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A cascaded pulse tube refrigerator for recovering sound work

A pulse tube refrigerator, cascading technology, applied in refrigerators, gas cycle refrigerators, refrigeration and liquefaction, etc., can solve the problems of ineffective energy saving, low efficiency of the whole machine, dissipation, etc., to improve efficiency , the effect of large use of space

Active Publication Date: 2016-01-20
ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the thermally coupled two-stage pulse tube refrigerator in the existing invention, in order to obtain better performance of the first-stage pulse tube refrigerator, the second-stage pulse tube refrigerator is used to precool the return of the first-stage pulse tube refrigerator. Although this structure can reduce the minimum temperature that the first-stage pulse tube refrigerator can reach and improve the performance of the first-stage pulse tube refrigerator, the two-stage pulse tube refrigerator requires two compressor units , and their respective sound powers are dissipated in their corresponding phase-modulating components (inertial tubes, gas reservoirs), so the efficiency of the whole machine is relatively low, which cannot effectively save energy consumption and improve efficiency

Method used

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  • A cascaded pulse tube refrigerator for recovering sound work
  • A cascaded pulse tube refrigerator for recovering sound work
  • A cascaded pulse tube refrigerator for recovering sound work

Examples

Experimental program
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Effect test

Embodiment 1

[0031] use figure 1The structure shown is a cascaded pulse tube refrigerator that recovers sound work, including a main stage pulse tube refrigerator unit PTU1 and an auxiliary stage pulse tube refrigerator unit PTU2, and the primary stage pulse tube refrigerator unit PTU1 includes a main stage compressor Machine C1, main-stage aftercooler HX1, main-stage regenerator RG1, main-stage cold-end heat exchanger HX2, main-stage pulse tube PT1, and main-stage hot-end heat exchanger HX3. Auxiliary pulse tube refrigerator unit PTU2 includes auxiliary aftercooler HX4, auxiliary regenerator RG2, auxiliary cold end heat exchanger HX5, auxiliary pulse tube PT2, auxiliary hot end heat exchanger HX6 and phase modulation Element R. The primary heat exchanger HX3 is connected to the secondary aftercooler HX4 through the transfer pipe TP. The auxiliary cold end heat exchanger HX5 cools the primary heat regenerator RG1 through the thermal bridge TB. The main stage regenerator RG1 is composed ...

Embodiment 2

[0044] use figure 2 The difference between the shown structure and Embodiment 1 is that the cascaded pulse tube refrigerator for recovering sound work can remove the transfer pipe TP, remove the main-stage hot-end heat exchanger HX3 or the auxiliary-stage after-cooler HX4, and other The structure remains unchanged, and this structure can also recover part of the sound power.

[0045] This invention can also connect N auxiliary pulse tube refrigerator units in sequence without a transfer tube, and so on, and can form a system with N auxiliary pulse tube refrigerator units, where N is generally greater than or equal to 2 and less than An integer equal to 10, each auxiliary stage pulse tube refrigerator unit, including auxiliary stage aftercooler, auxiliary stage regenerator, auxiliary stage cold end heat exchanger auxiliary stage, pulse tube, auxiliary stage hot end heat exchanger, Among the two auxiliary-stage pulse tube refrigerator units connected in sequence, the auxiliary...

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Abstract

The invention discloses a cascading-type pulse tube refrigerator capable of recycling sound power. The cascading-type pulse tube refrigerator comprises a master grade pulse tube refrigerator unit, a conveying tube, an auxiliary grade pulse tube refrigerator unit and a heat bridge, wherein the master grade pulse tube refrigerator unit, the conveying tube, the auxiliary grade pulse tube refrigerator unit and the heat bridge are sequentially connected. An auxiliary grade rear cooler of the auxiliary grade pulse tube refrigerator unit and a master grade hot end heat exchanger of the master grade pulse tube refrigerator unit are connected through the conveying tube so as to recycle the sound power. According to the cascading-type pulse tube refrigerator capable of recycling the sound power, an auxiliary grade cold end heat exchanger of the auxiliary grade pulse tube refrigerator unit is connected with a master grade heat regenerator of the master grade pulse tube refrigerator unit through the heat bridge, and the extra refrigerating capacity obtained by the recycled sound power is used for precooling a certain portion of the master grade heat regenerator so as to reduce the temperature of a working medium of the master grade pulse tube refrigerator unit; compared with a traditional pulse tube refrigerator, efficiency of the cascading-type pulse tube refrigerator can be remarkably improved; the cascading-type pulse tube refrigerator has good application prospects on the occasion where the large refrigerating capacity, the high efficiency and the long service life are required.

Description

technical field [0001] The invention relates to a pulse tube refrigerator, in particular to a cascaded pulse tube refrigerator for recovering sound work. Background technique [0002] The pulse tube refrigerator was first proposed by Professor Gifford and Longswoth in the United States. Because it has no moving parts at low temperature and avoids problems such as sliding seals and mechanical wear, it is expected to become a low-cost, low-vibration, high-reliability, long-life cryogenic refrigerator. Refrigerators are widely used. With the proposal and successful application of phase modulation structures such as small-hole gas storage, two-way air intake, and inertial tubes, the cooling temperature of pulse tube refrigerators has been continuously reduced, and the cooling capacity and cooling efficiency have also been greatly improved, approaching or even under certain working conditions. It exceeds the traditional regenerative low-temperature refrigerator (such as: G-M ref...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25B9/14
CPCF25B9/145F25B9/10F25B2309/1408F25B2309/1413F25B2309/1424
Inventor 甘智华吴镁王龙一刘东立朱佳凯陶轩邓皓仁刘雨梦孙潇
Owner ZHEJIANG UNIV
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