[특허]High temperature solar receiver

[미국특허] High temperature solar receiver 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F24J-002/24
출원번호	UP-0747595 (2007-05-11)
등록번호	US-7690377 (2010-05-20)
발명자 / 주소	Goldman, Arnold Meitav, Arieh Yakupov, Ilia Kroizer, Israel Kokotov, Yuri Gilon, Yoel
출원인 / 주소	BrightSource Energy, Inc.
대리인 / 주소	Catan, Esq., Mark A.
인용정보	피인용 횟수 : 11 인용 특허 : 66

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The invention provides receivers which can be used to heat a working fluid to high temperature. In preferred embodiments, concentrated solar radiation is received and converted to heat at varying depths in the receiver such that multiple layers of surface are used to heat the working fluid. In addit

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The invention claimed is: 1. A solar receiver for a concentrating solar collection system, comprising: a receiver portion having an array of tubes, at least some of which are at least partially transparent, the receiver portion being disposed such that the array of tubes receives concentrated solar energy, each tube having a first inlet and a first outlet so as to define a first flow channel therebetween for conveying a working fluid, the first inlet configured to introduce the working fluid into the first flow channel from an inlet pipe, the first outlet configured to evacuate the working fluid from the first flow channel to an outlet pipe; and a second flow channel for conveying a cooling fluid in thermal contact with the tubes, the second flow channel being defined between a second inlet and a second outlet, wherein the cooling fluid conveyed by the second flow channel cools the working fluid conveyed by the first flow channel further comprising a controller configured to detect temperatures of the tubes and to control the flow of cooling fluid responsively thereto. 2. The receiver of claim 1, wherein the second flow channel is a conduit and the array of tubes is disposed within the conduit between the second inlet and the second outlet. 3. The receiver of claim 1, wherein the second flow channel is a conduit having a reflective interior wall and at least a portion of the array of tubes is disposed within the conduit. 4. The receiver of claim 1, wherein each tube includes a bed of elements disposed in the first flow channel thereof, the bed of elements including transparent, translucent, or at least partially opaque components. 5. The receiver of claim 4, wherein said bed of elements includes ceramic elements. 6. A solar receiver for a concentrating solar collection system, comprising: a receiver portion having an array of tubes, at least some of which are at least partially transparent, the receiver portion being disposed such that the array of tubes receives concentrated solar energy reflected from heliostats in the solar collection system, each tube having a first inlet and a first outlet so as to define a first flow channel therebetween for conveying a working fluid, the first inlet configured to introduce the working fluid into the first flow channel from an inlet pipe, the first outlet configured to evacuate the working fluid from the first flow channel to an outlet pipe; a second flow channel for conveying a cooling fluid in thermal contact with the tubes, the second flow channel being defined between a second inlet and a second outlet, the second flow channel being configured such that the cooling fluid conveyed by the second flow channel cools the working fluid conveyed by the first flow channel; and a controller configured to control a flow of cooling fluid through the second flow channel so as to regulate temperature of the array of tubes. 7. The solar receiver of claim 6, wherein said controller is configured to detect temperatures of the tubes and to control the flow of cooling fluid responsively thereto. 8. The solar receiver of claim 6, wherein said controller is configured to control the flow of cooling fluid so as to maintain a uniform temperature for the tubes. 9. The solar receiver of claim 6, wherein said controller is configured to control the flow of cooling fluid so as to maintain the temperatures of the tubes below a predetermined maximum value. 10. A concentrating solar collection system comprising: a plurality of heliostats, each heliostat being configured to track the sun and reflect incoming solar radiation; a solar receiver arranged in a tower, the plurality of heliostats being arranged around at least a portion of the tower so as to direct reflected solar radiation onto the solar receiver, the solar receiver including: an array of tubes, at least some of which are at least partially transparent, each tube having a first inlet and a first outlet so as to define a first flow channel therebetween for conveying a working fluid, the first inlet configured to introduce the working fluid into the first flow channel from an inlet pipe, the first outlet configured to evacuate the working fluid from the first flow channel to an outlet pipe the array of tubes receiving the reflected solar radiation so as to heat the working fluid conveyed through each first flow channel; and a second flow channel for conveying a fluid in thermal contact with the tubes, the second flow channel being defined between a second inlet and a second outlet and configured such that the fluid conveyed by the second flow channel cools the working fluid conveyed by the first flow channel; and a controller configured to control flow of fluid through the second flow channel so as to regulate temperature of the array of tubes. 11. The solar collection system according to claim 10, further comprising an electric power generating plant configured to generate electricity from heat stored in the working fluid conveyed through each first flow channel. 12. The solar collection system according to claim 10, wherein the second flow channel is defined by a housing, which surrounds said array of tubes. 13. The solar collection system according to claim 12, wherein said housing is a cylindrical housing. 14. The solar collection system according to claim 12, wherein said housing is a terraced conical housing having terraced surfaces, each terraced surface having a surface normal aimed at one of the plurality of heliostats.

