprising plurality of wind turbine disposed above the float body is configured to receive wind energy.2. The power generating system according to claim 1 , wherein the wind turbine is a vertical axis wind turbine.3. The power generation system according to claim 1 , wherein the wave energy generator is a point absorber.4. The power generation system according to claim 1 , wherein the cylindrical compartment comprises a cylindrical magnet and a coil.5. The power generation system according to claim 1 , ...

Solar or Wind Powered Assembly

An assembly comprising at least one electrical device; the at least one electrical device being mounted to a support; at least one solar element for creating electric power from solar power; at least one energy storage device for storing electricity generated by the solar element; at least one wind impacting surface operatively associated with the support; at least one energy converter for generating electric power from the wind; and at least one shaft operatively connected to the at least one energy converter and the support;. Optionally, the energy converter comprises at least one motor which operates to rotate the support; the at least one motor being operatively connected to the at least one battery for storing electric power therein. 1. An assembly comprising:at least one electrical device; the at least one electrical device being operatively connected to a support;at least one movable solar element for creating electric power from solar power;at least energy storage element for storing electricity generated by the solar element;at least one wind impacting surface operatively associated with the support;at least one energy converter for generating electric power from the at least one wind impacting surface; andat least one shaft operatively connected to the at least one energy converter and the support;the at least one energy converter being operatively connected to the at least one energy storage element for storing electric power therein;wherein the at least one movable solar element is movably positioned so as to increase exposure to the sun2. The assembly of wherein the electrical device comprises an LED and further comprising a light detector; the light detector controlling the operation of the LED.3. The assembly of wherein the at least one energy converter comprises a generator.4. The assembly of wherein the at least one energy converter comprises at least one generator and wherein the support is operatively associated with a rotable element for rotation ...

Solar Collection Assembly and Method

A solar collection assembly for collection of incident solar energy and generation of electricity includes a central vertically oriented support column carrying a solar collection assembly of one or more dual faced solar receptor assemblies. Each solar receptor assembly has an upper solar receptor surface and a lower solar receptor surface. A rotatable solar collector reflective assembly surrounds the central vertically oriented support column and is oriented to reflect incident solar energy onto the solar collection assembly. Sails are attached to the outside of the rotatable solar collector reflective assembly for additional generation of electricity by rotation of the rotatable solar collector reflective assembly from wind energy. 1. A solar collection assembly for collection of incident solar energy and generation of electricity , which comprises:(a) a central vertically oriented support column;(b) a solar collection assembly comprising one or more dual faced solar receptor assemblies, each solar receptor assembly having an upper solar receptor surface and a lower solar receptor surface, the solar collection assembly carried by the central vertically oriented support column;(c) a rotatable solar collector reflective assembly surrounding the central vertically oriented support column and oriented to reflect incident solar energy onto the solar collection assembly; and(d) sails attached to the outside of the rotatable solar collector reflective assembly for additional generation of electricity by rotation of the rotatable solar collector reflective assembly from wind energy.2. The solar module collection assembly of claim 1 , wherein each solar receptor assembly comprises a wedge-shaped support having an upper surface and a lower surface claim 1 , each upper and lower surface having a solar receptor affixed thereto.3. The solar module collection assembly of claim 1 , wherein the central vertically oriented support column has solar receptors affixed thereto.4. The ...

COORDINATED CONTROL OF RENEWABLE ELECTRIC GENERATION RESOURCE AND CHARGE STORAGE DEVICE

A method for coordinated control of a renewable electrical energy source (RES) and an electrical energy storage (EES) device utilizes a time-dependent forecast of electrical energy production by the RES and a state of charge (SOC) schedule for the EES including at least one SOC target value. A time-varying charge/discharge control signal is configured to ensure that the SOC schedule is satisfied by charging at a rate necessary to meet the SOC target value, while periodically updating the generation of the charge/discharge control signal based upon an updated time-dependent forecast of electrical energy production and/or an updated SOC schedule. A configurable refresh period may be used to limit updates of the time-varying control signal including computation and use of a new basepoint value for aggregated energy supplied from the RES−ESS facility to an electrical grid. 1. A method for controlling (i) a renewable electrical energy generation resource and (ii) an electrical energy storage device configured to discharge electric power to an electrical grid and chargeable with electric power produced by the renewable electrical energy generation resource , the method comprising:utilizing a state of charge (SOC) schedule for the electrical energy storage device including at least one SOC target value, and utilizing a plurality of control modes that includes a staging mode and at least two additional control modes, to generate a time-varying charge/discharge control signal for the electrical energy storage device, wherein the time-varying charge/discharge control signal is configured to ensure that the SOC schedule is satisfied;for each control mode of the plurality of control modes, generating a plurality of control signal candidate values in a range spanning from an upper bound value to a lower bound value associated with the control mode, wherein at least one control mode of the plurality of control modes includes an ideal value among the plurality of control signal ...

Supporting Structure for Waterborne Photovoltaic Power Generation

A supporting structure for waterborne photovoltaic power generation is provided. The supporting structure includes at least one floating bracket. The floating bracket includes a floating platform and a plurality of supporting members provided on an upper surface of the floating platform, a ventilation space is provided between at least two adjacent supporting members, whereby the plurality of supporting members is configured to fix a photovoltaic cell panel thereon with a lower surface of the photovoltaic cell panel being separated from the upper surface of the floating platform.

FLOATING ELEMENT FOR REALIZING FLOATING STRUCTURES FOR SUPPORTING PHOTOVOLTAIC PANELS AND METHOD FOR PRODUCING SAID FLOATING ELEMENT

Floating element () for realizing floating structures for supporting photovoltaic panels and method for producing said floating element (). The floating element () comprises: a first element () which can be obtained by injection moulding, which configures a first coupling portion (); a second element () which can be obtained by injection moulding, which configures a second coupling portion (). The first element () and the second element () are mutually configured so that the first coupling portion () and the second coupling portion () can be seal-coupled with respect to each other so that they define a sealed chamber, when coupled. 1. Floating element for realizing floating structures for supporting photovoltaic panels , comprising:a first element which can be obtained by injection moulding, which configures a first coupling portion;a second element which can be obtained by injection moulding, which configures a second coupling portion;the first element and the second element being mutually configured so that the first coupling portion and the second coupling portion can be seal-coupled with respect to each other so that they define a sealed chamber, when coupled:connection means for connecting the floating element to another floating element;wherein the connection means comprise:a first connection element integral to the second element, the first connection element comprising a first portion developing from the second element and a first tongue developing from the first portion and which comprises a first through hole; anda second connection means integral to the first element, the second connection element comprising a second tongue developing from the first element and which comprises a second through hole;the first tongue and the second tongue being mutually arranged so that, when the first element and the second element are coupled, the first through hole is opposed to the second through hole;the first element comprising a first groove which is shaped ...

COORDINATED CONTROL OF RENEWABLE ELECTRIC GENERATION RESOURCE AND CHARGE STORAGE DEVICE

A method for coordinated control of a renewable electrical energy source (RES) and an electrical energy storage (EES) device utilizes a time-dependent forecast of electrical energy production by the RES and a state of charge (SOC) schedule for the EES including at least one SOC target value. A time-varying charge/discharge control signal is configured to ensure that the SOC schedule is satisfied by charging at a rate necessary to meet the SOC target value, while periodically updating the generation of the charge/discharge control signal based upon an updated time-dependent forecast of electrical energy production and/or an updated SOC schedule. A configurable refresh period may be used to limit updates of the time-varying control signal including computation and use of a new basepoint value for aggregated energy supplied from the RES-ESS facility to an electrical grid. 1. A method for controlling (i) a renewable electrical energy generation resource and (ii) an electrical energy storage device chargeable with electric power produced by the renewable electrical energy generation resource , the method comprising:utilizing (A) a time-dependent forecast of electrical energy production by the renewable electrical energy generation resource and (B) a state of charge (SOC) schedule for the electrical energy storage device including at least one SOC target value, to generate a time-varying charge/discharge control signal for the electrical energy storage device, wherein the time-varying charge/discharge control signal is configured to ensure that the SOC schedule is satisfied by charging at an average rate necessary to meet the SOC target schedule, while periodically updating the generation of the time-varying charge/discharge control signal based upon at least one of the following items (i) or (ii): (i) an updated time-dependent forecast of electrical energy production; or (ii) an updated SOC schedule.2. The method of claim 1 , further comprising periodically updating the ...

Method and System for Operating a Hybrid Power Generation System

A method and a system () for operating a hybrid power generation system () are presented. the hybrid power generation system () includes a wind power generation system (), a wind power controller (), a photo-voltaic (PV) power generation system, and a PV power controller (). The method includes determining a hybrid-level power demand of the hybrid power generation system (). The method further includes determining respective power demand set-points of the wind power generation system () and the PV power generation system () based at least in part on the hybrid-level power demand. The method also includes communicating the power demand set-points of the wind power generation system () and the PV power generation system () respectively to at least one of the wind power controller () and the PV power controller (). A farm () having a farm level control system () is also presented. 1100100102104108. A method for operating a hybrid power generation system () , the hybrid power generation system () comprising a wind power generation system () coupled to a wind power controller () and a photo-voltaic (PV) power generation system coupled to a PV power controller () , the method comprising:{'b': '100', 'determining a hybrid-level power demand of the hybrid power generation system ();'}{'b': 102', '106, 'determining respective power demand set-points of the wind power generation system () and the PV power generation system () based at least in part on the hybrid-level power demand; and'}{'b': 102', '106', '104', '108', '102', '106, 'communicating the power demand set-points of the wind power generation system () and the PV power generation system () respectively to at least one of the wind power controller () and the PV power controller () for use in controlling operation of the wind power generation system () and the PV power generation system () for generation of an electrical power corresponding to the hybrid-level power demand.'}2. The method of claim 1 , wherein the ...

