Class / Patent application number | Description | Number of patent applications / Date published |
060641110 | With elevated structure | 29 |
20090249787 | Method for controlling the alignment of a heliostat with respect to a receiver, heliostat device and solar power plant - A method is provided for controlling the alignment of a heliostat with respect to a receiver, wherein an image sensor device is arranged on a mirror device of the heliostat, wherein the heliostat is aligned by the image sensor device using image recognition in such a way that a first angle of a first vector pointing towards the sun, relative to a prescribed vector of the mirror device, and a second angle of a second vector pointing towards a prescribed target area of the receiver, relative to the prescribed vector, are in a relationship to each other which is dependent upon the prescribed vector of the mirror device, and wherein images of the sun and the prescribed target area and their position relative to the prescribed vector are determined. | 10-08-2009 |
20110162361 | METHOD OF SUPERHEATING TEAM - The invention relates to a method for solar overheating of vapour produced by solar energy, using different solar heat producers, wherein the process with the lower maximum possible temperature is essentially used for vapour production and the process with the higher maximum possible temperature is essentially used for vapour overheating. | 07-07-2011 |
20110185728 | HIGH EFFICIENCY SOLAR THERMAL RECEIVER - In accordance with the present disclosure, a receiver panel is provided that includes multiple thermally conductive nanostructures. The thermally conductive nanostructures may be provided on a substrate that supports the multiple thermally conductive nanostructures. In one embodiment, the thermally conductive nanostructures may be substantially orthogonal with respect to the surface of the substrate. | 08-04-2011 |
20110197584 | BEAM DOWN SYSTEM SOLAR GENERATION DEVICE - Provided is a device for supporting a center reflector stably and firmly. The device improves the setting density of heliostats and is capable of reducing the blocking and the shadowing of the beams of light reflected by the heliostats. In a beam down system solar generation device, the center reflector is attached, in a cantilever manner, to a supporting post standing upright. A pylon is provided to stand on the top of the supporting post. A stay member is attached to the pylon and is used for fixing the center reflector. A second stay member is provided to support the supporting post. This second stay member connects: the pylon; a jut extending out from the back side of the supporting post; and a base. | 08-18-2011 |
20110209475 | HIGH TEMPERATURE SOLAR THERMAL SYSTEMS AND METHODS - High-temperature solar thermal systems and methods are described. In one aspect, a system is described that includes a heat engine power conversion system, or a “heat engine,” with a fluid working medium. The heat engine includes a first input, a second input, and a heat exchanger. The first input receives heated high temperature tolerant particles, or “heated particles,” from a solar energy collection and distribution component that is coupled to the heat engine. The heat engine's second input receives the working fluid medium used to drive the power cycle in the heat engine. The heat exchanger transfers heat from the received heated particles to the working fluid medium, and thereby, energized the heat engine's power cycle. | 09-01-2011 |
20110252797 | GAS TURBINE PLANT, HEAT RECEIVER, POWER GENERATING DEVICE, AND SUNLIGHT COLLECTING SYSTEM ASSOCIATED WITH SOLAR THERMAL ELECTRIC GENERATION SYSTEM - A gas turbine plant associated with a solar thermal electric generation system has a heat receiver which receives heat from the sun, a gas turbine having a compressor and a turbine which operates with an operating fluid compressed by the compressor and heated by the heat receiver, a temperature sensor which detects heat from the sun, an auxiliary driving device which is driven based on the temperature of the heat detected by the temperature sensor, and which starts the gas turbine, and a generator which converts kinetic energy generated as a result of the rotation of the turbine into electric energy. | 10-20-2011 |
20120031094 | SOLAR RECEIVER HAVING BACK POSITIONED HEADER - A solar receiver includes at least two receiver panels having a common outer front surface for receiving incident solar radiation from a field of mirrors. The receiver panels include an array of side by side arranged heat exchange tubes which have a substantially straight main portion which extend in an upwards longitudinal direction and an inwards extending portion for a connection to an input or output header for respectively distributing or collecting fluid to or from the heat exchange tubes. The receiver panels are spaced apart in the upwards direction at a distance of Z cm. The header for the solar receiver is spaced behind the front surface at a distance of A cm, wherein the quotient of Z and A, Z/A, at the most equals the quotient of a vertical V and a horizontal H distance, V/H, from the header to a most far positioned mirror. | 02-09-2012 |
