Fixed dot array solar heat pipe utilizing system

A technology of solar heat pipes and fixed points, applied in the field of solar energy utilization, can solve the problems of low solar energy collection efficiency, inability to adapt to needs, and large scale, and achieve the effects of overcoming low solar energy collection time, improving utilization time and efficiency, and improving tracking efficiency

Inactive Publication Date: 2013-09-18
CHENGDU AONENGPU TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The tower system uses a solar mirror as a heliostat, and focuses multiple solar reflectors on a heat pipe utilization system. Due to the characteristics of tower solar energy collection, the utilization time of some solar mirrors in the tracking solar process is only 4 -6 hours, for example, the solar mirror on the east side of the tower is basically unusable in the morning, and can only be used after noon or afternoon, so the efficiency of solar energy collection is low. This technical solution can achieve high-temper

Method used

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  • Fixed dot array solar heat pipe utilizing system
  • Fixed dot array solar heat pipe utilizing system
  • Fixed dot array solar heat pipe utilizing system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0064] Example 1: A fixed-point array solar heat pipe utilization system composed of 4 solar mirrors and 3 heat pipe utilization systems

[0065] as attached figure 1 , 2 , the fixed-point array solar heat pipe utilization system composed of 4 solar mirrors and 3 heat pipe utilization systems shown in 3, figure 1 , 2 , 3 are the collection and utilization of solar energy in the morning, noon and afternoon respectively, figure 1 In the morning, the sun rises from the east, solar mirrors 1, 2, and 3 focus the solar energy on the heat pipe utilization system 1, 2, and 3 respectively, realizing the tracking and focusing of solar energy; figure 2 At noon, the sun is located in the central area of ​​the sky, No. 1 and No. 4 solar mirrors focus the solar energy on No. 1 and No. 3 heat pipe utilization systems respectively, and No. 2 and No. 3 solar mirrors focus on No. 2 solar storage equipment to realize the tracking and focusing of solar energy; image 3 In the afternoon, when...

Embodiment 2

[0066] Embodiment 2: A fixed-point array solar heat pipe utilization system composed of 12 solar mirrors and 6 heat pipe utilization systems

[0067] This example Figure 4 The fixed-point array solar heat pipe utilization system shown is composed of 12 solar mirrors and 6 heat pipe utilization systems. The 12 solar mirrors are arranged in an array of three rows and four columns, and the six heat pipe utilization systems are arranged in an array of three rows and two columns. Arrangement, the heat pipe utilization system is respectively arranged in the middle area of ​​the three rows of solar mirrors.

[0068] In different time periods of morning, noon, and afternoon, solar mirrors 1-12 can choose different heat pipes from 1-6 to focus, and according to the actual solar collection efficiency, select different focus points for focusing, in different For solar mirrors No. 1-12 in the position, the selection of heat pipe utilization systems that can be focused is also different....

Embodiment 3

[0071] Embodiment 3: 1*3 parabolic fixed-point array solar tracking heat pipe utilization system

[0072] as attached Figure 5As shown, this embodiment adopts three parabolic dish solar mirrors (2), which are arranged on a parabolic connecting part, and each solar mirror is provided with two rotating shafts, that is, the horizontal axis and the vertical axis. The horizontal axis and the vertical axis intersect perpendicularly to form a system axis, and each solar mirror is connected to a parabolic connecting part through a system axis. This embodiment consists of three system axes arranged on the connecting parts and a support connected to the ground The solar mirror bracket, the connecting parts do not move, but the three system axes move, the solar tracking control device is set to connect with each system axis, and physical and optical sensors are set on each solar mirror (2), the solar tracking control device is The integrated electronic control device composed of motor,...

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PUM

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Abstract

The invention relates to solar energy focusing utilization, in particular to a fixed dot array solar heat pipe utilizing system which is used for realizing solar energy collection by solar mirrors adopting dot focusing The system comprises at least one solar mirror or one group of solar mirrors adopting dot focusing, at least one heat pipe utilizing device and a tracking control device, wherein the solar mirrors are arranged on a solar mirror bracket, the heat pipe utilizing device is arranged in a dotted region focused by the solar mirrors and arranged above or below the solar mirrors, and the focus lengths of the solar mirrors vary in the solar tracking process and are always kept in the dotted regions of the heat pipe utilizing devices; and the sunlight is focused by the solar mirrors to at least one heat pipe utilizing device under the control of the tracking control device when the sunlight varies, the heat pipe utilizing devices do not move with the solar mirrors in the solar tracking process of the solar mirrors, the heat pipe utilizing devices are kept static relative to the ground, and the tracking and focusing utilization of solar energy is realized.

Description

technical field [0001] The invention relates to the utilization of solar energy, in particular to a point-focused solar mirror to realize solar energy collection, and a point-focused converter to realize the focus and tracking heat pipe utilization system of solar energy, and relates to the focus and utilization of solar energy. Background technique [0002] The solar heat pipe utilization system uses solar focus tracking technology to realize high-temperature heat collection of solar energy, converts solar energy into thermal energy through heat pipes, and converts thermal energy into electrical energy through generator sets. Traditional solar focused thermal power generation is divided into three types: trough type, tower type, and dish type. [0003] There are mainly two types of solar point focusing utilization technologies: tower type and butterfly type. The dish type system uses solar mirrors to focus on a heat pipe utilization system. The dish system is considered to...

Claims

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Application Information

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IPC IPC(8): F24J2/32F24J2/06F24J2/38F24J2/40F24J2/48F24J2/52F24J2/46H02N6/00F24S10/95F24S23/00F24S50/20
CPCY02E10/44Y02E10/47
Inventor 李建民
Owner CHENGDU AONENGPU TECH
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