Having Evaporator And Condenser Sections (e.g., Heat Pipe) Patents (Class 126/635)
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Patent number: 12051016Abstract: A system and method for personal energy-related changes payback evaluation with the aid of a digital computer are provided. An overall thermal performance of a building is estimated. One or more proposed replacements for existing equipment associated with an individual associated with the building is received. An annual electric consumption associated with the existing equipment is determined. The consumption associated the existing equipment is converted into a time series that includes a plurality of values that are each associated with a time interval. Renewable energy production data associated with the building is obtained. The time series is combined with the photovoltaic production data to obtain time series net consumption data. A cost associated with the time series net consumption data is determined. A payback associated with replacing the existing equipment is estimated using the cost.Type: GrantFiled: April 6, 2023Date of Patent: July 30, 2024Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 12032884Abstract: Improved energy conservation, including realization of a ZNET (Zero Net Energy including Transportation) paradigm, can be encouraged by providing energy consumers with a holistic view of their overall energy consumption. Current energy consumption in terms of space heating, water heating, other electricity, and personal transportation can be modeled by normalizing the respective energy consumption into the same units of energy. Options for reducing energy that can include traditional energy efficiencies, such as cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building, can be modeled. Additional options can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: July 5, 2023Date of Patent: July 9, 2024Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11954414Abstract: Gross energy load can be determined by combining periodic net load statistics, such as provided by a power utility or energy agency, with on-site power generation, such as photovoltaic power generation, as produced over the same time period. The gross energy load provides an indication upon which other types of energy investment choices can be evaluated. These choices can include traditional energy efficiencies, such as implementing electrical efficiency measures, which includes cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building. The choices can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: April 3, 2023Date of Patent: April 9, 2024Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11921478Abstract: A system and method to determine building thermal performance parameters through empirical testing is described. The parameters can be formulaically applied to determine fuel consumption and indoor temperatures. To generalize the approach, the term used to represent furnace rating is replaced with HVAC system rating. As total heat change is based on the building's thermal mass, heat change is relabeled as thermal mass gain (or loss). This change creates a heat balance equation that is composed of heat gain (loss) from six sources, three of which contribute to heat gain only. No modifications are required for apply the empirical tests to summer since an attic's thermal conductivity cancels out and the attic's effective window area is directly combined with the existing effective window area. Since these tests are empirically based, the tests already account for the additional heat gain associated with the elevated attic temperature and other surface temperatures.Type: GrantFiled: June 24, 2019Date of Patent: March 5, 2024Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11734476Abstract: Improved energy conservation, including realization of a ZNET (Zero Net Energy including Transportation) paradigm, can be encouraged by providing energy consumers with a holistic view of their overall energy consumption. Current energy consumption in terms of space heating, water heating, other electricity, and personal transportation can be modeled by normalizing the respective energy consumption into the same units of energy. Options for reducing energy that can include traditional energy efficiencies, such as cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building, can be modeled. Additional options can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: August 8, 2022Date of Patent: August 22, 2023Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11651306Abstract: A system and method for building energy-related changes evaluation with the aid of a digital computer are provided. Obtained is a total amount of fuel purchased for a building over a set period from which an existing amount of the fuel consumed for space heating is derived. Characteristics including thermal performance and furnace and delivery efficiencies of the building for both existing and proposed equipment are obtained, including remotely controlling a heating source inside the building. The thermal performance and furnace and delivery efficiencies characteristics of the existing and proposed equipment are expressed as interrelated ratios. An amount of fuel to be consumed for space heating is evaluated as a function of the existing amount of the fuel consumed for space heating and the ratios of the existing and proposed equipment.Type: GrantFiled: June 13, 2022Date of Patent: May 16, 2023Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11651123Abstract: Gross energy load can be determined by combining periodic net load statistics, such as provided by a power utility or energy agency, with on-site power generation, such as photovoltaic power generation, as produced over the same time period. The gross energy load provides an indication upon which other types of energy investment choices can be evaluated. These choices can