PASSIVE SOLAR FLOAT DEVICE FOR SOLAR HEATING OF STOCK WATERING FACILITIES

A solar float device for use in a livestock watering facility to inhibit the freezing of water in a livestock watering facility. The solar float device having upper and lower shells that are connected to each other. The upper shell encloses an air space and the lower shell encloses a ballast space. A bulkhead is connected to the lower shell and separates the air and ballast spaces. A ballast material contained within the ballast space maintains the float device upright in the water and is thermally conductive for receiving and storing heat generated by the solar float device from solar radiation. An energy absorbing element contacts the lower shell and at least a portion is arranged either at or above the level of the water such that the energy absorbing element is exposed to the solar radiation for absorbing the solar radiation and converting the solar radiation into heat. 1. A solar float device for use in a livestock watering facility to inhibit the freezing of water in a livestock watering facility , the solar float device comprising:an upper shell and a lower shell, the upper and the lower shells being connected to each other, the upper shell defining and enclosing an air space and the lower shell defining and enclosing a ballast space;a bulkhead being connected to the lower shell and separating the air space and the ballast space;a ballast material being contained within the ballast space and in contact with the lower shell, the ballast material maintaining the solar float device in an upright floating orientation in the water of the stock watering facility, and in the upright floating orientation of the solar float device, the upper shell is oriented in an upward direction relative to a level of the water, and the lower shell is oriented in a downward direction relative to the level of the water, the ballast material being thermally conductive for receiving and storing heat generated by the solar float device from solar radiation, andan energy absorbing ...

AUTOMATIC INTELLIGENT HYBRID ELECTRICITY GENERATING DEVICE

An automatic intelligent hybrid electricity generating device designed to get maximum electrical energy from renewable energy resources i.e., wind and sunlight and works intelligently and moves automatically to get maximum available energy resources i.e., sunlight or wind, thereby eliminating separate installation of solar panels and wind turbine and increases efficiency. 1. A hybrid electricity generating device in which reflecting blades of wind turbine focus the light on a solar cell and the blades rotate a generator to produce electricity.2. The hybrid electricity generating device of claim 1 , that uses a crystalline solar cell of 2.5×3.5 inches to convert light energy into electrical energy.3. The hybrid electricity generating device of claim 2 , wherein the size of the solar cell is the same as the size of a reflecting blade cell.4. The hybrid electricity generating device of claim 1 , consisting of three blades fixed on a surface of a rotor that can move horizontally and vertically simultaneously.5. The hybrid electricity generating device of wherein the solar cell is fixed in front of the rotor through an iron support fixed with the pole of the turbine.6. The hybrid electricity generating device of wherein the distance between the solar cell center of the rotor is one foot.7. The hybrid electricity generating device of claim 1 , wherein the solar cell can rotate 360° along with the turbine assembly but remains in the focal point of reflecting blades.8. The hybrid electricity generating device of wherein the length of the blades is 10 inches.9. The hybrid electricity generating device of consisting of a dc gear motor and a dc generator.10. The hybrid electricity generating device of having two circuits claim 1 , circuit A and circuit B. Conventionally fixed solar panels and wind turbines are installed separately and are used to generate electricity from sunlight and wind respectively. In the case of fixed solar panels, a large number of solar cells, ...

SOLAR PANEL AWNING AND RELATED SYSTEMS AND METHODS

A solar panel awning device may include a solar panel having first and second opposing ends, first and second opposing sides extending between the first and second opposing ends, and first and second opposing major surfaces. The first major opposing surface defines a photovoltaic surface. The solar panel awning device may include first and second arms respectively coupled to the first and second opposing ends of the solar panel, and an actuator coupled to one of the first and second arms and configured to switch the solar panel between an extended position and a retracted position. In the retracted position, the solar panel is flat against a side of a building; in the extended position, the first opposing side is proximal to the side of the building and spaced apart from the side of the building; and the second opposing side is distal to the side of the building. 1. A solar panel awning device comprising:a solar panel having first and second opposing ends, first and second opposing sides extending between said first and second opposing ends, and first and second opposing major surfaces, said first major opposing surface defining a photovoltaic surface;first and second arms respectively coupled to said first and second opposing ends of said solar panel; andat least one actuator coupled to one of said first and second arms and configured to switch the solar panel between an extended position and a retracted position;wherein, in the retracted position, said solar panel is flat against a side of a building;wherein, in the extended position, said first opposing side is proximal to the side of the building and spaced apart from the side of the building, and said second opposing side is distal to the side of the building.2. The solar panel awning device of further comprising a controller coupled to said at least one actuator and configured to selectively position said solar panel in the extended position to be substantially perpendicular with an incoming angle of sunlight. ...

ELECTRIC POWER SYSTEM FOR CONVERTING WIND ENERGY INTO ELECTRIC ENERGY AND BUILDING WITH SYSTEM

The present invention relates to an electric power system for converting wind energy into electric energy, comprising a duct for air, the duct comprising a floor, a first and a second wall, a roof, defining an air inflow direction towards, a turbine having a diameter, and being located adjacent to or at least partially in the duct; and defining together with the duct an air outflow direction wherein an area free of pressure and/or turbulence increasing obstructing elements, extending in the resultant air outflow direction of the turbine over a length of at least one, and preferably more than two times the turbine diameter, measured from the centre of rotation of the turbine. The invention further relates to a building comprising such system. 1. An electric power system for converting wind energy into electric energy , comprising: a floor;', 'a first and a second wall,', 'a roof, and', 'defining an air inflow direction towards, 'a duct configured for air flow, the duct comprisingat least one turbine having a diameter, being disposed adjacent to or at least partially in the duct, and defining together with the duct an air outflow direction withan area free of at least one from the group consisting of pressure and turbulence increasing obstructing elements, extending in the resultant air outflow direction of the turbine over a length of at least one, and more than two times the turbine diameter, measured from the center of rotation of the turbine.2. The electric power system of claim 1 , further comprising a pressure decreasing element claim 1 , such as a diffuser claim 1 , arranged in the area free of pressure increasing obstructing elements.3. The electric power system of claim 1 , wherein the walls extend under a respective first angle and a second angle with respect to a line connecting their starting points claim 1 , where the first angle lies between 45 and 90 degrees claim 1 , and where the second angle lies between 25 and 65 degrees.4. The electric power system ...

Support Apparatus For Photovoltaic Module And Photovoltaic System

A support apparatus for a photovoltaic module and a photovoltaic system are provided. The support apparatus for a photovoltaic module is to be arranged on a water surface, and includes: a support body for mounting the photovoltaic module; and a floating body connected to the support body and configured to provide buoyancy for the support apparatus. A connection function for providing connection with the photovoltaic module and a buoyancy function for providing the buoyancy are separated. The support body having the connection function may be used for providing only connection with the photovoltaic module and not for providing buoyancy. In manufacturing and installation processes, it is unnecessary for the support body to be watertight, thus the manufacturing process of the support body may be greatly simplified, and the manufacturing cost can be reduced. 1. A support apparatus for a photovoltaic module , wherein the support apparatus for a photovoltaic module is to be arranged on a water surface , and comprises:a support body for mounting the photovoltaic module; anda floating body connected to the support body and configured to provide buoyancy for the support apparatus.2. The support apparatus for a photovoltaic module according to claim 1 , wherein the support body is provided with a plurality of through holes extending through the support body in a vertical direction.3. The support apparatus for a photovoltaic module according to claim 2 , wherein a front surface and a back surface of the photovoltaic module are used for photovoltaic power generation claim 2 , whereinin use, sunlight at least passes through the plurality of through holes, is incident on a water surface and reflected by the water surface, and is incident on the back surface of the photovoltaic module; orin use, the support body is immersed in water, and sunlight is incident on the water surface and reflected by the water surface to the back surface of the photovoltaic module.4. The support ...

RENEWABLE ENERGY BARGE

A barge for renewable energy recourses is disclosed that comprises a plurality of horizontal axis wind turbines, a plurality of photovoltaic panels; and a plurality of sea-wave generators. The energy harvested by the renewable energy recourses is transformed to electrical energy and the electrical energy is transmitted to a grid onshore. A fleet of a plurality of barges located in deep waters is disclosed as well. 1. A barge comprising renewable energy recourses comprising:a plurality of horizontal axis wind turbines;a plurality of photovoltaic panels;a plurality of sea-wave generators;wherein energy harvested by the renewable energy recourses is transformed to electrical energy; andwherein the electrical energy is transmitted to a grid onshore.2. The barge of claim 1 , wherein at least a portion of the electrical energy is stored in batteries.3. The barge of claim 1 , wherein all the electrical energy is stored in batteries.4. The barge of claim 1 , wherein at least a portion of the energy harvested by the renewable energy recourses is transformed to gas pressure to be stored in pressure accumulator.5. The barge of claim 1 , wherein the energy harvested by the renewable energy recourses is transformed to gas pressure to be stored in pressure accumulator.6. The barge of claim 1 , wherein at least a portion of the energy harvested by the renewable energy recourses is stored as gravitational potential energy by elevating loads and or substantially floating the barge.7. The barge of claim 1 , wherein the energy harvested by the renewable energy recourses is stored as gravitational potential energy by elevating loads and or substantially float the barge.8. The barge of claim 1 , wherein the barge comprises a flotation system capable of substantially floating the barge by injecting gas to a plurality of flotation pipes and semi-submerging the barge by exhausting gas from the plurality of flotation pipes or injecting seawater to the plurality of flotation pipes.9. The ...

