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Apparatus and method for high-efficiency fixed-focus concentrating solar thermal power plant

A technology for solar energy and power plants, applied in the field of concentrated solar thermal power plants, can solve the problems of large average optical cosine loss, harmfulness, and low overall cost.

Inactive Publication Date: 2019-06-11
E CUBE ENERGY INC
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, conventional tower systems have some disadvantages compared to conventional movable target systems,: 1) The average light cosine loss is large, since both reflectors and receivers are rarely in line with the sun; this loss can be as large as a tower solar thermal power plant 23%, and even large in linear Fresnel plants; 2) in the case of tower solar thermal plants, in order to keep this solar concentration ratio large, the overall cost is low enough, a large number of reflector fields is necessary, e.g., usually Hundreds or thousands of reflectors, so that the light attenuation is very significant in the air, which is extremely harmful in places with turbid atmosphere (or light concentration by particles in the atmosphere); 3) In the case of 1D, compared to 1D trough collector (with moving target), the actual optical concentration ratio is greatly reduced

Method used

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  • Apparatus and method for high-efficiency fixed-focus concentrating solar thermal power plant
  • Apparatus and method for high-efficiency fixed-focus concentrating solar thermal power plant
  • Apparatus and method for high-efficiency fixed-focus concentrating solar thermal power plant

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Embodiment Construction

[0087] About 1-D and 2-D solar thermal power plants (or 1-D and 2-D fixed-object thermal solar power plants) can be made with reference throughout this disclosure. But it should be understood that the one-dimensional case is a pointer for a fixed-target solar thermal plant, where sunlight is focused on a long and narrow receiver, ie, a receiver which has the appearance of lines when viewed from a distance. In the one-dimensional case, sunlight is usually concentrated on a theoretical line by the reflector of the concentrator module used (or by a single reflector if no concentrator module is used). The theoretical line may generally correspond to the center line of the receiver used.

[0088] It should be further understood that the 2-dimensional case refers to a fixed-target solar thermal plant where sunlight is focused on a two-dimensional target area or surface, e.g., an area of ​​the site which is typically not substantially larger in one direction than the other vertically...

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Abstract

The present invention provides a fixed target solar thermal tower design utilizing a small number, such as 5 to 30, of concentrator modules (32, 172, 191) mounted on a solar tracking mechanism. The concentrator module may be rotatable so as to reflect sunlight incident on a target receiver (1200, 192) mounted on a tower (31, 171) and be used for substantially all of a given tower's The concentrator modules of can be located in a rectangular area extending polarly from the tower for a distance approximately three times the height h of the target receiver, and a width of approximately h. Each concentrator module may have a plurality of angled reflectors (42, 43, 194, 201, 202, 203) to reflect incident light generally toward a common point on the target receiver. Multiples of these solar thermal tower plants can be matched and combined to provide higher total power output.

Description

[0001] Cross References to Related Applications [0002] This application claims the benefit of 2 U.S. priority claims, U.S. Provisional Patent Application 61 / 814,765, filed April 22, 2013, and U.S. Provisional Patent Application 61 / 892,660, filed October 18, 2013, All of them are hereby incorporated by reference. [0003] Technical area [0004] The invention relates to a concentrating solar thermal power plant. In particular, in certain embodiments, the present invention proposes novel variable concentration ratio solar collectors with tracking mechanisms and 1-D or 2-D modular fixed thermal receivers and their geometries . These configurations provide high heat conversion efficiencies. Background technique [0005] Solar thermal conversion involves the redirection of solar radiation to a large area site such that the redirected solar radiation strikes a smaller thermal receiver. Redirection of sunlight is most commonly achieved with a large number of reflectors. Th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02S20/30F24S20/20F24S50/20
CPCY02E10/47F24S20/20F24S50/20F24S30/452F24S2020/11F24S2023/874Y02E10/50
Inventor 项晓东吴露
Owner E CUBE ENERGY INC
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