include traditional energy efficiencies, such as implementing electrical efficiency measures, which includes cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building. The choices can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: June 13, 2022Date of Patent: May 16, 2023Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11536488Abstract: Thermal energy storage systems are disclosed in this application. Systems of the inventive subject matter are designed to reduce maintenance requirements by sequestering, for example, corrosive fluids that might otherwise damage difficult-to-fix internal components are kept out of those components by introducing a non-corrosive heat transfer fluid to facilitate heat transfer between a thermal energy storage medium (e.g., molten sulfur) and a potentially corrosive working fluid. Thus, the potentially corrosive fluid is kept out of a thermal energy storage tank containing the thermal energy storage medium, which, by design, is difficult to repair when internal components corrode or otherwise require maintenance.Type: GrantFiled: November 19, 2020Date of Patent: December 27, 2022Assignee: Element 16 Technologies, Inc.Inventors: Hamarz Aryafar, Karthik Nithyanandam, Parker Wells
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Patent number: 11409926Abstract: Improved energy conservation, including realization of a ZNET (Zero Net Energy including Transportation) paradigm, can be encouraged by providing energy consumers with a holistic view of their overall energy consumption. Current energy consumption in terms of space heating, water heating, other electricity, and personal transportation can be modeled by normalizing the respective energy consumption into the same units of energy. Options for reducing energy that can include traditional energy efficiencies, such as cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building, can be modeled. Additional options can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: September 1, 2020Date of Patent: August 9, 2022Assignee: Clean Power Research, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11361129Abstract: Gross energy load can be determined by combining periodic net load statistics, such as provided by a power utility or energy agency, with on-site power generation, such as photovoltaic power generation, as produced over the same time period. The gross energy load provides an indication upon which other types of energy investment choices can be evaluated. These choices can include traditional energy efficiencies, such as implementing electrical efficiency measures, which includes cutting down on and avoiding wasteful energy use and switching to energy efficient fixtures, and improving the thermal efficiency and performance of a building. The choices can also include non-traditional energy efficiencies, such as replacing a gasoline-powered vehicle with an electric vehicle, fuel switching from a water heater fueled by natural gas to a heat pump water heater, and fuel switching from space heating fueled by natural gas to a heat pump space heater.Type: GrantFiled: July 10, 2020Date of Patent: June 14, 2022Assignee: CLEAN POWER RESEARCH, L.L.C.Inventor: Thomas E. Hoff
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Patent number: 11280518Abstract: Thermal energy storage systems are disclosed in this application. Systems of the inventive subject matter are designed to reduce maintenance requirements by sequestering, for example, corrosive fluids that might otherwise damage difficult-to-fix internal components are kept out of those components by introducing a non-corrosive heat transfer fluid to facilitate heat transfer between a thermal energy storage medium (e.g., molten sulfur) and a potentially corrosive working fluid. Thus, the potentially corrosive fluid is kept out of a thermal energy storage tank containing the thermal energy storage medium, which, by design, is difficult to repair when internal components corrode or otherwise require maintenance.Type: GrantFiled: August 25, 2020Date of Patent: March 22, 2022Assignee: Element 16 Technologies, Inc.Inventors: Hamarz Aryafar, Karthik Nithyanandam, Parker Wells
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Patent number: 10876765Abstract: Thermal energy storage systems are disclosed in this application. Systems of the inventive subject matter are designed to reduce maintenance requirements by sequestering, for example, corrosive fluids that might otherwise damage difficult-to-fix internal components are kept out of those components by introducing a non-corrosive heat transfer fluid to facilitate heat transfer between a thermal energy storage medium (e.g., molten sulfur) and a potentially corrosive working fluid. Thus, the potentially corrosive fluid is kept out of a thermal energy storage tank containing the thermal energy storage medium, which, by design, is difficult to repair when internal components corrode or otherwise require maintenance.Type: GrantFiled: March 7, 2019Date of Patent: December 29, 2020Assignee: Element 16 Technologies, Inc.Inventors: Hamarz Aryafar, Karthik Nithyanandam, Parker Wells
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Patent number: 10852505Abstract: An isothermalized mirror assembly is a mirror structure that uses a heat pipe to isothermalize heat loads. The isothermalized mirror assembly includes at least one mirror unit and a quantity of thermally-convective fluid. The mirror unit includes a vacuum enclosure, a capillary medium, at least one reflector, and a plurality of cross supports. The vacuum enclosure is the structural base of the isothermalized mirror assembly and is used to retain a vacuum and the thermally-convective fluid. The cross supports are mounted within the vacuum enclosure and increases the structural integrity of the vacuum enclosure. The capillary medium is mounted across the interior of the vacuum enclosure and about each cross support. The capillary medium and the thermally-convective fluid work in conjunction to form a heat pipe within the vacuum enclosure. The reflector is externally mounted to the vacuum enclosure in order to redirect EM radiation.Type: GrantFiled: April 5, 2019Date of Patent: December 1, 2020Assignee: SOTER TECHNOLOGY, LLCInventors: David Strafford, Diana Strafford