TRANSPORTABLE HYBRID POWER SYSTEM

A transportable, deployable power system comprising a hybrid power box containing solar panels, wind turbine(s), fuel cells, fuel reformers, and other energy sources. The system could also include waste water and potable water inlet and outlet ports for water treatment. It will also allow for shelf mounted solar and wind turbine installation for disaster recovery, backup power for telecommunication, military power, Homeland Security power, off grid homes and water and wastewater packaging domestically and internationally. The present invention is ideal for any situation requiring immediate power and/or water treatment, such as remote construction sites or in emergency situations. The hybrid power box can be mounted to a standard shipping truck, train, or ship, and transported over land to the desired location. 1. A transportable power supply system comprising:a container enclosing an interior space;wherein said container interior space is configured to contain said selected plurality of power sources;a deployable solar array assembly comprising a plurality of solar panels, half of said plurality of solar panels being affixed to an upper structural frame thereby comprising a top array, and another half of said plurality of solar panels being affixed to a lower structural frame thereby comprising a bottom array;said solar array assembly mounted on tracks within said container interior space;a panel affixed to said container, said panel configured to move relative to said container, thereby providing an opening in said container;a scissor lift assembly comprising two arms pinned at a central point, wherein a first end of each of said two arms is connected to said solar array assembly and a second end of each of said two arms engages internal structural elements of said container interior space;said scissor lift assembly configured to move said solar array between a first, stored position within said container and a second, exposed position exterior from said container ...

FUNNEL WIND TURBINE

A funnel wind turbine has a horizontal funnel, rotor blades in the narrower end of the funnel, the rotor blades coupled to a rotor, a shaft coupling the rotor to a generator, and a support tower. The funnel wind turbine may have bearings or a yaw system to allow rotation of the horizontal funnel on the support tower. The funnel wind turbine may have wind direction and speed sensors, an electronic control unit, and a communication device (e.g., cellular antennas, radio transmitters/receivers, etc.) for transmitting information such as wind speed and direction, power generation, and efficiency to a distant receiver. 1. A funnel wind turbine , comprising:a horizontal funnel comprising an inlet end having a first diameter, an outlet end having a second diameter, and a narrow portion having a third diameter, the narrow portion interposed between the inlet end and the outlet end, the third diameter being less than the first diameter, with the first diameter being less than the second diameter;rotor blades positioned and rotatable within the third diameter of the narrow portion; andat least one tailfin.2. The funnel wind turbine of claim 1 , further comprising a fourth diameter calculated at a bend.3. The funnel wind turbine of claim 2 , wherein the bend and the outlet end are in the same vertical geometric plane.4. The funnel wind turbine of claim 1 , further comprising a support frame coupled to a support tower claim 1 , the horizontal funnel coupled to the support frame claim 1 , the support frame configured to rotate on the support tower.5. A method of using the funnel wind turbine of claim 1 , the method comprising positioning the intake end of the horizontal turbine to receive wind claim 1 , the received wind compressing as it moves through the narrow portion claim 1 , turning the rotor blades claim 1 , and exiting through the outlet end; the inlet end being less in diameter than the outlet end claim 1 , thereby creating negative pressure at the outlet end.6. A ...

Mounting

A mounting ( 1 ) comprises a transparent spherical shell ( 2 ), which holds a reflective mirror ( 4 ) for collection and concentration of radiation flux. A second membrane ( 7 ) is affixed to maintain a pressure differential across the two approximate hemi-spheres separate by the mirror ( 4 ). A quantity of water ( 13 ) is contained within the shell ( 2 ) acting as ballast. The lower portion of the shell ( 2 ) rests on a toroid ( 9 ), which is affixed to a base ( 10 ). Both the toroid and the vessel created by the inside surface of the toroid ( 9 ) and base ( 10 ) is filled with water ( 11,12 ). The shell ( 2 ) is buoyantly supported within the vessel by the water ( 12,13 ) while being restrained within the boundaries of the toroid ( 9 ) and base ( 10 ) but free for rotational movement as required to track the sun.

Solar tracking system for use in solar plants, is mounted on swimming island, where assembly has small boat engines or other engines mounted with propeller, adjusting according to position of sun

The system is mounted on a swimming island. The system has small boat engines or other engines provided with propeller, adjusting according to the position of the sun. The swimming island is anchored with a chain or a bar, which allows a free movement around one eighty degree. The sun adjustment is performed around a center in the island structure.

Systems and methods for extracting and processing gases from submerged sources

Systems and methods for extracting and processing gases from submerged sources

Systems and methods for extracting and processing gases from submerged sources are disclosed. A system for removing and processing a gas from a submerged area in accordance with a particular embodiment includes a membrane or other open-bottom structure having a port and being disposed over at least a portion of the submerged area so as to at least partially enclose a volume of the gas. The system can further include a chemical reactor coupled to the open-bottom structure to receive the gas, and positioned to conduct a non-combustion reaction to dissociate a constituent from a donor substance of the gas.

Systems and methods for extracting and processing gases from submerged sources

Systems and methods for extracting and processing gases from submerged sources are disclosed. A system for removing and processing a gas from a submerged area in accordance with a particular embodiment includes a membrane or other open-bottom structure having a port and being disposed over at least a portion of the submerged area so as to at least partially enclose a volume of the gas. The system can further include a chemical reactor coupled to the open-bottom structure to receive the gas, and positioned to conduct a non-combustion reaction to dissociate a constituent from a donor substance of the gas.

POWER GENERATION DEVICES AND METHODS FOR USE WITH TOILETS

Power generation devices and methods for use with toilets is disclosed. A number of power generation devices are provided that can be used in combination to power various features in a toilet which will be particularly useful for portable toilets that are off the grid. The power generation devices and methods include, for example, using a cell battery inside a toilet water source, a wind turbine, solar panels, and piezoelectricity. The features include, for example, lighting up the toilet with light-emitting diodes (LEDs) to make it easier for users to find the toilet, an audio/video setup for entertainment, and a toilet status light indicator to let the next user know when the toilet paper is out. 1. A power generation system for a toilet device , comprising:a portable toilet component having a source of standing water and comprising a toilet base and a toilet seat, or optionally a toilet stool;an improvement; anda power generation component operatively connected to the toilet component, wherein the power generation component is discrete from an electrical grid and is adapted to power the improvement.2. The system as recited in claim 1 , wherein the power generation component is a cell in the source of standing water.3. The system as recited in claim 2 , wherein the cell has two concentric cylinders claim 2 , and wherein one of the two concentric cylinders is made of a first metal and the other of the two concentric cylinders is made of a second metal.4. The system as recited in claim 3 , wherein the two concentric cylinders are an outer concentric coil and an inner concentric coil claim 3 , wherein the improvement is an LED having an anode and a cathode claim 3 , and wherein the outer concentric coil is connected to the anode and the inner concentric coil is connected to the cathode.5. The system as recited in claim 3 , wherein the first metal is copper aluminum claim 3 , galvanized zinc claim 3 , silver claim 3 , or a 75% copper/25% nickel alloy.6. The system as ...

一种用于节能建筑的新能源智能视窗系统和室内环境控制方法

本发明公开了一种节能建筑的新能源智能视窗系统，在两侧保留传统窗户，中间是视窗温控系统，嵌入保温层，提高窗户的隔热保温性能；视窗温控系统中，电加热膜、风阀和通风隔板组成热驱动空气循环系统，通过四种通风方式智能调控室内温度和通风；通过液晶显示屏的四种显示模式，实现对窗外景色、放大监控、休闲视频和休息音频的选择；通过风力发电机和太阳能板分别将风能和太阳能转化为电能，实现新能源的利用。本发明将传统窗户与太阳能与风力发电、液晶显示屏、热驱动空气循环系统相结合，既保留了传统窗户的采光照明、通风换气功能，又具备隔热保温、新能源利用、智能调温功能，具有降低建筑能耗、改善室内通风、周边可再生能源利用等特点。

Floating structure for installing solar cell array

본 발명은 태양전지판 설치용 구조물에 관한 것으로, 보다 상세하게는 하천, 호수, 저수지, 댐 등의 수상에 설치할 수 있는 부유식 태양전지판 설치용 구조물에 관한 것이다. The present invention relates to a solar panel installation structure, and more particularly to a floating solar panel installation structure that can be installed in the water, such as rivers, lakes, reservoirs, dams. 본 발명의 적절한 실시형태에 따르면, 다수의 가로부재와 세로부재를 격자상으로 배치하고 그 절점들에 태양전지판을 설치할 수 있는 면이 형성된 부력구를 설치한 것을 특징으로 하는 부유식 태양전지판 설치용 구조물이 제공된다. According to a preferred embodiment of the present invention, a floating solar panel mounting structure, characterized in that a plurality of horizontal members and vertical members are arranged in a grid shape and a buoyancy port having a surface for installing a solar panel at its nodes is provided. This is provided. 태양광 발전, 태양전지판, 부력구, 가로부재, 세로부재 Solar power generation, solar panel, buoyancy sphere, horizontal member, vertical member

태양광 발전장치 및 이를 위한 계류장치

본 발명은 태양광 발전장치 및 이를 위한 계류장치에 관한 것으로서, 본 발명에 따른 태양광 발전장치는 태양광을 집속하여 전력으로 변환하는 태양전지 모듈이 설치된 전지패널; 상기 전지패널의 하부에 설치되며, 유체가 저장되도록 격벽에 의해 상호 밀폐되는 다수 개의 중공블럭으로 구획된 적어도 3개의 서브프레임으로 구성되어 상기 전지패널이 수면 위로 노출되도록 부력을 제공하는 메인프레임; 상기 서브프레임의 각 중공블럭의 내부와 선택적으로 연통되도록 결합되어 수중에서 상기 메인프레임의 무게중심이 변화되도록 각 중공블럭의 내외부로 유체를 입출시키는 유체이송부; 태양광의 방위각 변화를 분석하고, 분석된 데이터에 따라 상기 메인프레임의 무게중심이 변화되도록 상기 유체이송부를 제어하여 상기 메인프레임의 자세를 변화시키는 제어부;를 포함하는 것을 특징으로 한다. 이에 의하여, 수상에 안정적인 자세를 유지하면서도 무게중심을 안정적으로 변화시킬 수 있고, 홀수 조절이 용이하여 작업용이성 확보 및 자연 재해에 따른 피해의 최소화를 담보할 수 있는 태양광 발전장치와, 설치비용 및 수위변화에 능동적으로 대응이 가능한 태양광 발전장치의 계류장치가 제공된다. 태양광, 트래킹, 프레임, 부력수단, 중공블럭, 격벽

