Residential solar thermal power plant
a solar thermal power plant and residential technology, applied in the field of solar thermal energy systems, can solve the problems of high cost, insignificant proportion of per capita energy supply, and available solar collectors/concentrators, and achieve the effect of reducing the cost of l
Inactive Publication Date: 2010-12-30
LAWRENCE LIVERMORE NAT SECURITY LLC
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Benefits of technology
[0016]Since there is little in the current configuration that incurs additional cost relative to those well known in the SEGS plants, it is possible to estimate the cost of electricity by scaling the conventional SEGS cost by the inverse of the relative efficiency factor from Table 1. Assuming no significant increase in capital costs, the Levelized Electricity Cost (LEC) is estimated to be cut from 10¢/kWh to 6¢/kWh. In the residential application, the economic value of the heating derived from the cooling water feed to the steam engine can be estimated based on the quantity of avoided heating f
Problems solved by technology
Despite over a century of attempts to make solar power commercially viable, solar energy currently makes up an insignificant proportion of per capita energy supply.
This has been due primarily to performance and cost inefficiencies of existing solar energy collectors, concentrators, and interfaces to heat storage media which have prevented widespread adoption and use for commercial and residential applications.
This cost is much greater than the cost to generate electricity by burning coal, which is approximately 3¢/kWh.
One particular limitation of currently available solar collectors/concentrators, however, is their relatively low thermal gather
Method used
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A. Solar Thermal Aircraft
[0050]Reference numerals used in the following description for the solar thermal aircraft are listed in Table 2.
TABLE 2100Solar thermal powered aircraft102Wing103Fuselage104Rudder105Elevator106Aileron107Transmission108Cooling air inlet channel109Propeller110Concentrator mirror111Ruddervator112Transparent fuselage skin113Back-reflector114Solar concentrator support115Solar concentrator drive motor116Heliostat117Heliostat Photovoltaic A118Heliostat Photovoltaic B119Heliostat Photovoltaic C120Heat collector121Antireflection coating122Heat collector envelope123Evacuated space124Heat collector coating125Stainless steel shell126Vapor phase sodium127Liquid phase sodium128Sodium condenser129Heat pipe130Thermal battery131Highly reflective vacuum shell132MLI (Multi-layer insulation) layers of highlyreflective material133LiH containment shell structure134Hydrogen& other dissociation products ofLiH135Spacers between MLI layers136Lithium hydride and lithium137Lithium impe...
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A high-efficiency residential solar thermal power plant for economically generating power from solar-thermal energy, using a parabolic trough mirror having a longitudinal focal axis, for concentrating sunlight, a timer rotator for rotating the mirror about the focal and longitudinal rotation axis to follow the sun, and a heat collector surrounding a flow channel that preferably has an oblong cross-sectional shape with a major axis aligned with a longitudinal plane of symmetry of the parabolic trough mirror. The heat collector is coaxially positioned along the focal axis of said mirror to receive concentrated sunlight so that a working fluid is heated and provided for use through an outlet end of the heat collector.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application is a continuation-in-part of prior application Ser. No. 10 / 835,665, filed Apr. 30, 2004, by Charles L. Bennett, and incorporated by reference herein.STATEMENT OF FEDERALLY SPONSORED DEVELOPMENT[0002]The United States Government has rights in this invention pursuant to Contract No. W-7405-ENG-48 between the United States Department of Energy and the University of California for the operation of Lawrence Livermore National Laboratory.FIELD OF THE INVENTION[0003]This invention relates to solar-thermal energy systems. In particular, the invention relates to a highly efficient residential solar thermal energy collection, storage, and utilization system having a parabolic trough-type solar concentrator rotatably mountable on a preferably fixed structure, such as a residential rooftop, and a tubular heat collector coaxially positioned to receive concentrated sunlight from the concentrator, with the concentrator and collector sha...
Claims
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Patent Timeline
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CPCB64D27/24F02G1/0435F02G2243/02F02G2254/30F24J2/0494Y02T50/62F24J2/14F24J2/5413Y02E10/44Y02E10/45Y02E10/47F24J2/055F24S70/65F24S30/428F24S23/74F24S10/45Y02T50/60Y02E10/40
Inventor BENNETT, CHARLES L.
Owner LAWRENCE LIVERMORE NAT SECURITY LLC
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