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Patent number: 10571154Abstract: The present disclosure describes a method for discharging a hydrogen storage system that is found in the annular space of a receiver tube, in particular for solar collectors, wherein the annular space is formed at least by an outer-lying tubular jacket and an inner-lying absorber tube of the receiver tube, and the outer-lying tubular jacket is joined by means of a wall to the absorber tube. The method is hereby characterized in that a first opening penetrating the tubular jacket or the wall is produced under a protective gas atmosphere, wherein protective gas enters through the first opening into the annular space, after which a process chamber with a connection for a vacuum pump is arranged in a gas-tight manner above the first opening, the receiver tube is evacuated through the first opening, and the first opening is subsequently sealed in a gas-tight manner.Type: GrantFiled: February 1, 2017Date of Patent: February 25, 2020Assignee: SCHOTT AGInventor: Thomas Kuckelkorn
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Patent number: 10458680Abstract: The present disclosure describes a method for discharging a hydrogen storage system, which is found in the annular space of a receiver tube, in particular for solar collectors, wherein the annular space is formed between an outer-lying tubular jacket and an inner-lying absorber tube of the receiver tube, and the outer-lying tubular jacket is connected via a wall to the absorber tube in a gas-tight manner. The method is hereby characterized in that an opening penetrating the tubular jacket or the wall is produced, free hydrogen in the annular space is pumped out through the opening, and the opening is subsequently sealed. The disclosure further describes a device for implementing the method.Type: GrantFiled: February 1, 2017Date of Patent: October 29, 2019Assignee: SCHOTT AGInventors: Thomas Kuckelkorn, Oliver Sohr
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Patent number: 10234179Abstract: A thermodynamic device includes a first liquid container configured to maintain a first pressure during operation, the first liquid container being partially filled with a working fluid during operation, a second liquid container configured to maintain a second pressure during operation, the second pressure being higher than the first pressure, the second liquid container being partially filled with the working fluid during operation; and a compensation pipe permeable to the working fluid and including an inlet arranged within the second liquid container so as to define, during operation, a working fluid level within the second liquid container, and including an outlet arranged within the first liquid container so that working fluid can be transported from the inlet into the outlet, the inlet being arranged to be higher up than the outlet in the installation direction.Type: GrantFiled: February 12, 2016Date of Patent: March 19, 2019Assignee: Efficient Energy GmbHInventor: Holger Sedlak
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Patent number: 10145585Abstract: The present invention provides a vacuum heat transfer type efficient solar panel heat absorption system, including a flat plate collector, wherein a heat absorption coil is arranged in the flat plate collector, and a heat absorption coil valve is arranged on the heat absorption coil stretching out from the flat plate collector; a heat exchange coil is arranged in a pressure bearing water tank, a water inlet and a water outlet are formed in the pressure bearing water tank, a vacuum pump is arranged on a heat transfer pipeline, the heat absorption coil, the heat transfer pipeline and the heat exchange coil are all copper tubes, the interiors of the copper tubes are in vacuum states, and heat absorption coating is coated on an outer surface of the heat absorption coil.Type: GrantFiled: July 25, 2017Date of Patent: December 4, 2018Assignee: HENAN SHUIMU ENVIRONMENTAL TECHNOLOGY CO., LTDInventors: Bo Wang, Wanpin Tian, Zhenyu Luo, Shuhong Song, Yuanhui Guo, Yulong Chen, Shixi Wang, Wanying Wang, Huanhuan Xia, Guangyin Liu, Boheng Hao
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Patent number: 9958185Abstract: A concentrator tube comprises a reflector portion having two walls; and an aperture closing an opening to the reflector portion. The aperture and the reflector portion extend longitudinally. The aperture is substantially flat relative to curvature of the reflector portion.Type: GrantFiled: March 15, 2013Date of Patent: May 1, 2018Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIAInventors: Roland Winston, Lun Jiang
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Patent number: 9719695Abstract: A low profile flexible solar thermal panel has low-cost, thin sheet foil and film materials fabricated as an integrated airtight solar thermal panel and a dual-port bifurcated duct adapter and formed metal foil air passages. The bifurcated air duct and formed metal foil layer enables, the panel to require only a single duct orifice through a mounting surface (such as a roof or wall) to provide both ingress and egress for air flow. The formed metal foil layer supplies a rigid support for two laminar air passages that steer forced air from the ingress port through a lower laminar air passage and returns it through the upper laminar air passage to the egress port in the bifurcated duct. The air duct enables measurement of the inlet air temperature, outlet air temperature and circulated air volume, further enabling electronic measurement of total energy produced in standard units.Type: GrantFiled: December 31, 2013Date of Patent: August 1, 2017Assignee: Zonbak LLCInventor: John E. Sylvan