Wind and sun plant of autonomous power supply

FIELD: electricity; power engineering.SUBSTANCE: invention relates to the field of autonomous power supply systems using wind and solar energy. Wind power autonomous power plant consists of the wind machine 1, which is mechanically connected to the multiplier 2, which through the overrunning clutch 3 is mechanically connected to the generator 4 of electrical energy, which is a synchronous generator with the dual-circuit magnetic system, to which the first and second diode bridges 5 and 6 are connected, respectively, where the first diode bridge 5 is connected to the inverter 7 connected to the voltage regulator 8 connected to the reverse current relay 9 connected to the single-phase alternating voltage network 10, to which the control system 11 connected to the inverter 7 is connected, with the solar battery orientation system 12 controlled by the orientation 13 device by the sun, on which flexible solar panels 14 are connected to the battery charge controller 15, which is connected to the ballast load 16 in the form of electrical heating elements and batteries 17, the second diode bridge 6 is connected to the voltage comparator 18 having the hysteresis loop and the output of which is connected to the control system 11 and to the base of the power transistor 19, through which the batteries 17 are connected to the voltage inverter 7, the gas generator 20 and the relay 21 connecting the gas generator 20 to the single-phase alternating voltage network 10 are connected to the control system 11, and electrical energy consumers 22 are connected to the single-phase alternating voltage network 10.EFFECT: invention is aimed at stabilizing the output parameters and reliability of power supply.1 cl, 2 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 680 642 C1 (51) МПК F03D 9/00 (2006.01) F03D 9/11 (2016.01) F03D 7/00 (2006.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 9/00 (2018.08); F03D 9/11 (2018 ...

A kind of based on wind-light storage hybrid power floating marine charging pile

本发明公开了一种基于风光储混合动力海上漂浮充电桩，包括浮体式的基座、风光储系统、定位系统模块、监测系统模块、信息中心模块、动力系统模块以及若干充电插口、扫描计费模块、信号收发器和气象监测机构，风光储系统包括垂直轴风力发电机构、光伏发电机构和储能电池，光伏发电机构包括旋转轴以及可作风帆使用的光伏板，光伏板至少有一块且与旋转轴相连。本发明结构紧凑，操作方便，可实现进行自动智能定位和定点移动，为海上电动设备提供紧急供电接口，并进行扫描网上计费，对于海上新能源无污染的用电设备的应用推广有启发意义。

Offshore floating platform self-sufficient power device capable of utilizing solar power generation

本发明公开了一种可利用太阳能发电的海上浮台自给电力装置，包括浮台，所述浮台下端固定连接有浮台座，所述浮台座外侧固定连接有通口，所述浮台上端固定连接有玻璃护罩，所述浮台外侧固定连接有嵌套块，所述嵌套块内侧固定连接有嵌套槽，所述嵌套块上端固定设置有固定孔，所述嵌套块中端固定设置有连接口。通过设置了嵌套块、嵌套槽、固定孔、凹槽和嵌套固定块，通过嵌套块和凹槽可将浮台之间进行嵌套连接，通过嵌套块上端设置的固定孔可用螺丝将嵌套块和凹槽进行固定，可避免浮台在使用时，出现浮台连接处分裂，导致游客在浮台上行走造成游客掉入海中的情况，且嵌套块外侧设置有固定轨，使连接处更加牢固，不易出现晃动。

A kind of solar energy roof

本发明涉及一种太阳能屋顶，包括顶棚以及用于支撑所述顶棚的多个支撑柱；所述顶棚包括依次连接的多个横截面为三角形的顶棚构件，每个顶棚构件均设置有太阳能电池板；所述太阳能屋顶内安装有太阳能灯；所述顶棚构件包括第一斜面以及第二斜面，所述第一斜面的顶部边缘与所述第二斜面的顶部边缘连接；所述太阳能电池板设置于所述第一斜面；相邻两个顶棚构件之间设有排水槽。本发明的有有效改善现有的温室在光线不足时无法正常的工作的问题，极大的节约了土地资源，提高了土地利用率。

Atmospheric electric power facility

FIELD: power engineering. SUBSTANCE: invention relates to renewable power generation. Atmospheric power facility contains withholding from the earth by cable floating in the air wind turbine with horizontal axis of rotation, comprising helium-filled cylindrical can, fitted with blades and axis, at the ends of which there are electric generator and stabilizers which are made of film and receiving cylindrical can as a result of helium injection, inside which thin-filmed solar battery, forming cavity, is fixed along its diametrical cavity, at the same time the upper part of can is transparent, lower part is attached to load in form of batten, and at its ends there are disks with semiaxes, by which can is attached to wind turbine axis with the help of cables electrically connected to thin-filmed solar battery. EFFECT: invention is aimed at increased facility capacity. 1 cl, 4 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 652 669 C1 (51) МПК F03D 5/00 (2006.01) F03D 9/00 (2006.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 5/00 (2018.02); F03D 9/007 (2018.02); H02S 10/12 (2018.02) (21)(22) Заявка: 2017122739, 28.06.2017 (24) Дата начала отсчета срока действия патента: Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 28.06.2017 (56) Список документов, цитированных в отчете о поиске: US 7602077 B2, 13.10.2009. KZ (45) Опубликовано: 28.04.2018 Бюл. № 13 (54) АТМОСФЕРНАЯ ЭНЕРГЕТИЧЕСКАЯ УСТАНОВКА (57) Реферат: Изобретение относится к области цилиндрическую форму баллон, внутри которого возобновляемой энергетики. Атмосферная вдоль его диаметральной плоскости закреплена энергетическая установка содержит тонкопленочная солнечная батарея, образующая удерживаемую с земли тросом-кабелем плоскость, при этом верхняя часть баллона плавующую в воздухе ветроустановку с прозрачная, к нижней части прикреплен груз в горизонтальной осью вращения, включающую виде рейки, а на его торцах имеются диски с ...

Plateau type multiple renewable energy sources combines power supply, energy supplying system

本发明涉及可再生能源供电、供能技术领域，尤其是采用太阳能光伏、风能、太阳能光热、空气源热能及地源热能实现高原农村地区供电、供能等功能。本发明高原型多种可再生能源联合供电、供能系统主要包括太阳能发电系统、风力发电系统、蓄电池系统、风光互补控制系统、太阳能集热系统、空气源热泵集热系统、地源热泵集热储热系统、热能交换控制系统、用电系统、用能系统、微机联合控制系统。本发明通过消耗太阳能、风能、空气源热能、地源热能多种可再生能源，可以高效率地提供稳定的、可持续的电能、热能；本发明具有多中可再生能源互补，太阳能、风能、空气源热能存储，地源热平衡等优点。

A New Recycle Energy Generation Equipment With Rainwater Collecting Structure

The present invention relates to new renewable energy generation equipment with a rainwater collecting structure, which comprises: a structural frame; a new renewable energy generation means installed in the structural frame to generate electricity from new renewable energy; a rainwater container installed in the structural frame to guide rainwater to the structural frame; and a rainwater storage means in which the rainwater guided through the rainwater container is collected. According to the present invention, the new renewable energy generation equipment with a water collecting structure generates electricity with the light of the sun and wind power energy as new renewable energy, and collects and stores rainwater in a rainy day to be used for various purposes.

Detection and management system for wind/photovoltaic/energy storage data

本发明公开了一种风光储数据检测与管理系统，由风力发电及检测子系统、光伏发电及检测子系统、铅蓄电池、负载板、检测电路、控制电路、上位机、单片机、充放电管理模块组成；可实时测试和控制的发电系统的具体参数和性能指标，通过改变风速、风向、光照强度、光照方向模拟各种自然环境，并通过对风力发电机、光伏阵列、铅蓄电池和负载板的各种组合，模拟各种新能源发电系统在各种自然环境条件下的发电参数和性能指标，并将各个发电参数和相关数据以数据和曲线的形式实时的显示在上位机上，可供高校教学、科研实验以及为大型风力或光伏发电厂提供可靠的技术参数，提高了新能源发电的发电效率，节约了资源，具有较强的推广与应用价值。

Waterborne solar photovoltaic power generation system

本发明公开了一种水上太阳能光伏发电系统，包括若干阵列排布的太阳能电池组件、用于固定各太阳能电池组件的漂浮于水面的水上光伏阵列支架台，所述各阵列排布的太阳能电池组件连接形成光伏阵列，所述水上光伏阵列支架台包括置于水上的浮体、与浮体固定连接的套管式连接结构、若干固定于套管式连接结构上的光伏阵列支承架，所述光伏阵列支承架与套管式连接结构构成刚性支架式一体结构，呈离岛式或半岛式置于水面上，且各太阳能电池组件对应地固定于各光伏阵列支承架上，所述光伏阵列经光伏系统平衡器件和并网逆变器通过电缆接入公共电网或本地负载，或者通过电缆与光伏控制器和蓄电池组或离网逆变器连接用于给水上或离岸的直流或交流负载供电。

Inflatable solar energy collector

Horizontal wind-powered turbine

FIELD: machine building. SUBSTANCE: horizontal wind-powered turbine comprises a frame and a unit for air flow routing. A rotor able of rotating on the rotor shaft is mounted on the frame horizontally. The rotor is fitted by three or more radial blade elements fixed on the rotor shaft by a fastener. The radial blade elements are set at equal distance from each other. Each radial blade element comprises supporting brackets and a wind blade fixed at the outer end section of the supporting brackets. The wind blade is of such a shape so that to capture an air flow directed to it and provide for the movement of the blade and creation of rotating force at the rotor shaft. As a result the rotor rotates around its longitudinal axis. The radial blade elements are rigidly connected to each other at their outer end sections by guy lines with tension adjustment. The air flow routing unit is designed for the acceleration and guidance of the air flow into the working air channel in order to affect the wind blades set in the working air channel. As a result the wind blades are moved under the action of the aerodynamic drag. EFFECT: reduced weight of wind-powered turbine and provision for operation at low wind speeds. 15 cl, 16 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 539 945 C2 (51) МПК F03D 3/06 (2006.01) F03D 3/04 (2006.01) F03D 7/06 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2011145328/06, 08.04.2010 (24) Дата начала отсчета срока действия патента: 08.04.2010 (72) Автор(ы): КУИНТАЛ Реджин (CA) (73) Патентообладатель(и): КУИНТАЛ Реджин (CA) Приоритет(ы): (30) Конвенционный приоритет: R U 14.04.2009 US 61/168,993; 15.12.2009 US 61/286,434 (43) Дата публикации заявки: 20.05.2013 Бюл. № 14 (56) Список документов, цитированных в отчете о поиске: US 6857846 B2, 22.02.2005. SU 29805 A1, 31.03.1933. SU 1268792 A1, 07.11.1986. GB 2185786 A, 29.07.1987 (85) Дата начала рассмотрения заявки PCT на национальной фазе ...