20120125000 | SOLAR CONCENTRATOR PLANT USING NATURAL-DRAUGHT TOWER TECHNOLOGY AND OPERATING METHOD - Solar concentrator plant using natural-draught tower technology, in which the tower is, in turn, used as cooling system. The tower houses saturated or superheated steam receivers in cavities with different orientations, with adaptive dynamic control of the heliostat field in order to direct said receivers towards different focusing points, for the production of electricity, process heat or solar fuels or for use in thermochemical processes. | 05-24-2012 |
20120180483 | SOLAR HEAT RECEIVING APPARATUS - A solar receiver is disposed on a top portion of a tower provided upright on the ground for heating a compressible working fluid by means of heat converted from sunlight collected by heliostats disposed on the ground, to raise the temperature of the compressible working fluid. The solar receiver has modules disposed back-to-back, and each of which includes a casing having a bottom plate to be fixed to the top-portion upper surface of the tower. A heat-transfer-tube unit is accommodated in the casing and includes heat transfer tubes. A sunlight inlet port having a circular shape in front view or an elliptical shape in front view is provided at the center portion of a plate-like member whose lower end is connected to an outer circumferential end of the bottom plate to constitute the casing and that extends obliquely upward from the outer circumferential end. | 07-19-2012 |
20120186251 | SOLAR POWER PLANT - The present invention provides a novel solar steam generator comprising solar steam boiler compartment carrying water surrounding an internal superheater compartment. The boiler compartment is exposed to a first concentrated solar radiation. The boiler compartment is configured and operable to heat water to saturated temperatures and generate saturated steam. The boiler compartment operates as an integrated cavity enclosing the superheater compartment, reducing the thermal losses of the superheater compartment to the outside environment and absorbs most of the thermal losses of the superheater compartment. The internal superheater compartment is exposed to a second concentrated solar radiation and is configured and operable to superheat the saturated steam generated in the boiler compartment. The boiler compartment and the superheater compartment are thus arranged one with respect to the other such that the boiler compartment surrounds the internal superheater compartment. | 07-26-2012 |
20130111902 | Solar power system and method of operating a solar power system - A solar power system includes a steam turbine with a plurality of pressure stages, a first solar field for heating water or water steam, and a first heat exchanger. The first heat exchanger is operated with molten salt liquids. Further, with a method of operating such a solar power system, water steam from the first solar field is transferred to the first heat exchanger, where the water steam is heated by the first heat exchanger and routed to a high pressure stage of the steam turbine. | 05-09-2013 |
20130186089 | CONTINUOUS FLOW STEAM GENERATOR HAVING AN INTEGRATED REHEATER - A continuous flow steam generator including a vessel with a heat transfer medium inlet and a heat transfer medium outlet is provided. A heat transfer medium channel is formed between the heat transfer medium inlet and the heat transfer medium outlet, and a heat transfer medium flows in the channel, having steam generator tubes disposed in the heat transfer medium channel, wherein a first portion of the steam generator tubes, and a second portion of the steam generator tubes is designed as a system of preheating and boiler tubes, and the first portion is disposed upstream of the second portion in the flow direction of the heat transfer medium. A steam generator device having a continuous flow steam generator and a water separation system is also provided along with a solar thermal power plant. | 07-25-2013 |
20130199183 | ECONOMIZER IN SOLAR TOWER PLANT AND OPERATING METHOD OF SAID PLANT - An economizer in a solar tower plant and operating method of said plant the purpose whereof is to make use of the heat from the heat losses generated around the solar tower receivers ( | 08-08-2013 |
20130283793 | SOLAR LIGHT COLLECTING MIRROR AND SOLAR THERMAL POWER GENERATION SYSTEM COMPRISING THE SOLAR LIGHT COLLECTING MIRROR - Provided are a solar light collecting mirror which can achieve high light collection efficiency even in a solar thermal power generation system such as a tower solar thermal power generation system in which the distance from a reflecting mirror to a heat collector is a long distance between several tens of meters and several hundreds of meters, can be manufactured easily and inexpensively, and can easily achieve concave mirrors with various curvatures, and a solar thermal power generation system using the same. A solar light collecting mirror (SL) of a heliostat ( | 10-31-2013 |