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Patent number: 9656881Abstract: Systems, methods, and apparatus are provided for purifying and pumping liquids, and more particularly, for purifying and pumping water. The apparatus includes a chamber including a top portion and a bottom portion. A surface configured to be heated is proximate the bottom portion of the chamber. A baffle is disposed within the chamber and above the surface. The baffle is disposed at an angle relative to a vertical direction. The chamber further includes an inlet and a first outlet. The surface heats a liquid in the chamber, causing the liquid to boil. In operation, bubbles rise from the surface and are forced in a horizontal direction by the baffle disposed in the chamber.Type: GrantFiled: March 13, 2014Date of Patent: May 23, 2017Inventor: Leif Alexi Steinhour
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Patent number: 9201228Abstract: A system is provided for photo-processing of a material using incident light with an optical element that includes a plurality of concentric bands of optical prisms concentric around a focal axis. The system includes a target receiver positioned on the focal axis and holds the material to be photo-processed. The optical prisms concentrate incident light on the target receiver. The optical element may be formed substantially of acrylic formulated to pass UV radiation. The optical element may include anti-reflective additives in the acrylic. The optical prisms may be fresnel zones.Type: GrantFiled: February 27, 2014Date of Patent: December 1, 2015Inventors: Donald Alan Steinmeyer, Eric Robert Steinmeyer, John Richard Zagelow
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Publication number: 20150096551Abstract: A solar thermal lamp used for heating water inside a tank. The thermal lamp includes a transparent glass bulb with a threaded male coupling for attaching to a female coupling in the tank. The lamp also includes a heat tube with an enlarged water heating condenser. The condenser is received inside the tank. The heat tube can include a copper coil, copper fins, a glass coil, a copper lamp, a glass lamp, and the like for receiving solar energy and conducting the heat to the heating condenser for heating the water inside the tank. Also, the invention can be in the form of a solar thermal globe. The solar globe is self-contained and includes a water tank. Another embodiment of the globe tracks with the daily movement of the sun and change with seasons.Type: ApplicationFiled: October 9, 2013Publication date: April 9, 2015Inventor: Ali A. Fakih
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Patent number: 8985097Abstract: A device and method of its production for a micro-channel thermal absorber to be used as a solar thermal collector, heat collector, or heat dissipater, extruded or continuously cast in one piece or in modular segments from a metal, plastic, or glass and assembled into panels of different structures seamlessly integrated into the envelope of a building as covering layers or structural elements. The micro-channel thermal absorber comprises an active plate, a back plate adjacent to the active plate, and a plurality of micro-channel walls arranged substantially perpendicular to the active plate and the back plate to define a plurality of fluid transport micro-channels configured to allow fluid flow there-along, wherein the micro-channel walls constitute supporting elements between the active plate and the back plate to provide structure.Type: GrantFiled: April 15, 2011Date of Patent: March 24, 2015Inventors: John Swift, Anne Swift Hendricks
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Publication number: 20150075517Abstract: Insulated solar panels that provide a solar thermal collector with means for limiting stagnation temperatures and preventing damage include: temperature limiting is provided by the insulated solar panel, isolating internal components from the environment, using passive closed systems within the sealed solar thermal collector, while also allowing alternative implementations as active systems and/or portions of the temperature limiting system outside the sealed solar thermal collector. A heat pipe can be used as a passive thermal switch, where the temperature induced action at a predetermined temperature causes an abrupt transition from a state of thermal isolation to a state of strong thermal coupling. Additionally, a set of siphon circulation pipes provides a passive closed system for temperature limiting.Type: ApplicationFiled: September 11, 2014Publication date: March 19, 2015Applicant: TIGI LTD.Inventors: Shimon KLIER, Zvika Klier, Michael Adel, Royi Efron
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Patent number: 8960181Abstract: Solar heat collector, especially an evacuated-tube solar heat collector, filled with first solid heat storage and conducting material transfers the solar heat to an electric power heat insulated utensil through second heat conducting/transferring material for cooking foods and making coffee/tea. A set of solar cooking appliance having a solar heat collector filed with a first solid heat storage and conducting material and a solar cooking range filled with third solid heat storage and conducting material. The solar cooking range having a heat insulated enclosed compartment and also having a cooktop. The cooking range having a set of cooking chambers which are in thermal contact with the first and second heat storage and conducting material for cooking food therein. The cooking appliance also has a group of removable parts that cover the cooking chambers separately. An electric power heater provides a backup energy source and electric heat storage.Type: GrantFiled: January 20, 2012Date of Patent: February 24, 2015Inventor: Huazi Lin