Turbine assembly

A turbine assembly comprising, a rotor having a plurality of blades, and a shroud at least partially enclosing the rotor and adapted to expose a portion of the rotor. At least two shroud portions extend axially along the rotor and around the rotor to at least partially enclose the rotor. At least two shroud portions are rotationally adjustable. In use, the shroud defines a variable inlet and a variable outlet. The inlet area and outlet area are variable independently of each other. Adjustment of the area of the inlet area does not result in the same magnitude of adjustment in area of the outlet area. Adjustment of the position of the inlet area does not result in the same magnitude of adjustment of the position of the outlet area.

Installation for the decentralised, all-embracing energy supply, preferably of households

The invention relates to an "installation for the decentralised, all-embracing energy supply, preferably of households", that means, in this case, that all energies needed in the relevant (private) household, including the indirectly generated energies, are generated by this installation and can also be stored, in various intermediate stages. Primary energy sources are in this case wind energy and the energy of sunlight (solar energy/photovoltaic). It would, however, also be possible to use other energy sources if these, for example water power, were available favourably in the relevant case. The installation has a plurality of energy stores which make uniform the energy supply and make possible the coverage of peak loads. The provision of energy and the use of energy are thus made uniform, and thus the supplying of the relevant household is ensured, for the generated quantities of energy correspond to those consumed in the case of correct dimensioning of the installations, at least when viewed over a relatively long period of time. An available power is thus distributed and stored in such a way that as much work as possible can be carried out therewith. Elements for room heating and the kitchen equipment, developed specially for saving energy, ensure a balanced energy balance of the installation. <IMAGE>

Helio-wind power plant

Изобретение относится к области возобновляемых источников энергии. Гелиоветровая энергетическая установка содержит лопастную ветровую турбину с вертикальной осью вращения, расположенную внутри ветронаправляющего аппарата с нижней и верхней крышками, электрогенератор на оси лопастной ветровой турбины и фотоэлектрический преобразователь световой энергии, установленный на верхней крышке. Лопастная ветровая турбина состоит из параллельных дисков, скрепленных осевыми отверстиями с поворотным валом, диски образуют пустотелые барабаны, между внутренними поверхностями дисков жестко закреплены вертикальные лопасти, турбина размещена в центре ветронаправляющего аппарата, выполненного в виде равномерно распределенных по окружности вертикальных неподвижных спиралевидных ветронаправляющих экранов, выполненных в совокупности с лопастями ветровой турбины в виде раскручивающихся спиралей, начала которых закреплены на вертикальном поворотном валу ветровой турбины, а концы отведены к периферии ветронаправляющего аппарата. Верхние края ветронаправляющих экранов соединены с верхней крышкой, нижние края соединены с нижней крышкой, образуя воздушные камеры сопла. В тело ветронаправляющих экранов встроены отсечные пластины, их концы, расположенные вблизи оси вращения турбины, установлены на ветронаправляющих экранах при помощи шарниров, выполненных с возможностью ограниченного поворота отсечных пластин вокруг вертикальной оси, а отсечные пластины односторонне прижаты к ветронаправляющим экранам прижимными механизмами. Изобретение направлено на повышение КПД и устойчивое электроснабжение конечного потребителя. 10 з.п. ф-лы, 7 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 714 584 C1 (51) МПК F03D 3/04 (2006.01) F03D 3/06 (2006.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 3/0409 (2019.08); H02S 10/12 (2019.08) (21)(22) Заявка: 2018147373, 16.01.2019 (24) Дата начала отсчета срока действия патента: (73) ...

Method and apparatus for wind energy system

The present invention relates to generating power using wind energy. According to some aspects, the invention uses a passive device to capture wind, and accelerate the wind toward off-the-shelf turbines and other fan blades to generate power in a confined structure. The passive devices to capture wind can have active electronic or mechanical controls to control the amount of wind flowing in the structure to generate power.

Method and apparatus for wind energy system

The description relates to generating power using wind energy. The current disclosure provides an opportunity to develop a new energy generating resource. According to some aspects, the apparatus uses a passive device to capture wind, and accelerate the wind toward a turbine and other fan or turbine blades to generate power in a confined structure. The foot print of the current design is scalable to individual users or businesses such as homes, industrial facilities, small business sites, as well as small power utilities such as wind farms. The passive devices to capture wind can have active electronic or mechanical controls to control the amount of wind flowing in the structure to generate power.

Photovoltaic power generator for installation on water and its connected body

Wind-solar-electricity-storage communication base station standby power supply system capable of saving energy and reducing consumption

本发明涉及新能源技术领域，公开了一种可节能降耗的风光电储通信基站备用电源系统，包括太阳能电池板、风力发电机、风光互补控制器、公共电网以及后备锂电池组，太阳能电池板和风力发电机分别与风光互补控制器电连接，风光互补控制器电连接到‑48VDC直流母线，公共电网经过市电输入开关与三相电度表电连接，再通过一整流开关电连接至整流器，经过防反流二极管输出到‑48VDC直流母线，后备锂电池组经过一电池开关电连接到充电限流模块，充电限流模块与霍尔电流传感器电连接，霍尔电流传感器与‑48VDC直流母线电连接。本发明的技术方案能够有效利用太阳能、风能及储能蓄电池进行交互式供电，提高了基站能量利用率，大大节省了电能消耗。

Power plant

FIELD: power engineering.SUBSTANCE: invention relates to wind-photoelectric stations. Power plant comprises central tower and rotor with rotary blades arranged between rigid annular disks and made with possibility of rotation around vertical axes by means of rotation drives, communication elements of annular disks with rotor hubs installed with possibility of rotation around longitudinal axis of central tower, and annular pontoon arranged with possibility of rotation around central tower and attached to lower annular disc, battery of photoelectric modules fixed on upper annular disc on its upper peripheral surface, having in each its point deviation of normal from side of rotor rotation axis by 5°…45°, dependent inverter installed on rotor, and current-transmitting unit installed coaxially with central tower. Battery of photovoltaic modules is formed from groups of photoelectric modules so, that each group includes adjacent modules, interconnected in series, and the groups are connected in parallel through the series voltage matching devices and are arranged along the perimeter of the upper annular disc with an angular pitch.EFFECT: invention is aimed at increasing output power, reducing failure rate.3 cl, 5 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 691 865 C1 (51) МПК F03D 3/06 (2006.01) F03D 9/30 (2016.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ На основании пункта 1 статьи 1366 части четвертой Гражданского кодекса Российской Федерации патентообладатель обязуется заключить договор об отчуждении патента на условиях, соответствующих установившейся практике, с любым гражданином Российской Федерации или российским юридическим лицом, кто первым изъявил такое желание и уведомил об этом патентообладателя и федеральный орган исполнительной власти по интеллектуальной собственности. (52) СПК (21)(22) Заявка: 2018133536, 21.09.2018 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель( ...

Man Made Island With Solar Energy Collection Facilities

A manmade island [ 10] , adaptable for land-based or sea-based operation holds solar energy collection facilities and is rotatable to optimize the angular orientation thereof relative to the position of the sun. More particularly, the man-made island [ 10] uses a platform [ 12] that includes a large outer ring [ 14 ] that floats on a fluid, and a flexible cover [ 16] attached to the ring [ 14] to define an airtight volume [ 30 ] below the cover [ 16 ]. A plurality of rows [ 19 ] of solar radiation collector modules are located above the cover [ 16 ], and carry steam generating heat pipes [ 21] . The rows [ 19] of modules are supported laterally above the cover [ 16 ] by an upper support structure, either a space frame [ 27] , a plurality of cables [ 46] or a honeycomb [ 75 ]. A compressor [ 32 ] creates an over-pressure within the enclosed volume [ 30] to vertically support the cover [ 16 ] and the other components mounted thereabove. This structure for supporting the rows [ 19] of the solar radiation collector modules enables the man-made island [ 10 ] to be constructed with a very large surface area, eventually up to several kilometers in diameter, to better utilize the full potential of the solar concentrators [ 22] , thereby to produce electricity at an economically viable cost. The man-made island [ 10] includes a number of other structural features that enhance the practical application of solar radiation collection technology.

Horizontal wind powered turbine

A wind powered turbine is comprised of a frame on which is horizontally and rotatably supported a rotor on a rotor shaft. The rotor is formed by three or more radial blade members which are secured to the rotor shaft. The radial blade members are equidistantly spaced from one another and each have support arms and a wind vane secured at an outer end portion of the support arms. The wind vane is shaped to capture an airflow directed thereagainst for displacement thereof to create a rotational force about the rotor shaft to rotate the shaft about its longitudinal central axis. The radial blade members are rigidly interconnected to one another at an outer end portion thereof by tension adjustable bracing tie wires. A wind channeling guide assembly accelerates and directs the airflow in an actuating airflow path to impinge upon at leas of the wind vanes positioned in the actuating airflow path.

