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T-shaped component adjustment system driven by temperature difference for mixed working medium component adjustment

A mixed working medium and regulating system technology, which is applied in refrigeration components, compressors with reversible cycles, lighting and heating equipment, etc., can solve the highly dependent component adjustment and cannot realize the controllable adjustment and separation of non-azeotropic working medium Low efficiency and other problems, to achieve the effect of improving the separation efficiency of components

Active Publication Date: 2020-05-05
TIANJIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] For the above-mentioned existing T-shaped tube component adjustment technology, the purpose of the present invention is to overcome the following deficiencies in the prior art: one, the separation efficiency of the component separation of the non-azeotropic working medium in the above-mentioned prior art is relatively low; its Second, the composition adjustment is highly dependent on the working conditions at the inlet, and the controllable adjustment of the non-azeotropic working fluid cannot be realized

Method used

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  • T-shaped component adjustment system driven by temperature difference for mixed working medium component adjustment
  • T-shaped component adjustment system driven by temperature difference for mixed working medium component adjustment
  • T-shaped component adjustment system driven by temperature difference for mixed working medium component adjustment

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Embodiment 3

[0032] In Example 3, when the four-way reversing valve 5 is in state 1, the first heat exchanger 3 becomes the condenser of the heat pump system, providing a heat source for the T-shaped tube component separator 1; The second heat exchanger 7 becomes the evaporator of the heat pump system, and provides a cold source for the T-shaped tube component separator 1, at this time along the direction of the two mixed working medium outlets 1b and 1c of the T-shaped tube component separator A temperature difference is established; the control of the temperature difference is realized by controlling the compressor 4 . The single-phase or two-phase mixed working medium is passed into the mixed working medium inlet 1a of the T-shaped pipe component separator through a straight line, such as image 3 The direction indicated by the middle arrow flows into the impact-type T-shaped component regulating system, and then the mixed working fluid is impacted by the wall of the T-shaped tube compo...

Embodiment 4

[0039] In Example 4, when the four-way reversing valve 5 is in state 1, the first heat exchanger 3 becomes the condenser of the heat pump system, providing a heat source for the T-shaped tube component separator 1; The second heat exchanger 7 becomes the evaporator of the heat pump system and provides a cold source for the T-shaped tube component separator 1 , at this time, a temperature difference is established along the direction of the mixed working medium outlet of the T-shaped tube component separator 1 . A single-phase or two-phase mixed working medium is passed into the mixed working medium inlet 1a of the T-shaped pipe component separator through a straight line, such as Figure 4 The direction indicated by the middle arrow flows into the downstream T-shaped component adjustment system, and then at the branch of the pipeline, the mixed working fluid diverges, and the mixed working medium continues to flow along the original direction, that is, flows to the mixed workin...

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Abstract

The invention discloses a T-shaped component adjustment system driven by the temperature difference for mixed working medium component adjustment. The T-shaped component adjustment system is composedof a T-shaped pipe component separator and a temperature difference control system; the T-shaped pipe component separator is provided with a mixed working medium inlet and two mixed working medium outlets, and pipe sections of the two mixed working medium outlets of the T-shaped pipe component separator are provided with flow adjustment valves for adjusting the flow of a working medium correspondingly; and the temperature difference control system can be a heat pump system arranged between the pipe sections of the two mixed working medium outlets or is composed of two heat exchangers and a temperature difference generating part set arranged between the two heat exchangers, and the temperature difference generating part set is used for generating and maintaining the constant temperature difference in the two heat exchangers. According to the component adjustment system, the controlled temperature difference is constructed at the two outlets of the T-shaped pipe component separator through the temperature difference control system, and thus efficient and controlled component adjustment of the single-phase and multiphase mixed working medium flowing into the T-shaped pipe component separator is achieved.

Description

technical field [0001] The invention belongs to the technical field of adjusting mixed working fluid components in thermal cycles, and in particular relates to the efficient and controllable separation of mixed working fluid components in high-efficiency cycles based on non-azeotropic working fluids. Background technique [0002] In recent years, with the increasingly prominent problems of energy shortage and environmental degradation, renewable energy such as solar energy and geothermal energy have made great progress. The main technical means for their development and utilization include new power cycles represented by organic Rankine cycle and The vapor compression reverse cycle is the representative refrigeration / heat pump cycle. In order to realize the efficient conversion of various energy flows under variable working conditions, on the basis of traditional circulation, many scholars have introduced non-azeotropic mixed working fluids to reduce irreversible losses thro...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25B13/00F25B41/00F25B41/04F25B49/02F25B41/20F25B41/40
CPCF25B13/00F25B41/00F25B49/02F25B41/20
Inventor 赵力聂显铧邓帅张月卢培杜振宇
Owner TIANJIN UNIV