20140075939 | SOLAR THERMAL POWER PLANT - A solar thermal power plant includes a solar radiation receiver mounted on a tower surrounded by a heliostat field to receive solar radiation reflected by heliostats forming the heliostat field. The power plant includes a power generation circuit including a steam turbine for driving an electrical generator to produce electrical power, and water in the power generation circuit is capable of being heated directly by solar radiation reflected onto the solar radiation receiver by the heliostat field to generate steam to drive the steam turbine. The power plant also includes an energy storage circuit including a thermal energy storage fluid, such as molten salt, which is capable of being heated directly by solar radiation reflected by the heliostat field. A heat exchanger is also provided for recovering thermal energy from the thermal energy storage fluid in the energy storage circuit; the recovered thermal energy may then be used to generate steam to drive the steam turbine. | 03-20-2014 |
20140083097 | CONCENTRATED SOLAR TOWER ASSEMBLY AND METHOD - A concentrated solar tower assembly includes a hollow tower structure defining lower and upper portions. The lower portion includes a closable opening region for configuring a closable opening, and the upper portion includes a top gird having inner and outer top grids. The assembly further includes a solar receiver steam generator entirely installed at the ground level G on the inner top grid simultaneous to erection of the tower. The generator on the inner top grid is slidingly directed within the tower from the closable opening to be entirely accommodated therewithin. Thereafter, the generator on the inner top grid is lifted for being placed along the upper portion of the tower. | 03-27-2014 |
20140123646 | Concentrating Solar Power Methods and Systems with Liquid-Solid Phase Change Material for Heat Transfer - Concentrating solar power systems and methods featuring the use of a solid-liquid phase change heat transfer material (HTM). The systems and methods include a solar receiver to heat and melt a quantity of solid HTM. Systems also include a heat exchanger in fluid communication with the solar receiver providing for heat exchange between the liquid HTM and the working fluid of a power generation block. The systems and methods also include a hot storage tank in communication with the solar receiver and the heat exchanger. The hot storage tank is configured to receive a portion of the liquid HTM from the solar receiver for direct storage as a thermal energy storage medium. Thus, the system features the use of a phase change HTM functioning as both a heat transfer medium and a thermal energy storage medium. | 05-08-2014 |
20140150428 | HIGH-POWER TOWER RECEIVER CONFIGURATION - A receiver with a configuration of saturated and superheated steam solar modules in a tower solar concentration power plant. The configuration allows the incidence of radiation on both sides of the superheated steam module, providing significant benefits for its durability and global control of the power plant. | 06-05-2014 |
20140290248 | SOLAR HEAT RECEIVER, METHOD FOR ASSEMBLING SAME, AND SOLAR HEAT POWER GENERATION SYSTEM WITH SOLAR HEAT RECEIVER - A solar heat receiver includes a heat receiver tube support member that holds, with regular distances, longitudinally intermediate potions of a plurality of heat receiver tubes arranged in parallel and in plane. The support member extends to cross a longitudinal direction of the heat receiver tubes, and thus does not naturally move in the longitudinal direction of the heat receiver tubes, and when a predetermined force is applied in the longitudinal direction of the tubes, a position of the support member is maintained by a frictional force such that there is a slide between the heat receiver tube support member and the heat receiver tubes. Also, a plurality of heat receiver tube support members are provided in one solar heat receiver, and the heat receiver tubes are divided into a plurality of groups by the plurality of heat receiver tube support members. | 10-02-2014 |
20140305124 | SOLAR HEAT RECEIVER AND SOLAR HEAT POWER GENERATION DEVICE - A solar heat receiver includes a casing having an aperture, and a piping system provided in the casing and discharging a heat medium, which is sent from a fluid supply source, to a fluid supply destination after the heat medium is heated by the solar light. The piping system includes: heat receiver tubes that heat the heat medium flowing therein; an inlet header tube that distributes the heat medium, which is introduced from the fluid supply source, to each of the heat receiver tubes, and an outlet header tube that collects the heat medium passing through each of the heat receiver tubes, and leads the heat medium to the fluid supply destination. The inlet header tube and the outlet header tube have a larger inner diameter than each of the heat receiver tubes. | 10-16-2014 |
20150107245 | Coupling of a Turbopump For Molten Salts - The invention relates to a device comprising at least one vertical pump ( | 04-23-2015 |