Wind energy and solar energy integrated power generation equipment

本发明公开了一种风能与太阳能一体化发电设备，具体涉及新能源发电技术领域，包括安装基座，所述安装基座顶部中心位置固定安装有立柱，所述立柱顶部焊接有顶板，所述顶板顶部固定设有限位台，所述限位台顶部设置有风力发电组件，所述立柱的外周面靠近安装基座的一端设置有太阳能发电组件；所述风力发电组件包括有扇叶安装板和发电机，所述发电机固定安装在限位台的顶部中心位置。本发明通过将分体式的太阳能发电组件装配在风力发电组件的安装立柱上，使二者形成一体式结构，一方面可以利用左壳体与右壳体对立柱进行加固，增强其抗风能力，另一方面可以利用左壳体与右壳体对风光互补控制器进行防护，同时方便维修工作的进行。

A kind of marine solar energy polar plate device

一种海上太阳能极板装置，包括风机塔架、主索、极板套环、太阳能极板、极板绳索、主索套环和塔架限位扣；在海上已经建成的两根风机塔架上各固定安装有两个塔架限位扣，塔架限位扣内穿入一根主索，在每个塔架限位扣两侧的主索上各固定安装有一个主索套环，使两根风机塔架之间套装一根环形主索进而搭建出一个主索平台，通过主索套环和塔架限位扣使主索固定在两根风机塔架上，限制主索的位移；在主索平台上通过主索套环、极板套环和极板绳索固定安装有太阳能极板。该装置借助已有的风机塔架基础搭建太阳能极板，结构简单，安装、维修、置换方便。同时可以将风力发电和太阳能发电相结合，实现能源互补，提高发电效率。

Method and system apparatus for installing solar cell panel on mud-flat.

본 발명은 바닷가 갯벌이나 습지에 태양광발전을 위한 대규모 솔라셀 패널과 풍력발전 설비를 구축하는 방법과 시스템장치에 관한 것으로, 더욱 상세하게는 만조 간조사이의 버려진 갯벌위에 갯벌의 용도를 해하지 아니하면서 연약한 갯벌을 매립하지 않고, 갯벌을 그대로 유지하면서, 갯벌에서 만조 시 기준으로 해수면에서 최저 2미터 높이로 다수개의 콘크리트 파일지주를 격자형으로 구획, 타설하여 구성하고 파일 상부간을 연결하는 횡방향 거치대와 그 위에 다수개의 종방향 레일을 접합하여 트러스형태의 구조물을 구축함으로서 하중을 분산시켜 전체 구조물이 무너지거나 기우러지지 아니하는 구조를 제공하며, 레일에 솔라셀 패널의 좌우상하 4축을 길이 가변형 연결수단으로 기울기를 360도 방향으로 설정하여 태양광 집광효율을 극대화하며, 레일형 패널 거치대구조와 레일에 연한 작업차에 의하여 패널의 설치, 해체가 용이하고 패널별 A/S나 교체가 용이하여 태양광 풍력 발전소의 수명을 반영구적으로 향상시킬 뿐만 아니라 습지나 갯벌에 연한 해안선에 다수개의 풍력발전설비를 구축하여 태양광발전과 풍력발전의 단점을 서로 보완한 하이브리드 하이브리드 발전 단지 구축으로 화력발전이나 원전을 대체하는 대규모 친환경 발전단지 구축기술을 제공한다.

Float Type Photovoltaic Power Generator

본 발명은 부력에 의해 수면 상에 띄워지는 부유체; 상기 부유체 상에 마련되어 상부에 설치되는 태양전지 모듈을 지지할 수 있도록 경사면이 형성되고, 대향하는 양 측면에 각각 제1슬라이드홈이 형성되는 본체부; 상기 제1슬라이드홈에 일 측이 결합되고, 인접하게 배치되는 다른 부유체의 본체부에 형성된 제2슬라이드홈에 타 측이 결합되어 상기 부유체와 인접한 다른 부유체를 결합하는 연결부 및 상기 연결부 상에서 인접한 다른 연결부 상으로 이동 가능하도록 마련되는 이송부를 포함하는 것을 특징으로 하는 부유식 태양광 발전장치를 제공한다. The present invention relates to a floating body floating on a water surface by buoyancy; A main body portion provided on the secondary fluid phase and having an inclined surface for supporting a solar cell module installed on an upper portion thereof and having first slide grooves formed on opposite side surfaces thereof; And a second slide groove formed in a body portion of another floating body disposed adjacent to the first slide groove and coupled to the other side to connect the floating body to the adjacent floating body, And a transfer unit provided to be movable on another adjacent connection unit.

Wind power generator and hybrid generator using the same

The present invention relates to a wind power generator and a hybrid generator using the same. According to an aspect of the present invention, the wind power generator comprises: a first blade unit formed in a vertical axis direction and provided with a first rotary shaft connected to at least one blade; a second blade unit formed on an upper side or a lower side of the first blade unit, and provided with a second rotary shaft connected to at least one blade to rotate in a reverse direction of the first blade unit with respect to an identical wind direction and formed on an identical axis with the first rotary shaft; a generator including a rotor unit rotated by the first rotary shaft and a stator unit rotated by the second rotary shaft; a transverse support unit which is disposed between the first blade unit and the second blade unit and fixes at least a portion of the outside of the generator; and a longitudinal support unit disposed on both ends of the transverse support unit.

Overflow formula water environment treatment system and method in single river channel

本发明公开了一种单一河道内溢式水环境治理系统及方法。进水河段中的水体在动力泵所提供的动力作用下，提升到高处经过出水管射出，先与空气进行充分接触曝气，再通过湿地或生态浮床或者二者组合进行生态净化，然后以堰流的形式流回至治理河段另一端中，从而形成平面环流，使得河流的流动性得到增强，河流的溶解氧量和水环境容量得到提高；河流的流速由流量控制阀控制，动力泵和可移动清淤泵的电力由太阳能电池板、风力发电机和自备电源在配电单元的控制下互补提供，净化池底部的淤泥等污染物通过可移动清淤泵定期清理，从而提升河流的水质。本发明经济和社会效益显著，在城市化快速发展和能源、水环境危机的背景下极具研究推广价值。

Hybrid Electric Power Generation System Using Photovoltaics and Wind Power

태양전지를 이용한 무 블레이드 풍력 발전기를 개시한다. 상기 태양전지를 이용한 무 블레이드 풍력 발전기는 풍속에 따라 회전하며, 외부로부터 공기를 흡입하는 몸체부; 상기 몸체부 상단에 연결되며, 상기 몸체부로부터 흡입된 공기를 배출시켜 배출부 표면에 제트기류를 형성하는 고리 형상의 날개부; 변속기어와 체결된 복수 개의 회전인자를 구비하며, 상기 날개부로부터 배출되는 바람 및 상기 날개부를 관통하여 유입되는 바람의 세기를 통해 상기 복수 개의 회전인자로부터 중심축 회전력을 생성한 후, 상기 회전력에 따른 기계적인 에너지를 전기에너지로 변환하는 변속 발전부; 및 상기 몸체부에 태양 광 전원을 공급하는 태양 전지부를 포함한다. Disclosed is a bladeless wind generator using a solar cell. The bladeless wind generator using the solar cell rotates according to the wind speed, the body portion for sucking air from the outside; It is connected to the top of the body portion, the annular wing portion to discharge the air sucked from the body portion to form a jet stream on the discharge surface; And a plurality of rotational factors coupled to the transmission gear, and generate central axis rotational force from the plurality of rotational factors through the strength of the wind discharged from the wing and the wind flowing through the wing, and according to the rotational force. A shift generator for converting mechanical energy into electrical energy; And a solar cell unit for supplying solar power to the body portion.

Wind-driven power generating unit

FIELD: electricity. SUBSTANCE: invention relates to wind power engineering. Wind-power generating plant includes a rotor with a vertical axis of rotation and concave blades and a cylindrical concentrator consisting of guides fixed on racks. At that, according to the first embodiment, the concave blades of the rotor and concave guides of the concentrator face each other with concave surfaces, and concave guides of the concentrator with radius of bend R are fixed by one end to the internal support circle of the concentrator, and by other end to concentrator outer support circle, wherein angle between guide chord and concentrator outer diameter is within 25° up to 45°, and guide bend radius is calculated by formula: R = R 1 -R 2 , where R is bend radius of guide, R 1 is concentrator outer radius, R 2 is concentrator inner radius. According to the second embodiment, concentrator guides are photoelectric panels installed on frames fixed by one end to internal support circle of concentrator, and other end to concentrator outer support circle and forming angle α between diameter of concentrator and plane of photoelectric panel in range from 20° up to 45°. EFFECT: invention is aimed at improvement of operating efficiency wind-power generating installation. 3 cl, 3 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 693 554 C1 (51) МПК F03D 3/04 (2006.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 3/0409 (2019.05); H02S 10/12 (2019.05) (21)(22) Заявка: 2018131667, 04.09.2018 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель(и): Новиков Сергей Николаевич (RU) Дата регистрации: 03.07.2019 B1, 31.08.2015. RU 148242 U1, 27.11.2014. RU 2572356 C1, 10.01.2016. RU 59161 U1, 10.12.2006. US 1595578 A1, 10.08.1926. US 4551631 A1, 05.11.1985. (45) Опубликовано: 03.07.2019 Бюл. № 19 2 6 9 3 5 5 4 (54) Ветроэнергогенерирующая установка (57) Реферат: Изобретение относится к области ...