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Publication number: 20140311551Abstract: A solar energy system includes a solar energy receiver and a matrix of pipes containing a working fluid attached to the bottom side of the receiver. The matrix is a plurality of vertically-tilted pipes and at least three horizontal pipes arranged in a specific order and have a defined function. The working fluid absorbs heat and changes from a liquid to a gas. The system further includes a thermal storage tank, which includes a heat storage medium and a heat exchanger. The heat exchanger receives evaporated working fluid from one of the horizontal pipes, condenses the working fluid vapor by transferring heat to the heat storage medium. When water is the working fluid, a distilled water storage tank may be connected to the heat exchanger to receive distilled water. When recirculation of the working fluid is desired, condensed liquid from the heat exchanger is flowed to a horizontal pipe.Type: ApplicationFiled: April 6, 2014Publication date: October 23, 2014Inventor: Yi Pang
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Publication number: 20140305425Abstract: A solar collector has an opaque cover heated by solar energy. Heat flows from the opaque cover by conduction, convection, and infrared emittance across a gap within an at least substantially airtight enclosure to an absorber containing a working fluid. The exterior surface of the opaque cover has high solar energy absorptance and the interior surface has high infrared emittance. The exterior surface preferably has low infrared emittance. In one embodiment, fully wetted surface geometry permits direct and reflected infrared absorption by the absorber. The opaque cover eliminates the weight, cost and other shortcomings of glass. A hollow continuous side wall with rounded corners provides an embodiment that is robust yet economical, that is easy to manufacture and seal, that permits a reduced thickness of the opaque cover and mitigates the destructive potential of severe winds, and that can withstand the compressive forces experienced by an evacuated solar collector.Type: ApplicationFiled: April 14, 2014Publication date: October 16, 2014Inventors: JEFFREY D. PRUTSMAN, JOHN D. PRUTSMAN
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Patent number: 8851067Abstract: A solar panel comprises a conduit which in the usual way is designed to comprise a heat carrying medium for heat transfer between the solar panel and the surrounding environment. The conduit is placed so that it can be heated by the rays from the sun. The solar panel comprises a chemical heat pump of the type hermetically sealed unity tube with a reactor part, an evaporator/condenser part and a passage there between. The part of the unity tube comprising the reactor part of the chemical heat pump is positioned in heat conducting contact with the first conduit and thereby the part of the unity tube with the reactor part will be heated. The unity tube may be surrounded by a heat insulating part of vacuum jug type comprising an evacuated space between an outer wall and an inner wall. The inner wall may at its outwards facing surface comprise a radiation receiving part adapted to transform solar radiation to heat and which is in heat conducting contact with the first area and the first conduit.Type: GrantFiled: December 8, 2010Date of Patent: October 7, 2014Assignee: Climatewell ABInventor: Goran Bolin
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Publication number: 20130298898Abstract: An absorption vacuum tube (2) with heat pipe (3), a condenser (4) of which is placed in a plugged stub pipe (5) of a dry type heat exchanger (1) of a solar collector, is characterised in that it comprises more than one heat pipe (3), preferably two to six. The plugged stub pipes (5) are located in walls of the heat exchanger (1) in groups, creating stub pipe sets, in which the condensers (4) of the heat pipes (3), situated in one absorption vacuum tube (2), are located. Thanks to the better use of a heat absorbed, the solar collector, in which the absorption heat pipes (3) and the heat exchanger (1) are used, has a better efficiency.Type: ApplicationFiled: December 9, 2011Publication date: November 14, 2013Inventors: Jaroslaw Strojecki, Jerzy Adam Bialousz
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Publication number: 20130263844Abstract: A solar collector comprises a solar absorbing tube comprising enclosure enclosing an absorbing section, comprising a radiation absorbing plate and a tube, containing a working fluid in thermal contact with the plate. The tube extends out of one end of the tube and connects with a condenser wherein the thermal transfer fluid when in a vapour phase communicates with a fluid to be heated within an end fitting. The condenser of a tube is inserted into a thermal pocket sealingly engaged with a gasket within the pipe receiving portion of the fitting, whereby heat transfer can take place between the condensers of the pipes and a fluid flowing via path in the fitting. The pocket is sealed against ingress of heat exchange fluid flowing through the fitting.Type: ApplicationFiled: September 9, 2011Publication date: October 10, 2013Applicant: KINGSPAN HOLDINGS (IRL) LIMITEDInventors: John Reid, Patrick Robert Davis, Paul Thomas McEntee, William Hadden