20150128593 | AUXILIARY STEAM SUPPLY SYSTEM IN SOLAR POWER PLANTS - An auxiliary steam supply system in a solar power plant includes a solar receiver having a superheater section, a turbine, a steam circuit, a thermal energy storage arrangement and an auxiliary steam circuit. The thermal energy storage arrangement, including a thermal energy storage medium, is configured for the steam circuit to receive a portion of the steam to heat the thermal energy storage medium. The thermal energy storage arrangement may receive the steam from any location across the superheater section. Moreover, the auxiliary steam circuit generating auxiliary steam flow, which thermally communicates with the thermal energy storage arrangement to be heated, is introduced to any location across the superheater section. Capacity of the thermal energy storage arrangement may be relatively small as compared to the solar receiver and may be compact for placement on top of a tower. | 05-14-2015 |
20150345481 | DOUBLE FLOW CHANNEL OPEN-TYPE SOLAR HEAT ABSORBER HAVING POROUS PLATE ARRANGEMENT - The present invention relates to a dual-passage open-type solar heat absorber having a porous plate array, and more particularly, to a dual-passage open-type solar heat absorber which is formed in a form of a rectangular-shaped container in order to increase a contact area with collected sunlight and easily extend in a lateral direction or in a form of a circular-shaped container which is advantageous when a pressure is applied thereto, and which includes a main body formed in a formed of a rectangular or circular-shaped container by using a three-layered tube to form a dual passage therein so that heat is prevented from being lost through an outer wall. | 12-03-2015 |
060641120 | Air is working fluid | 6 |
20080282700 | Compressed working fluid supply system for an expansion engine - A compressed working fluid supply system including a power source, a liquefier in communication with the power source and a refrigerant, a circulator in communication with the power source and the refrigerant, and a heat sink is in communication with the refrigerant. The heat sink facilitates a transfer of heat from the working fluid to the refrigerant such that the working fluid becomes a cooled working fluid before or during compression. A compressor is in communication with the power source the cooled working fluid and includes an inlet and an outlet that is in communication with a compressed fluid tank. | 11-20-2008 |
20110173980 | SOLAR CHIMNEY WITH WIND TURBINE - A solar chimney includes an elongated chamber having the general configuration of an hourglass. The chamber includes one or more heat exchangers for heating air in the chamber by solar energy. A turbine in the chamber is driven by updrafts of air created in the chamber, and the turbine drives an electric generator or other machine. An exhaust wind turbine assists in the production of such updrafts. A vertical axis wind turbine harnesses energy of wind in the environment of the chimney, and such energy is used to drive the exhaust wind turbine. Excess wind energy is stored for later use. A set of extendable and retractable vanes, mounted externally of the chimney, deflects wind, in the environment of the chimney, towards the vertical axis wind turbine. | 07-21-2011 |
20120216537 | Solar Receiver - A solar receiver for a solar thermal power system includes a silicon carbide body having a passage therethrough. A coating on an outer surface of the silicon carbide body may increase absorption of solar radiation relative to the silicon carbide body. A plurality of silicon carbide fins may extend outwardly from the silicon carbide body, the fins oriented such that when the receiver is placed on a tower of a solar thermal power system having a plurality of heliostats, the fins are substantially perpendicularly to solar radiation received on the silicon carbide body from the plurality of heliostats. | 08-30-2012 |
20140373537 | SOLAR CHIMNEY WITH EXTERNAL VERTICAL AXIS WIND TURBINE - The solar chimney of the present invention comprises an elongated chamber having an inlet end and an outlet end, the chamber defining a path for fluid, such as air, from the inlet to the outlet. Air updrafts in the chamber drive an internal turbine which is connected to an electric generator, or to some other machine. | 12-25-2014 |
20150089946 | THERMAL ENERGY GENERATOR - A thermal energy generator of a size and configuration such that it captures and accelerates wind and thermal flow to drive a variable pitch internal propeller and an interconnected generator. | 04-02-2015 |
20160186725 | THERMAL WIND TURBINES - Thermal wind turbines capable of capturing energy from both blowing wind, and rising air heated by sunlight or another source of heat. The thermal wind turbine is equipped with two turbines, one optimized for receiving rising air, and the other optimized for receiving lateral winds. These turbines are installed into a housing designed to funnel air effectively through both turbines. The housings equipped with adjustable louvers for optimizing flow through the turbine system as wind and heat conditions vary. | 06-30-2016 |