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Composite dehumidification system based on transcritical carbon dioxide heat pump regeneration and application

A carbon dioxide, transcritical technology, applied in the field of composite dehumidification system, can solve the problems of high quality regenerative heat source, high energy consumption for regeneration, expensive equipment, etc., to improve dehumidification energy efficiency, reduce regeneration energy consumption, and reduce the total energy consumption of the system and the effect of the total investment

Pending Publication Date: 2022-07-22
SOUTHEAST UNIV +1
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The traditional wheel dehumidification technology has the characteristics of large dehumidification capacity and non-corrosiveness, but the regeneration heat source required by the wheel dehumidification technology requires high quality, expensive equipment per unit of dehumidification capacity, high regeneration energy consumption, and low economic efficiency.

Method used

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  • Composite dehumidification system based on transcritical carbon dioxide heat pump regeneration and application

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Embodiment Construction

[0026] The specific embodiments of the present invention will be described below with reference to the accompanying drawings.

[0027] like figure 1 As shown, the composite dehumidification system based on transcritical carbon dioxide heat pump regeneration in this embodiment includes a transcritical carbon dioxide heat pump and a dehumidification runner 10;

[0028] After the humid air is condensed and dehumidified at the cold end of the transcritical carbon dioxide heat pump, it enters the dehumidification zone 11 of the dehumidification rotor 10 and is discharged after adsorption and dehumidification;

[0029] After the regeneration air is heated and heated by the hot end of the transcritical carbon dioxide heat pump, it enters the regeneration zone 12 of the dehumidification rotor 10 to realize the regeneration of the hygroscopic agent.

[0030] Specifically, the cold end of the transcritical carbon dioxide heat pump is connected with the inlet of the dehumidification zon...

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Abstract

The invention relates to a compound dehumidification system based on transcritical carbon dioxide heat pump regeneration. The compound dehumidification system comprises a transcritical carbon dioxide heat pump and a dehumidification rotating wheel. Wet air is condensed and dehumidified through the cold end of the transcritical carbon dioxide heat pump, enters a dehumidification area of the dehumidification rotating wheel, is subjected to adsorption dehumidification and then is discharged; regenerated air is heated by the hot end of the transcritical carbon dioxide heat pump and then enters a regeneration area of the dehumidification rotating wheel to realize regeneration of the moisture absorbent. The invention further relates to application of the composite dehumidification system based on transcritical carbon dioxide heat pump regeneration in air dehumidification. The transcritical carbon dioxide heat pump and the dehumidification rotating wheel are combined, an evaporator of the transcritical carbon dioxide heat pump and the dehumidification rotating wheel are used for condensation and rotating wheel combined dehumidification on wet air, meanwhile, high-temperature heat energy of the transcritical carbon dioxide heat pump is used for heating rotating wheel regeneration air, and deep dehumidification in the high-humidity environment is achieved; the problems that a traditional dehumidification system is insufficient in efficiency and low in coupling performance are effectively solved.

Description

technical field [0001] The invention relates to the technical field of deep dehumidification, in particular to a composite dehumidification system and application based on transcritical carbon dioxide heat pump regeneration. Background technique [0002] A heat pump is a device that can efficiently collect heat and transfer heat. It consumes a small amount of high-grade energy and then thermally circulates it to move the heat from low temperature to medium high temperature. It has obvious energy-saving effect and is of great significance for the rational use of energy. The transcritical carbon dioxide heat pump, because of its transcritical cycle characteristics, has the characteristics of large temperature glide, and has a performance that surpasses the conventional heat pump in supplying high temperature heat energy. [0003] In the air, the volume ratio of water vapor is generally 0.01% to 0.03%. Although the water vapor content is very low, the humidity greatly affects t...

Claims

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Application Information

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IPC IPC(8): B01D53/26B01D53/06F25B30/02
CPCB01D53/06B01D53/261B01D53/265F25B30/02F25B2309/061B01D2259/4009B01D2257/80
Inventor 宋翼张小松潘晓惠薛鼎胡颖健朱军庄子谦
Owner SOUTHEAST UNIV
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