Hybrid traffic light

본 발명은 다면구체형 태양광모듈과 플렉시블 태양광모듈 발전 및 무소음 풍력발전 시스템 신호등에 관한 것으로서, 특히 바닥에서 수직으로 세워지며 하부 측면에 문이 형성되는 지주와 상기 지주의 상부 측면에 수평으로 결합되는 거치대와 상기 거치대에 적어도 하나 이상의 램프가 횡으로 배열되어 결합되는 신호기와 상기 지주의 상부에 결합되는 프레임과 상기 프레임의 안쪽 중심에 결합되는 발전기와 상기 발전기의 상부에 수직축을 가지며 만곡된 형태를 갖는 다수의 날개로 구성되는 풍력날개를 포함하는 무소음 풍력터빈발전기와 상기 프레임의 상부에 결합되는 다각면의 원뿔형태로 구성된 다면구체형 태양전지모듈부와 상기 지주의 외측면을 감싸도록 설치되는 플렉시블 태양전지모듈부 및 상기 지주의 내부에 구비되어 충방전을 제어하는 제어부를 포함하도록 구성되어 하루 중 일출부터 일몰까지 지속적인 채광이 가능하며 전선로공사를 생략하여 미관을 해지치 않으며 별도의 전기요금 및 이산화탄소가 발생하지 않는 효과가 있다.

Water pond heating device

Изобретение относитс  к гелиотехнике. С целью улучшени , повышени  интенсивности нагрева воды и улучшени  санитарного состо ни  водоема в акваторию 2 водоема ввод т пленочный поглотитель 1 солнечного излучени , который поддерживаетс  в приповерхностном слое воды воз- духозаполненными участками 3. В пленочный поглотитель 1 включены заглушенные с торцов полые трубчатые вставки 4 и 5, расположенные в полости поглотител  и ориентированные во взаимно перпендикул рных направлени х. В боковых стенках вставок выполнены отверсти , снабженные карманными клапанами, ориентированными у вставок 4 на нисход щий поток, у вставок 5 - на восход щий поток воды. Пленочный поглотитель 1 при прохождении ветровых и судовых волн изгибаетс , приповерхностный слой воды скользит по поглотителю. Клапанами вставок 4 вода принудительно направл етс  из приповерхностного сло  в глубь акватории, а клапанами вставок 5 - из глубины акватории в приповерхностный слой. Интенсивность теплообмена воды в акватории водоема увеличиваетс . 4 ил. (Л С The invention relates to solar technology. In order to improve, increase the intensity of water heating and improve the sanitary state of the reservoir, a solar absorber film 1 is introduced into the reservoir water area 2, which is maintained in the near-surface water layer by air-filled areas 3. Hollow tubular inserts 4 which are jammed at the ends of the water reservoir and 5, located in the cavity of the absorber and oriented in mutually perpendicular directions. In the side walls of the inserts there are holes provided with pocket flaps oriented from the inserts 4 to the downward flow, and from the inserts 5 to the upward flow of water. The film absorber 1 is bent by the passage of wind and ship waves, and the near-surface layer of water slides along the absorber. By the valves of the inserts 4, the water is forcibly directed from the near-surface layer into the water area, and by the valves of the inserts 5 from the depth of the water area to the near- ...

Frame for the floating attachment of at least one solar collector

Ein Gestell zur Befestigung mindestens eines Solarkollektors (8) ist mit einem Schwimmkörper (2) verbunden. Das Gestell (1) umfasst einen Bügel (3), der mit mindestens einem freien Ende (4) formschlüssig in oder an dem Schwimmkörper (2) gehalten ist. A frame for fastening at least one solar collector (8) is connected to a floating body (2). The frame (1) comprises a bracket (3) which is positively held in or on the floating body (2) with at least one free end (4).

Method and a device for electric power generation with the help of a wind solar panel

FIELD: electrical engineering. SUBSTANCE: invention relates to the field of electrical engineering. It is achieved by the method according to which the wind turbine placed in the nozzle is installed in the place of the greatest acceleration of the wind flow when bending around the planes of the structure, namely at the corner of the junction of the planes of the structure, so that when the wind changes to the opposite one, the wind turbine continues to work, the planes of the diffuser and confuser are combined with the planes of the structure, which makes it possible to pass through the wind turbine the wind flow collected by the leeward plane of the structure together with the confuser and to divert this flow through the diffuser together with the opposite plane of the structure. The planes of the nozzle are solar cells that simultaneously capture the wind flow and capture photons arriving on these planes directly from the sun, and photons reflected from the planes of the structure, and sections of the wind farm with photocells are combined into two or more, creating a wind solar panel (WSP) from which the power plant is built in a continuous line along the entire length, where wind and solar flows are most effectively captured. EFFECT: technical result consists in increasing the efficiency of electricity generation. 8 cl, 5 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 750 380 C1 (51) МПК F03D 9/34 (2016.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 9/34 (2021.02); H02S 10/12 (2021.02) (21)(22) Заявка: 2020100359, 12.01.2020 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель(и): Волков Александр Анатольевич (RU) Дата регистрации: 28.06.2021 Приоритет(ы): (22) Дата подачи заявки: 12.01.2020 (45) Опубликовано: 28.06.2021 Бюл. № 19 2 7 5 0 3 8 0 R U (54) СПОСОБ И УСТРОЙСТВО ПРОИЗВОДСТВА ЭЛЕКТРОЭНЕРГИИ ЗА СЧЕТ ВЕТРОСОЛНЕЧНОЙ ПАНЕЛИ (57) Реферат: Изобретение относится ...

A kind of fishing device of swinging cycle splicing

本发明公开了一种打捞装置，特别是一种回转式循环接料的打捞装置，属于水利打捞装置的技术领域；该装置包括浮体，该浮体上设置有用于打捞的传送机构，该传送机构前端两侧所在浮体上还设置有聚料机构，该浮体上还设置有可转动的转盘机构以及用于驱动转盘机构转动的第一驱动装置，该转盘机构包括用于承重的盘体，该盘体通过可转动的转动轴设置于基座上，该盘体上还设置有至少1个用于放置漂浮物的垃圾筐；本发明有效的提高了漂浮物垃圾的收集，通过回转机构的设置有效的使垃圾筐进行自动转换，该方式有效的使漂浮物在打捞过程中可以不间断的进行收集。

Smart pole using new renewable energy

본 발명은 태양광과 풍력을 이용하여 지주(Pole) 위에 설치된 가로등이나 통신기지국 또는 경계 초소용 감시카메라 등의 전기설비에 전력을 공급하기 위한 신재생 에너지를 사용하는 스마트 폴로, 풍속 감지센서의 신호가 설정된 풍속보다 낮은 풍속이면 블레이드 축에 모터를 스핀들 기어의 전진에 의해 연결하여 저속의 바람과 모터의 구동력에 의해 회전되어 일정한 전력을 생산할 수 있도록 하고, 풍속 감지센서에서 감지된 풍속이 설정된 풍속 이상인 경우에는 스핀들 기어가 후퇴하여 모터와 블레이드 축과의 연결을 해제하도록 구성되어 있다.

solar power plant

수역의 표면(33) 상에 배치되도록 구성된 가요성 매트(2)를 포함하는 해상 태양광 발전소(100)로서, 상기 매트(2)는 그 위에 고정된 복수의 태양광 모듈(1)을 갖는다. 상기 태양광 모듈은 해양 환경에 맞게 개조될(marinized) 수 있고, 전지에 기계적 손상을 방지하는 부유하고 단단한 알루미늄 구조로 장착될 수 있다. 상기 단단한 후면 구조물은 또한 태양 전지로부터 가요성 매트로의 직접적인 열 전도에 의해 효율적인 히트 싱크로서 역할을 할 수 있다. 또한 양식장, 해상 발전소, 해상 태양광 발전소의 구성 방법 및 부유하는 태양광 발전소 설치 방법이 제공된다. An offshore solar power plant (100) comprising a flexible mat (2) configured to be placed on a surface (33) of a body of water, said mat (2) having a plurality of solar modules (1) fixed thereon. The photovoltaic module can be marinized for a marine environment and mounted with a floating, rigid aluminum structure that prevents mechanical damage to the cell. The rigid backside structure can also serve as an efficient heat sink by direct heat conduction from the solar cell to the flexible mat. Also provided are a method of constructing a farm, an offshore power plant, an offshore solar power plant, and a method of installing a floating solar power plant.

Hybrid wind power generation device using for solar module

본 발명은 태양광 및 바람의 방향과 무관하게 발전을 행할 수 있을 뿐만 아니라, 태양광 및 바람을 최대한 수집하여 발전효율을 높일 수 있는 태양광모듈이 적용된 하이브리드 풍력발전장치에 관한 것으로, 지면에 좌우로 간격을 이루며 수직으로 설치되는 한 쌍의 지주 사이에 결합되고, 외측의 태양광모듈과 반사판을 통해 내측으로 유도된 바람에 의해 내측의 풍력발전부재에 구비된 팬을 구동하는 하이브리드 풍력발전장치를 구성하되, 상기 풍력발전부재는 수평으로 결합된 중심축의 길이 방향으로 복수가 서로 밀착 설치되고, 링 형상인 한 쌍의 프레임이 방사상으로 결합된 복수의 지지대에 의해 간격을 이루며 고정되며, 한 쌍의 프레임 사이에 형성된 내측 공간에는 중심축에 의해 팬이 회전할 수 있도록 결합되고, 상기 팬의 날개 끝단에는 바람에 의해 팬이 고속으로 회전할 때 지지대의 상측에 결합된 동력코어와 근접함으로써 자기장의 발생에 의해 전기를 생산할 수 있도록 자석이 결합되며, 상기 태양광모듈은 지지대에 의해 프레임의 외주면과 간격을 이루며 복수가 방사상으로 결합되고, 상기 중심축에 결합된 복수의 팬과 대응하도록 중심축의 길이 방향으로 결합되며, 상기 태양광모듈이 결합된 풍력발전부재의 프레임 일측에는 반사판이 지지대에 의해 결합되어, 중심축의 길이 방향으로 태양광모듈의 전 구간에 걸쳐 설치된 것을 특징으로 하는 태양광모듈이 적용된 하이브리드 풍력발전장치를 제안한다. 따라서 본 발명은 태양광모듈이 방사상으로 결합되어 있기 때문에 태양의 전면에 설치된 태양광모듈은 태양광을 직접 받아 발전을 행하게 되며, 태양의 후면에 설치된 태양광모듈은 반사판에 반사된 태양광에 의해 발전을 행하게 됨으로써 태양광을 최대한 수집할 수 있어 태양광 발전효율을 높일 수 있는 경제적인 효과가 있다. 또한, 바람이 불어오는 방향과 상관없이 태양광모듈과 반사판이 팬으로 바람을 유도함으로써 풍력 발전효율을 최대한 높이는 효과가 있다. The present invention relates to a hybrid wind turbine generator which is capable of generating electricity irrespective of the directions of sunlight and wind and is capable of collecting sunlight and wind as much as possible to increase power generation efficiency. And a fan installed in the inner wind power generating member by a wind guided inward through an outer solar module and a reflector, Wherein a plurality of wind-generating members are installed in close contact with each other in a longitudinal direction of a central shaft coupled horizontally, and a pair of ring-shaped frames are spaced apart and fixed by a plurality of radially coupled supports, And the fan is rotatably coupled to the inner space formed between the frames by a central axis, A magnet is coupled to generate electricity by the generation of a magnetic field by being close to a power core coupled to the upper side of the support when the fan rotates at a high speed, and the solar module is spaced apart from the outer peripheral surface of the frame by a ...

