Jet type heat pump adopting multi-effect cascade ejecting mode and large pressure ratio vacuum pump

A jet heat pump and vacuum pump technology, applied in jet pumps, heat pumps, non-displacement pumps, etc., can solve the problems of low ejection ratio, high energy consumption, increased fluid pressure, etc. The effect of expanding the field of application

Inactive Publication Date: 2012-05-02
BEIJING ZHONGKE HUAYU ENERGY TECH DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The purpose of the present invention is to overcome the deficiencies of the prior art, and propose a jet heat pump and a high-pressure-ratio vacuum pump using a multi-stage cascade ejection method, which can greatly reduce the irreversible loss of the ejector, and achieve high-pressure-ratio Under the circumstances, the injection ratio of the low-pressure fluid is greatly increased and the pressure of the mixed fluid with the driving fluid is greatly increased, which creatively solves the low injection ratio of the jet heat pump and vacuum pump that applies the ejector technology to the condition of large pressure ratio and technical problems of high energy consumption

Method used

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  • Jet type heat pump adopting multi-effect cascade ejecting mode and large pressure ratio vacuum pump
  • Jet type heat pump adopting multi-effect cascade ejecting mode and large pressure ratio vacuum pump
  • Jet type heat pump adopting multi-effect cascade ejecting mode and large pressure ratio vacuum pump

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Effect test

Embodiment 1

[0023] Embodiment 1: A jet heat pump and a vacuum pump with a large pressure ratio using a multi-stage cascade injection method with a two-stage structure, such as figure 2 As shown, this embodiment adopts a cascade structure in which two stages are connected in series and parallel and drives the fluid to perform work in stages, including the first-stage injector 1, the last-stage injector 8, and the last-stage flow distributor 9 connected sequentially in a cascaded manner; Both the first-stage injector 1 and the last-stage injector 8 are composed of an inlet section 3 with nozzles, a mixing section 4, a throat 5 and a diffuser section 6 connected in sequence, and the last-stage flow distributor 9 has a final-stage mixing guide. The outlet 37 and the mixed fluid outlet 10, the first-stage injection port 12 of the first-stage injector 1 is connected with the last-stage mixing outlet 37 of the last-stage diffuser section 36 of the last-stage injector 8 through the last-stage inj...

Embodiment 2

[0026] Embodiment 2: A jet heat pump and a vacuum pump with a large pressure ratio using a multi-stage cascade injection method with a three-stage structure, such as image 3 As shown, the difference between Embodiment 2 and the above-mentioned Embodiment 1 is that an intermediate-stage injector structure is added, and the fluid inlet and outlet processes of each stage are adjusted accordingly. The specific adjustments are as follows: Cascade first-stage injector 1 The first-stage diffuser section 6 of the first stage is first connected with the inlet section of the cascade-type intermediate-stage injector 7, and then connected with the inlet section of the cascade-type final-stage injector 8 after passing through the intermediate-stage diffuser section 26, and the cascade-type final-stage 8, the final stage mixing outlet 37 of the final stage flow distributor 9 is connected with the intermediate stage injection port 21 of the cascade intermediate stage 7 through the final inje...

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Abstract

The invention relates to a jet type heat pump adopting a multi-effect cascade ejecting mode and a large pressure ratio vacuum pump and belongs to the fields of industrial waste heat recovery and vacuum pumps. The jet type heat pump and the large pressure ratio vacuum pump adopt a multi-effect cascade structure which is in multi-level series-parallel connection and drives fluid to perform grading work; the structure comprises a first-level ejector, a last-level ejector and a last-level flow distributor, wherein the first-level ejector, the last-level ejector and the last-level flow distributor are in cascaded connections in turn; the first-level ejector and the last-level ejector are respectively formed by an inlet section with a nozzle, a mixed section, a throat section and a diffusion section which are connected in turn; the last-level flow distributor is provided with a last-level mixed outlet and a mixed fluid outlet; and a first-level ejecting opening of the first-level ejector is connected with the last-level mixed outlet of the diffusion section of the last-level ejector through an ejecting connecting pipe. In the jet type heat pump adopting the multi-effect cascade ejecting mode and the large pressure ratio vacuum pump, the new designed multi-effect cascade ejecting mode is adopted, so that the ejecting rate is greatly improved; the total ejecting rate is improved above 2-5 times. The multi-effect cascade ejecting mode can be used for a high-efficient large pressure ratio ejecting type heat pump and the vacuum pump.

Description

technical field [0001] The invention belongs to the technical field of industrial waste heat recovery and vacuum pumps, and in particular relates to a jet heat pump and a high pressure ratio vacuum pump adopting a multi-effect cascade injection mode. Background technique [0002] The ejector technology has a wide range of application fields, including using steam, other high-pressure gases and liquids as the driving fluid to directly inject and mix two fluids with different pressures and generate a mixed fluid of intermediate pressure for downstream process applications, using injection of low-pressure gas Various types of vacuum pumps that produce vacuum effects due to their characteristics. In thermal power plants, steam ejectors are used in thermal power plants to extract steam at medium pressure from steam turbines as the driving fluid to eject exhaust from low-pressure steam turbines and use them for heat supply. In theory, good energy-saving effects can be obtained. Th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25B30/06F04F5/22
CPCY02P80/15
Inventor 张茂勇张军
Owner BEIJING ZHONGKE HUAYU ENERGY TECH DEV
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