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Publication number: 20130228164Abstract: A solar collector comprises a solar absorbing tube 3 containing elongate tube 11 that extends out of one end of the solar absorbing tube 3 and into an end fitting 15 wherein an annular outer passageway 13 of the elongate tube 11 communicates with a cold fluid inlet conduit 16 within the end fitting 15 and the inner passageway 14 of the elongate tube 11 communicates with a hot water outlet conduit 17 within the end fitting 15. Each end fitting 15 is provided with a receiving portion 22 extending orthogonally to the tubular passage 18 for receiving an end of the concentric elongated tube 11. The end fittings 15 are interconnected to provide fluid flow paths without the need for a manifold. Any number of solar collector tubes can be interconnected in this way. The invention also applies solar collectors of the heat pipe type.Type: ApplicationFiled: October 3, 2012Publication date: September 5, 2013Applicant: KINGSPAN HOLDINGS (IRL) LIMITEDInventors: Patrick Robert Davis, Boris Bauer, Richard Pelan, Paul Thomas McEntee
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Patent number: 8523980Abstract: An apparatus for water reclamation includes an inlet head for admitting warm humid ambient air, a buried pipe coupled at a first end to the inlet head and sloping downward in the ground from the first end. Water condenses as the air is cooled in the buried pipe and collects in a cistern coupled at a second end of the buried pipe. A tube coupled at a lower end near the second end of the buried pipe includes a heated element extending at least partially into the tube from an upper end of the tube. Cooled air is heated by the heated element and is expelled at the top of the tube. A heater is coupled to an upper end of the heated element. The heater may be a solar collector with a Bernoulli aperture.Type: GrantFiled: January 7, 2011Date of Patent: September 3, 2013Inventor: Javier Fernandez-Han
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Publication number: 20130167834Abstract: A multi-section heat-pipe solar collector includes a heat-exchanging pipe and at least one heat-collecting module. The heat-collecting module includes a heat pipe and a plurality of heat-collecting plates serially connected on one side of the heat pipe at intervals. One end of the heat pipe is inserted into the heat-exchanging pipe. The heat-collecting plates are arranged on the other end of the heat pipe in multiple sections and have different heat transfer characteristics respectively.Type: ApplicationFiled: December 28, 2011Publication date: July 4, 2013Inventors: Dah-Chyi Kuo, Xue-Hai Wang, Ling Long
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Publication number: 20130160758Abstract: A heat-pipe solar collector includes a heat-exchanging pipe, a sealing assembly and a heat pipe. The sealing assembly includes a connecting sleeve and a sealing ring. The connecting sleeve includes a pipe post through which the heat pipe is disposed. The sealing ring includes an annular sheath and an annular piece. The annular piece is pressed by the pipe post to abut the heat-exchanging pipe. One end of the heat pipe is disposed in the heat-exchanging pipe via the sealing assembly.Type: ApplicationFiled: December 25, 2011Publication date: June 27, 2013Inventors: Dah-Chyi KUO, Xue-Hai WANG, Ling LONG
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Patent number: 8459250Abstract: A solar collector apparatus with Dewar-type evacuated tubes results in the more efficient collection of solar radiation by, for example, maintaining the level of a volatile liquid flowing into the solar collector so that no more than 80% of the volume of an inner cylinder of a collection tube is filled with liquid and a corresponding manifold collects the vapor produced when heat is transferred from the surface of the inner glass cylinder that absorbs solar radiation to the volatile liquid. The aforementioned apparatus may likewise be used to heat a liquid within an absorber tube, the liquid having a volatile and a non-volatile component. As heat is transferred to the liquid, a fraction of the volatile component is converted to vapor, leaving the liquid more concentrated in the non-volatile component.Type: GrantFiled: October 5, 2009Date of Patent: June 11, 2013Assignee: Ail Research Inc.Inventor: Andrew Lowenstein
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Publication number: 20130104877Abstract: The present invention is a solar heat collector having heat pipe. A heat exchanger has accommodating space and an opening recess. The opening recess has a screw thread and a though hole. The connecting barrel includes a pipe tube has a tunnel. The pipe tube is threadedly connected to the opening recess. An end of the heat pipe is inserted through the tunnel and the through hole and located in the accommodating space. Cool water following into the heat exchanger takes away the heat of the heat pipe. The heat exchange process of the heat pipe proceeds by the phase change of working fluid.Type: ApplicationFiled: January 9, 2012Publication date: May 2, 2013Inventors: Dah-Chyi KUO, Xue-Hai Wang, Ling Long
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Publication number: 20120204860Abstract: An evacuated tube solar thermal collector uses a set of evacuated solar thermal collector tubes in heat exchanging contact with a fluid flowing through a header tube. Two heat pipes are provided in each evacuated thermal collector tube, and the condenser ends of the heat pipes are positioned in the header tube with a spacing that provides improved heat transfer from the heat pipes to the header tube. When 14 mm heat pipes contained in 58 mm collector tubes are used in a header tube having a capacity of about 0.5 gallons with a heat transfer liquid that is flowing at a rate of about 0.3 gpm, the spacing between heat pipes in each collector tube is about 24 mm, center to center, and the spacing between corresponding heat pipes of immediately-adjacent collector tubes is about 80 mm.Type: ApplicationFiled: February 15, 2012Publication date: August 16, 2012Inventor: Donald L. Crawmer
