Trombe wall with comprehensive application of solar heat collection and radiation refrigeration

A technology of solar heat collection and radiant cooling, which is applied to solar collectors, solar collectors for specific environments, and solar thermal energy, etc., can solve the problems of difficulty in cooling and lack of aesthetics, and achieves reduction of convective heat transfer and great promotion value. , the effect of broadening the application field

Active Publication Date: 2014-05-14
UNIV OF SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to solve the shortcomings of traditional Trombe walls that are difficult to cool in summer and not beautiful enough, the present invention proposes a Trombe wall that can simultaneously satisfy heating in winter and cooling in summer and take into account the beauty of solar heat collection and radiation cooling.

Method used

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  • Trombe wall with comprehensive application of solar heat collection and radiation refrigeration
  • Trombe wall with comprehensive application of solar heat collection and radiation refrigeration
  • Trombe wall with comprehensive application of solar heat collection and radiation refrigeration

Examples

Experimental program
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Effect test

Embodiment 1

[0024] see figure 1 , a Tromb wall for comprehensive application of solar heat collection and radiant cooling includes heat collection and storage walls 3 and transparent cover plates parallel to each other, and the space between the heat collection and storage walls 3 and the transparent cover is an air flow channel 4 ; The upper part between the heat collecting and storing wall 3 and the transparent cover is provided with an outdoor upper vent 5, and the lower part is provided with an outdoor and lower vent 6; the upper part of the heat collecting and storing wall 3 is provided with an indoor upper vent 9, and the lower part is provided with There are indoor lower air vents 10 . The outdoor upper vent 5 and the indoor upper vent 9 correspond to each other, the outdoor upper vent 5 is equipped with an outdoor upper baffle 7, and the indoor upper vent 9 is equipped with an indoor upper baffle 11; the outdoor lower vent 6 and the indoor lower The vents 10 correspond to each ot...

Embodiment 2

[0029] One side of the blade of the venetian blind 2 is coated with black chrome coating, and its structure is the same as embodiment 1;

[0030] Such as image 3 As shown, at night in winter, all indoor and outdoor baffles are closed, so that all vents are closed, the side of the blades coated with black chrome coating on the blinds 2 faces outward, and the blinds 2 are lowered to the outside through the infrared band. The heat dissipated by external radiation, and the heat stored in the thermal storage wall 3 during the day is slowly introduced into the room for heating through heat conduction.

Embodiment 3

[0032] The other side of the blade of the blind 2 is coated with a polyvinyl fluoride coating, and its structure is the same as that of embodiment 1;

[0033] Such as Figure 4 As shown, during daytime in summer, open the outdoor upper baffle plate 7 and the outdoor lower baffle plate 8, make the outdoor upper air vent 5 and the outdoor lower air vent 6 be in an open state, and simultaneously close the indoor upper baffle plate 11 and the indoor lower baffle plate 12. Keep the indoor upper vent 9 and the indoor lower vent 10 in a closed state; the other side of the blade coated with polyvinyl fluoride coating on the venetian blind 2 faces outward, so that the solar radiation energy projected on the surface during the day is extremely large. Part of it is reflected back to reduce the absorbed solar radiation energy, and at the same time, it uses its high emissivity in the atmospheric window band of 8-13 μm to conduct radiation heat exchange with the outer space with extremely l...

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Abstract

The invention relates to a Trombe wall with the comprehensive application of solar heat collection and radiation refrigeration. The Trombe wall comprises a transparent cover plate, a heat collection and storage wall, an air flow channel, upper ventilation openings, lower ventilation openings and baffles. The transparent cover plate is made of full-wave band high transmittance material. A venetian blind is arranged on the inner side face of the transparent cover plate, one side faces of slats of the venetian blind are coated with selective absorbing coatings, and absorptivity of the coatings ranges from 90% to 95% within the solar radiation wave band ranging from 0.2 micrometer to 3 micrometers. The other side faces of the slats of the venetian blind are selective radiation surfaces, emissivity of the selective radiation surfaces ranges from 80% to 90% within the atmospheric window wave band ranging from 8 micrometers to 13 micrometers, and emissivity of the selective radiation surfaces ranges from 60% to 90% within other wave bands. The Trombe wall can heat a room in the daytime and preserve heat of the room at night in winter, and can reduce heat loads of the room in the daytime and refrigerate the room at night in summer, and therefore the problem that a traditional Trombe wall can only heat the room and is single in function is solved; the defect that the appearance of the traditional Trombe wall is not attractive enough is overcome due to the utilization of the venetian blind attractive in appearance.

Description

technical field [0001] The invention belongs to the field of energy utilization technology, and specifically relates to the application of solar heat collection and radiation refrigeration. Background technique [0002] Scholars at home and abroad have made nearly half a century of research progress on Trombe wall technology. It is named after the French professor Felix Trombe who first proposed this concept in 1966. The traditional Trombe wall is mainly composed of a transparent cover plate, heat collection and storage wall, air flow channel, upper and lower vents and baffles. Its working principle is: during the day, the blackened outer surface of the heat-collecting and heat-storage wall is used to absorb solar energy, and the cold air in the room enters the air channel between the transparent cover plate and the heat-collecting and heat-storage wall through the thermosiphon effect to be heated. The hot air flows into the room through the upper vent for heating, and at t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/74E04B2/00F24J2/20F24S10/50
CPCF24S20/66Y02B10/20Y02E10/40
Inventor 裴刚胡名科张龙灿季杰
Owner UNIV OF SCI & TECH OF CHINA
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