Method and control system for operating a solar power tower system
First Claim
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1. A method of controlling heliostats in a solar energy collection system, the method comprising:
- receiving, at one or more controllers, at least one sensor signal regarding a thermal state of a primary receiver, the at least one sensor signal being effective to indicate a thermal profile or a heat flux profile on a surface of the primary receiver, the primary receiver superheating steam therein using insolation incident on said surface;
calculating, by the one or more controllers, difference data responsive to a difference between said thermal state and a predetermined state for the surface of the primary receiver;
aiming heliostats so as to direct insolation at respective first aiming points on the surface of the primary receiver responsively to said different data;
after the aiming, repeating the receiving and the calculating;
after the repeating, re-aiming at least one of the heliostats so as to direct insolation at a different aiming point than the respective first aiming point responsively to the difference data resulting from the repeated calculating.
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Abstract
A solar energy collection system includes a primary solar receiver and a secondary solar receiver. The secondary solar receiver generates steam using energy from solar radiation incident thereon. The primary solar receiver receives the generated steam from the secondary solar receiver and superheats the steam using energy from solar radiation incident thereon. A plurality of heliostat-mounted mirrors reflects incident solar radiation onto one of the primary and secondary solar receivers. A controller aims a portion of the heliostat-mounted mirrors at the primary solar receiver such that a predetermined thermal profile is provided on a surface of the primary solar receiver.
91 Citations
14 Claims
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1. A method of controlling heliostats in a solar energy collection system, the method comprising:
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receiving, at one or more controllers, at least one sensor signal regarding a thermal state of a primary receiver, the at least one sensor signal being effective to indicate a thermal profile or a heat flux profile on a surface of the primary receiver, the primary receiver superheating steam therein using insolation incident on said surface; calculating, by the one or more controllers, difference data responsive to a difference between said thermal state and a predetermined state for the surface of the primary receiver; aiming heliostats so as to direct insolation at respective first aiming points on the surface of the primary receiver responsively to said different data; after the aiming, repeating the receiving and the calculating; after the repeating, re-aiming at least one of the heliostats so as to direct insolation at a different aiming point than the respective first aiming point responsively to the difference data resulting from the repeated calculating. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of controlling heliostats, by one or more controllers, in a solar energy collection system, the method comprising:
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periodically re-aiming first heliostats reflecting insolation at respective first aiming points on a surface of a superheating receiver so as to reflect insolation at different second aiming points responsively to data indicative of a deviation of a measured thermal or heat flux profile for the surface of the superheating receiver from a predetermined thermal or heat flux profile for the surface of the superheating receiver, wherein the superheating receiver superheats steam therein using reflected insolation incident on the surface thereof. - View Dependent Claims (11, 12, 13, 14)
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Specification
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Current AssigneeBrightSource Industries (Israel) Ltd (BrightSource Energy)
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Original AssigneeBrightSource Industries (Israel) Ltd (BrightSource Energy)
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InventorsGilon, Yoel, Kroizer, Israel, Kroyzer, Gil
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Primary Examiner(s)McAllister, Steven B
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Assistant Examiner(s)SAVANI, AVINASH A
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Application NumberUS13/192,858Publication NumberTime in Patent Office558 DaysField of Search126/600, 126/595, 126/572, 126/601, 126/643, 126/602, 353/3, 136/248, 136/246, 606/415US Class Current126/595CPC Class CodesF03G 6/06 with solar energy concentra...F03G 6/063 Tower concentratorsF24S 20/20 Solar heat collectors for r...F24S 2023/87 Reflectors layoutF24S 50/40 responsive to temperatureY02E 10/40 Solar thermal energy, e.g. ...Y02E 10/46 Conversion of thermal power...
