Solar energy heat-collection system utilizing vacuum tube matrix

A technology of solar energy and vacuum tubes, applied in the field of solar energy, can solve problems such as the inability to apply solar vacuum heat collection systems, the inability to realize the utilization rate of solar energy, and the inability to obtain high-quality heat energy.

Inactive Publication Date: 2012-05-09
卓卫民
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0013] The technical problem to be solved by the present invention is that the solar vacuum tubes in the prior art are fully connected in series or in parallel, or connected in series within a group and then connected in parallel, which cannot be applied to large-scale solar vacuum...

Method used

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  • Solar energy heat-collection system utilizing vacuum tube matrix
  • Solar energy heat-collection system utilizing vacuum tube matrix
  • Solar energy heat-collection system utilizing vacuum tube matrix

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Experimental program
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Effect test

Embodiment 1

[0052] Figure 5 Shown is the front view of the solar vacuum tube matrix heat collection system of the present invention, it can be seen from the figure that the solar vacuum tubes 1 are neatly arranged in a matrix, wherein the structure of the solar vacuum tubes 1 is shown in figure 1 As shown, it includes a glass outer tube 2, a glass inner tube 3, and a U-shaped metal heat-conducting tube 4 arranged inside the glass inner tube 3, and the glass outer tube 2 and the glass inner tube 3 are socketed; the U One end of the opening of the shaped metal heat pipe 4 is a medium inlet, and the other end of the opening is a medium outlet.

[0053] The solar vacuum tube matrix heat collection system group of the present invention is connected in parallel to form a tube group (for structure see figure 2 with image 3 ), the structural diagram of the series connection between the tube groups is shown in Figure 4 Shown in this figure is the transverse cross-sectional structure of the ...

Embodiment 2

[0060] In this embodiment, a solar vacuum tube 1 unit is also set between the water inlet main pipe 5 and the water outlet main pipe 6, and 300 solar vacuum tube tube groups 13 are arranged in this solar vacuum tube 1 unit, and each solar energy vacuum tube group 13 The vacuum tube groups 13 all have a water inlet main pipe 7 and a water outlet main pipe 8, and 300 solar vacuum pipe pipe groups 13 are connected in series. Connection, along the flow direction of the medium, the water outlet main pipe 8 of the 300th solar vacuum tube group 13 is connected to the water outlet main pipe 6 . In addition, along the flow direction of the medium, the water outlet main pipe 8 of the first solar vacuum tube group 13 is connected to the water inlet main pipe 7 of the second solar vacuum tube group 13 adjacent to it, and so on, the 299th The water outlet main pipe 8 of the solar vacuum tube group 13 is connected with the water inlet main pipe 7 of the 300th solar vacuum tube group 13.

...

Embodiment 3

[0066] In this embodiment, a solar vacuum tube 1 unit is also set between the water inlet main pipe 5 and the water outlet main pipe 6, and 150 solar vacuum tube tube groups 13 are arranged in the solar vacuum tube 1 unit, and each solar energy vacuum tube group 13 The vacuum tube groups 13 all have a water inlet main pipe 7 and a water outlet main pipe 8, and 150 solar vacuum pipe pipe groups 13 are connected in series. Connection, along the flow direction of the medium, the water outlet main pipe 8 of the 150th solar vacuum tube group 13 is connected to the water outlet main pipe 6 . In addition, along the flow direction of the medium, the water outlet main pipe 8 of the first solar vacuum tube group 13 is connected to the water inlet main pipe 7 of the second solar vacuum tube group 13 adjacent to it, and so on, the 149th The water outlet main pipe 8 of the solar vacuum tube group 13 is connected with the water inlet main pipe 7 of the 150th solar vacuum tube group 13.

[...

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Abstract

The invention discloses a solar energy heat-collection system utilizing a vacuum tube matrix, which comprises a water inlet main pipe and a water outlet main pipe both for medium circulation, and w solar energy vacuum tube units connected in parallel, wherein, each solar energy vacuum tube unit is respectively arranged between the water inlet main pipe and the water outlet main pipe and consists of N solar energy vacuum tube groups connected in series, a medium delivery pump and a temperature sensor; and each solar energy vacuum tube group is composed of M solar energy vacuum tubes of which the internal U-shaped metal pipes are connected in parallel, and is connected with the adjacent solar energy vacuum tube groups through the water inlet main pipe and the water outlet main pipe. The solar energy heat-collection system provided by the invention, which can collect heat with high efficiency and low cost, is suitable for the fields of industrial production, city heating, heat power generation and the like.

Description

technical field [0001] The invention relates to a solar vacuum tube matrix heat collection system, which belongs to the technical field of solar energy. Background technique [0002] Today's society advocates sustainable development, among which energy issues are the key issues restricting the sustainable development of human beings. As a source of energy, solar energy is inexhaustible and inexhaustible. The amount of solar radiation received by the earth every year is tens of thousands of times the total energy consumption of human beings. If this part of energy can be fully converted and utilized, it will be It will provide energy security for the sustainable development of mankind. Although a large number of R&D personnel have devoted a lot of creative labor to the utilization of solar energy, due to the low energy density and low quality of solar energy that humans can receive, it is still very difficult to directly utilize it on a large scale. [0003] At present, rel...

Claims

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Application Information

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IPC IPC(8): F24J2/05F24J2/24F24J2/48F24J2/40F24J2/30F24S10/30F24S10/40F24S10/70
CPCY02E10/44Y02P80/20
Inventor 卓卫民左丽卓宇轩袁儒正张亮魏稳高科熊一峰
Owner 卓卫民
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