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Publication number: 20120124999Abstract: A solar collector (26) includes: an outer tube (64) of circular cross-section, closed at one of its ends, an absorption layer (52) arranged inside the outer tube (64), for absorbing solar radiation (Rs), and a heat pipe (56) including a hot part (58) laid out inside the outer tube (64), a cold part (60) arranged outside the outer tube (64), and a reservoir (62) containing a heat pipe fluid (63) and extending over the hot part (58) and the cold part (60). The outer tube (64) is hermetically closed around the heat pipe (56) at the other of its ends, a vacuum being formed inside said outer tube (64). For the hot part (58) of the heat pipe (56), the reservoir (62) is applied at least locally against the absorption layer (52).Type: ApplicationFiled: February 8, 2010Publication date: May 24, 2012Applicants: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, SOPHIA ANTIPOLIS ENERGIE DEVELOPPEMENTInventors: Jean-Antoine Gruss, Christian Lenôtre, Alain Marechal, Didier Rossi, Wohrer Michel
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Publication number: 20120080026Abstract: An apparatus for collecting solar energy includes a receptacle adapted for receiving solar thermal energy; an insert located within the receptacle, the insert being a heat pipe adapted to transfer heat; and an absorption device positioned proximate to and substantially conforming to at least a portion of an internal surface of the receptacle and thermally coupled to the insert. The insert enters the receptacle substantially at a cross-sectional center of the receptacle, and further inside the receptacle, the insert shifts to become closer to the absorption fin.Type: ApplicationFiled: July 5, 2011Publication date: April 5, 2012Inventors: Randy Gee, Roland Winston
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Publication number: 20110303216Abstract: A solar collector apparatus with Dewar-type evacuated tubes results in the more efficient collection of solar radiation by, for example, maintaining the level of a volatile liquid flowing into the solar collector so that no more than 80% of the volume of an inner cylinder of a collection tube is filled with liquid and a corresponding manifold collects the vapor produced when heat is transferred from the surface of the inner glass cylinder that absorbs solar radiation to the volatile liquid. The aforementioned apparatus may likewise be used to heat a liquid within an absorber tube, the liquid having a volatile and a non-volatile component. As heat is transferred to the liquid, a fraction of the volatile component is converted to vapor, leaving the liquid more concentrated in the non-volatile component.Type: ApplicationFiled: October 5, 2009Publication date: December 15, 2011Applicant: AIL RESEARCH INC.Inventor: Andrew Lowenstein
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Publication number: 20110226233Abstract: Various embodiments for an improved solar collector are disclosed. For example, a heat absorber can be positioned inside an evacuated chamber formed by a frame and a transparent cover. Heat absorbed by the heat absorber within the evacuated chamber can be delivered to a heat transfer fluid inside a chamber of a heat exchanger. The heat exchanger chamber can also reside in the evacuated chamber. In a preferred embodiment, the heat absorber comprises a planar heat pipe. Also in a preferred embodiment, a reflector can be positioned to reflect energy radiated by the heat absorber back to the heat absorber.Type: ApplicationFiled: March 19, 2010Publication date: September 22, 2011Inventors: John Randall Schwarz, Jeffrey Lawrence Dee
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Patent number: 7992553Abstract: A collector system (12) is disclosed that comprises a row of linearly conjoined collector structures (13). The collector system is arranged to be located at a level above a field of reflectors (10) and to receive solar radiation reflected from the reflectors within the field. The collector structure (13) comprises an inverted trough (16) and, located within the trough, a plurality of longitudinally extending absorber tubes (30) that, in use, are arranged to carry a heat exchange fluid. The absorber tubes (30) are supported side-by-side within the trough and each absorber tube has a diameter that is small relative to the aperture of the trough. The ratio of the diameter of each absorber tube to the trough aperture dimension is of the order of 0.01:1.00 to 0.10:1.00 and, thus, the plurality of absorber tubes functions, in the limit, effectively to simulate a flat plate absorber.Type: GrantFiled: February 17, 2005Date of Patent: August 9, 2011Assignee: Areva Solar Pty LimitedInventor: Peter Le Lievre
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Patent number: 7982343Abstract: A magnetohydrodynamic energy conversion device has a tungsten housing containing a working fluid and a conduit leading from and reentering the housing under pressure developed by heating the fluid with by an optical concentrator which directs rays from the sun at the housing. A voltage is developed across electrodes spaced within the conduit as the heated fluid passes therethrough. The fluid may be directed to turn a gas turbine for driving an electric generator.Type: GrantFiled: September 12, 2008Date of Patent: July 19, 2011Inventor: Thomas P. Kay
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Patent number: 7971587Abstract: An apparatus for collecting solar energy includes a receptacle adapted for receiving solar thermal energy; an insert located within the receptacle, the insert being a heat pipe adapted to transfer heat; and an absorption device positioned proximate to and substantially conforming to at least a portion of an internal surface of the receptacle and thermally coupled to the insert. The insert enters the receptacle substantially at a cross-sectional center of the receptacle, and further inside the receptacle, the insert shifts to become closer to the absorption fin.Type: GrantFiled: October 31, 2007Date of Patent: July 5, 2011Assignees: The Regents of the University of California, SolFocus, Inc.Inventors: Randy Gee, Roland Winston