Rotor of wind-driven power plant

FIELD: electricity. SUBSTANCE: invention relates to wind and solar power engineering. Rotor of wind-driven power plant comprises frame fixed on vertical or horizontal axis of rotation through bearings, blades with elastic part, fixed on frame, limiter of elastic part of blade, fixed by its one end to frame, and by other end to elastic part of blade with interference, thin-film flexible solar panels, which are firmly applied on blades with elastic part and from which electric cables are laid to current collectors. EFFECT: invention is aimed at improvement of reliability of rotor of wind-driven power plant at conversion of wind energy into mechanical during rotation and into electric one. 1 cl, 3 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 733 570 C1 (51) МПК F03D 5/00 (2006.01) H02S 10/12 (2014.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F03D 5/00 (2020.01); H02S 10/12 (2020.01) (21)(22) Заявка: 2019112191, 22.04.2019 (24) Дата начала отсчета срока действия патента: Дата регистрации: 05.10.2020 (73) Патентообладатель(и): Казанцев Валентин Петрович (RU) (45) Опубликовано: 05.10.2020 Бюл. № 28 (56) Список документов, цитированных в отчете о поиске: DE 10301922 B3, 09.09.2004. RU 2343310 C1, 10.01.2009. CN 1035707 A, 20.09.1989. RU 112289 U1, 10.01.2012. KZ 26105 A4, 14.09.2012. RU 59748 U1, 27.12.2006. SU 1176851 A3, 30.08.1985. 2 7 3 3 5 7 0 R U (54) Ротор ветроэнергетической установки (57) Реферат: Изобретение относится к ветровой и солнечной энергетике. Ротор ветроэнергетической установки содержит каркас, закрепленный на вертикальной или горизонтальной оси вращения через подшипники, лопасти с упругой частью, закрепленные на каркасе, ограничитель разгиба упругой части лопасти, закрепленный одним концом к каркасу, а другим концом к упругой части лопасти с натягом, тонкопленочные гибкие Стр.: 1 солнечные панели, которые прочно нанесены на лопасти с упругой частью и от которых проложены электрические кабели к ...

A floating body of safety against overturning for a photovoltaic power generation

본 발명은 부력체에 부력부와 중량부를 두어 부력체 위에 설치된 태양광발전장치가 풍압에 의해 위로 들려 파손되는 것을 중량부에 의해 방지하도록 구성된 수상태양광 발전장치의 전도방지 부력체에 관한 것이며, 태양광발전장치를 수상에 설치하기 위한 부력체에 있어서, 태양광발전장치를 물위에 띄우기 위한 부력부(30)가 상부 또는 전체적으로 형성되고, 부력부(30)의 하부 또는 중앙부에 태양광발전장치(10)에 작용하는 풍압에 저항하는 중량부(40)가 일체로 형성되며, 중량부(40)는 내부에 물이 드나들 수 있는 중량공간부(50)가 형성되는 것을 특징으로 한다.

Solar energy accumulator

Устройство сбора солнечной энергии включает платформу, установленную с возможностью вращения вокруг вертикальной оси, привод, обеспечивающий поворот платформы вокруг вертикальной оси при отслеживании движения солнца, коллекторы солнечной энергии, установленные на платформе, и концентраторы для направления солнечной энергии на коллекторы солнечной энергии. Концентраторы представляют собой множество параллельных удлиненных отражателей, установленных на платформе, где каждый отражатель имеет параболический профиль для концентрирования солнечной энергии на горизонтальном линейном фокусе, а коллекторы энергии установлены на линейных фокусах отражателей. Платформа может быть установлена с возможностью плавания на поверхности жидкости в резервуаре или в другом водоеме. В случае возникновения неблагоприятных погодных условий концентраторы могут быть избирательно погружены в воду путем перекачки жидкости на платформу. 28 з.п.ф-лы, 14 ил. дссбо0тс ПЧ ГЭ РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (19) (51) МПК ВИ” 2109 227‘ 13) Сл Е 24 4 2/42 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 94029896/06, 21.05.1994 (30) Приоритет: 06.11.1991 АЦ РК 9313 21.05.1992 АЦ РЕ 2536 (46) Дата публикации: 20.04.1998 (56) Ссылки: Ц3, патент, 4315500, Е 24 } ЗЮ2, 1982. (86) Заявка РСТ: АЦ 92100520 (30.09.92) (71) Заявитель: Еоменс Аллан Джеймс АЦ] (72) Изобретатель: Еоменс Аллан Джеймс[АЦ] (73) Патентообладатель: Еоменс Аллан Джеймс АЦ] (54) УСТРОЙСТВО СБОРА ЛУЧИСТОЙ ЭНЕРГИИ (57) Реферат: Устройство сбора солнечной энергии включает платформу, установленную с возможностью вращения вокруг вертикальной оси, привод, обеспечивающий поворот платформы вокруг вертикальной оси при отслеживании движения солнца, коллекторы солнечной энергии, установленные на платформе, и концентраторы — для направления солнечной энергии на коллекторы солнечной энергии. Концентраторы представляют собой множество параллельных удлиненных отражателей, установленных на платформе, где ...

sunlight power generation apparatus for floating structure

The present invention relates to an integrated sunlight generation device capable of maintaining a balance. The integrated sunlight generation device comprises: water sunlight structures (100) for generating electric energy through the light of the sun; and a flexible joint (200) configured to maintain a balance in heaving seas occurring on the water surface by connecting the water sunlight structures (100) with each other. The present invention enables the water sunlight generation structures to safely maintain a balance individually, even if tough heaving seas occur on the water surface, as the water sunlight generation structures are configured to be flexibly connected to other water sunlight generation structures by the flexible joint.

Solar heat collector

Изобретение относитс  к гелиотехнике , в частности к устройствам дл  солнечного нагрева жидкости, и позвол ет повысить эффективность нагрева. Эластичные пленки (ЭП) 8 закреплены на противоположных сторонах каждой рамы 2 и погружены в жидкость . На них укреплены грузила 9 и емкости 10 дл  газа. Прозрачна  перегородка I2 каждой секции прикреплена к раме 2 с оОразованием газовой полости 13. Лучепоглощающа  перегородка 5 выполнена из теплопроводного материала и соединена с теплопроводной ЭП II, расположенной в объеме жидкости между ЭП 8. Нагреваема  среда совершает конвективное движение по замкнутым циркул ционным контурам между ЭП 8 и II. Наличие жестких несущих рам 2 придает отдельным плавучим секци м дополнительную прочность, облегча  при этом их ориентировку на солнце. I ил. (Л / со ел ел The invention relates to solar technology, in particular to devices for solar heating of a liquid, and makes it possible to increase heating efficiency. Elastic film (EP) 8 is fixed on opposite sides of each frame 2 and immersed in a liquid. They strengthened the weights 9 and the capacity of 10 dl gas. The transparent partition I2 of each section is attached to the frame 2 with the formation of the gas cavity 13. The radiation-absorbing partition 5 is made of thermally conductive material and connected to thermally conductive EP II located in the fluid volume between EP 8. The heated medium performs convective motion along closed circulation circuits between EP 8 and ii. The presence of rigid supporting frames 2 gives the individual floating sections additional strength, while facilitating their orientation to the sun. I il. (L / so ate

device for seabed wireless charging by using wave energy

本发明公开了一种利用波浪能进行海底无线充电的装置，它涉及无线充电技术领域。它的浮标与收缩涵道连接，收缩涵道中间安装有发电机，浮标上安装有太阳能光板和风力发电装置，浮标内设有储能模块，浮标上的储能模块与无线充电发射模块连接；收缩涵道中间为水道，收缩涵道内部设有储能模块，收缩涵道的外侧固定设有无线充电发射模块，无线充电接收模块安装在水下航行器壳体以及移动充电机器人上，移动充电机器人上安装有无线充电发射模块。本发明的优点在于：海面上的储能设备可为小型无人机进行充电，海面下是利用波浪能发电给储能装置充电的设备，对于固定设备可通过可移动充电机器人进行能源的补充，高效且可靠。

A generator

본 고안에 따른 타워형 풍력 및 태양광 복합발전기는, 지반에 설치된 기초콘크리트부와, 상기 기초콘크리트부에서 상부로 다층으로 연장되며 각 층의 내부에 회전가능한 수직축과 발전날개가 설치되고, 하부에는 풍력발전부가 설치되고, 상단부상에는 태양광 패널이 설치되어, 풍력 및 태양광에 의하여 이중으로 발전되는 구조를 가지므로 날씨에 거의 관계없이 전기를 생산하는 것이 가능하게 되고 작은 설치면적에도 많은 발전량이 가능하게 되어 발전효율이 제고되며 태양광과 수직축 풍력발전설비를 타워식으로 설치하게 되므로 설치비가 저렴하게 된다.

Floating solar power generation system