이 특허에 인용된 특허 (66) 인용/피인용 타임라인 분석

Mountain John F. (Inverness FL), Automatic solar collector system.
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Gonder Warren W. (440 Horseshoe Dr. Grants Pass OR 97526), Collection of solar energy.
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Jacob Robert I. (614 N. Palmetto Ct. DeLand FL 32720) Jacob Paul E. (Rte. 2 ; Box 658-D DeLand FL 32720), Dual phase solar water heater.
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Braun Minel J. (Akron OH), Oil field steam production and use.
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Swanson William A. (2485 S. W. Elmhurst Beaverton OR 97005), Omnidirectional solar collector.
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Cordaro, James F., Paint solar cell and its fabrication.
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Posnansky Mario (Melchenbhlweg 18 3006 Bern (Canton of Berne) CHX) Kriesi Ruedi (Mhlebhl 1 9100 Herisau (Canton of Appenzell) CHX), Process and apparatus for heating a transparent, gaseous medium by means of concentrated solar radiation.
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Frazier Wallace N. (15919 Notting Hill Dr. Lutz FL 33549), Roof-mounted solar collector device.
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Holl Richard A. (25672 Taladro Cir. B ; Mission Viejo CA 92691), Shell and tube heat transfer apparatus and process therefor.
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Walton Robert N. (Nerang AUX), Solar absorber assemblies.
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Binner Tihamer S. (304 West Point Ave. Somerset NJ 08873), Solar and standby fireplace system.
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Parker Robin Z. (Miami FL) Hanrahan Robert J. (Gainesville FL) Cox John D. (Gainesville FL), Solar augmented power system.
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Litwin, Robert Z., Solar central receiver with inboard headers.
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Torobin, Leonard B., Solar collector comprising transparent hollow plastic microspheres as insulation material.
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Tuck John W. (01 Squam Hill Ct. Rockport MA 01966), Solar collector for heating air.
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Lucassen Wilhelmus H. P. (Eindhoven NLX), Solar collector unit.
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Heyen ; Wilfred L. ; Olinger ; Keith D., Solar energy absorbing body and collector.
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Harvey ; Lawrence, Solar energy collector.
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Kellberg Howard E. (Corning NY) Wilder Arthur H. (Corning NY), Solar energy collector.
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Niedermeyer William P. (1024 Mt. Mary Dr. Green Bay WI 54301), Solar energy collector.
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Roark Charles F. (24 Maple La. Brownsburg IN 46112), Solar energy collector.
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Cohen Simon S. (Dr. Paizer St. No. 10/31 Haifa ILX), Solar energy collector and method of solar energy collection.
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Torobin Leonard B. (Materials Technology Corp. ; Box 6844 Bellevue WA 98007), Solar energy collector having hollow microspheres.
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Holland Larry D. (Dallas TX), Solar energy heat storage and transfer system.
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Moratalla Jose M. (P.O. Box 2603 Dunedin FL 34697-2603) Yoho Robert W. (5812 Toucan Pl. Clearwater FL 34620) Glueck Richard L. (1102 62nd St. South Pasadena Estates FL 33707), Solar energy system.
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Yogev, Amnon, Solar energy system with direct absorption of solar radiation.
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Steutermann Edward M. (1332 S. Second St. Louisville KY 40208), Solar heat collector control device.
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Wilson William J. (136 Cockburn St. Masterton NZX), Solar heaters.
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Waschow Dale T. (Rte. 2 ; Box 79 B Eagle WI 53119), Solar heating apparatus with solar heat receiving means and heat storage and distribution means.
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Meckler Milton (16348 Tupper St. Sepulveda CA 91348), Solar lighting space and water heating system.
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Williams Douglas J. (P.O. Box 55083 Valencia CA 91355), Solar panel.
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Wiener Murray (Akron OH), Solar receiver with interspersed panels.
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[미국특허] High temperature solar receiver 원문보기

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[미국특허] High temperature solar receiver 원문보기

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