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Publication number: 20110120451Abstract: A solar collector is provided, in one embodiment. The solar collector comprises a heat core to convert incident radiation into heat; a wicking layer spaced from the heat core to absorb infrared radiation emitted by the heat core due to the conversion of incident radiation into heat; an inlet to introduce a heat transfer fluid into the wicking layer; wherein the absorption of the infrared radiation is by the heat transfer fluid in the wicking layer and causes a portion of the heat transfer fluid to enter into a vapor phase thereof which propagates into the heat core where it undergoes heating; and an outlet to transport the heated vapor phase of the heat transfer fluid out of the collector.Type: ApplicationFiled: November 10, 2010Publication date: May 26, 2011Inventor: Mark W. Miles
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Patent number: 7909029Abstract: The radiation selective absorber coating of the invention includes two or more barrier layers arranged over each other on a substrate surface, an infrared-range reflective layer arranged on the two or more barrier layers, and at least an absorption layer arranged over the infrared-range reflective layer and a final antireflection layer arranged over the absorption layer. The absorber pipe, especially for a parabolic trough collector, is a steel pipe, on whose outer side the radiation selective absorber coating is applied. In the method of making the absorber pipe a first oxide barrier layer is provided on the outer side of the steel pipe by thermal oxidation, and then a second barrier layer, an infrared-range reflective layer, an absorption layer and a final antireflection layer are applied by gas-phase physical deposition.Type: GrantFiled: November 26, 2007Date of Patent: March 22, 2011Assignee: Schott AGInventors: Thomas Kuckelkorn, Wolfgang Graf, Christina Hildebrandt, Andreas Georg
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Publication number: 20100258111Abstract: A solar receiver includes a heat absorbing element having an outer surface and an inner surface opposite the outer surface and a first coating including a carbon nanotube-infused fiber material in surface engagement with and at least partially covering the outer surface of the heat absorbing element. Solar radiation incident onto the first coating is received, absorbed, and converted to heat energy, and the heat energy is transferred from the first coating to the heat absorbing element. A multilayer coating for a solar receiver device includes a first coating that includes a CNT-infused fiber material and an environmental coating disposed on the first coating.Type: ApplicationFiled: April 6, 2010Publication date: October 14, 2010Applicant: Lockheed Martin CorporationInventors: Tushar K. Shah, Harry C. Malecki, Daniel J. Adcock, Kristopher Heick
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Patent number: 7810490Abstract: A solar air conditioning device (100) includes a solar collector assembly (30), an inlet assembly (10) at an entrance of the solar collector assembly, and an outlet assembly (50) at an exit of the solar collector assembly. The solar collector assembly includes a heat-absorbing set (31) and a transparent panel (38) being assembled to a top of the heat-absorbing set. The heat-absorbing set comprises a plurality of heat-absorbing units (32) engaged with each other. Each of the heat-absorbing units includes two adjacent supporting members (33) and a heat-absorbing plate (35) sandwiched between and buckled with the two supporting members. The heat-absorbing set defines an air channel (314) with the transparent panel and a heat-absorbing channel (315) below the air channel. The inlet and outlet assemblies are in fluidic communication with the heat-absorbing channel.Type: GrantFiled: December 18, 2007Date of Patent: October 12, 2010Assignees: Fu Zhun Precision Industry (Shen Zhen) Co., Ltd., Foxconn Technology Co., Ltd.Inventors: Tay-Jian Liu, Xin-Jian Xiao
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Patent number: 7798140Abstract: Solar collectors heat and self pump heat transfer fluid at reduced system pressure without mechanical intervention for heat exchange with hot water in a storage tank. Slugs of hot fluid are pumped by steam bubbles formed in solar collector tubes through an upper manifold and an exit-tube into an upper hot fluid reservoir. Hot fluid flows downward through a heat exchanger at the tank. Cold fluid returns to a lower reservoir. Vapor flows from the upper reservoir and is condensed by cooler water and walls of the lower reservoir. The cool fluid returns from the lower reservoir to a lower manifold supplying the collector tubes. Below ambient pressure is automatically established in the system. When heat build-up increases pressure in the system, fluid flows to a third closed variable volume reservoir. A float valve in the bottom of the third reservoir allows liquid to return to the system when it cools.Type: GrantFiled: October 6, 2009Date of Patent: September 21, 2010Assignee: Sunnovations LLCInventor: Arnoud van Houten
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Patent number: 7794572Abstract: A water purification apparatus (10) includes an evaporating chamber (13), a light concentrator (11), and a heat pipe (12). The evaporating chamber is for containing impure water. The evaporating chamber has a connecting opening (134) and a vapor outlet (131). The light concentrator is for concentrating sunshine. The heat pipe has an evaporating section (121) and a condensing section (122). The evaporating section is irradiated by the concentrated sunshine, and the condensing section is disposed in the evaporating chamber through the connecting opening.Type: GrantFiled: May 19, 2006Date of Patent: September 14, 2010Assignee: Hon Hai Precision Industry Co., Ltd.Inventor: Hsin-Ho Lee