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Interstage cooling system of water-saving compressor

A compressor stage, cooling system technology, applied in mechanical equipment, machinery/engine, liquid variable capacity machinery, etc., can solve problems such as large water consumption, and achieve the effect of high heat exchange capacity

Active Publication Date: 2015-03-11
SHUANGLIANG ECO ENERGY SYST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Since all the cooling water of the system is cooled in the water cooling tower, the disadvantage of the existing interstage cooling system is that it consumes a lot of water

Method used

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  • Interstage cooling system of water-saving compressor
  • Interstage cooling system of water-saving compressor
  • Interstage cooling system of water-saving compressor

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] see figure 2 , figure 2 It is a schematic diagram of Example 1 for implementing the present invention. Depend on figure 2 It can be seen that the water-saving compressor interstage cooling system of the present invention is composed of a compressor front stage 1, an interstage cooler 2, a compressor rear stage 4, a first cooling water pump 5, and a water cooling tower 3. A cooling coil 2-1 is arranged in the interstage cooler 2, and the figure 1 The difference from the prior art shown is that in this embodiment 1, the cooling coil 2-1 in the interstage cooler 2 is divided into two parts, a high temperature zone A and a low temperature zone B, and an air cooling tower 6 is added to the system. With the corresponding second cooling water pump 9, the cooling water pipeline of the high temperature area A is connected with the air cooling tower 6, and the cooling water pipeline of the low temperature area B is connected with the water cooling tower; the cooling water o...

Embodiment 2

[0033] see image 3 , Example 2 is on the basis of Example 1, the water outlet pipe of the second cooling water pump 9 corresponding to the air cooling tower 6 is connected to the water inlet pipe of the low temperature zone B of the cooling coil 2-1, and the low temperature zone B is connected. The water outlet pipe is connected to the water inlet pipe of the high temperature zone A, and the first switching valve 7 (3 pieces in total) and the second switching valve 8 (2 pieces) are added, and the first switching valve 7 and the second switching valve 8 are opened to make the high temperature zone The cooling water of A and low temperature zone B is cooled in air cooling tower 6 and water cooling tower 3 respectively, or the first switching valve 7 and the second switching valve 8 are closed to make the cooling water of low temperature zone B and high temperature zone A connect in series The method is cooled in the air cooling tower 6, first entering the low temperature zone B...

Embodiment 3

[0035] see Figure 4 In Example 3, on the basis of Example 1, the return water pipe of the air cooling tower 6 and the water outlet pipe of the corresponding second cooling water pump 9 are respectively connected with the water outlet pipe and the water inlet pipe of the low temperature zone B of the cooling coil 2-1. Connect and add the first switching valve 7 (2 in total) and the second switching valve 8 (2) in the system pipeline, open the first switching valve 7 and close the second switching valve 8 to make the high temperature zone A and the low temperature zone The cooling water of B is cooled in the air cooling tower 6 and the water cooling tower 3 respectively, or the first switching valve 7 and the second switching valve 8 are closed to make the cooling water in the low temperature zone B and the high temperature zone A cool in the air in parallel. Cooling in tower 6.

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Abstract

The invention relates to an interstage cooling system of a water-saving compressor. The interstage cooling system comprises a compressor preceding stage (1), an interstage cooler (2), a compressor backward stage (4), a first cooling pump (5) and a water cooling tower (3), and a cooling coil (2-1) is arranged on the interstage cooler (2). The interstage cooling system of the water-saving compressor is characterized in that an air cooling tower (6) and corresponding second cooling water pump (9) are added to the system; the cooling coil (2-1) is partitioned into a high-temperature zone (A) and a low-temperature zone (B); a cooling water pipeline of the high-temperature zone (A) is connected with the air cooling tower (6); the cooling water pipeline of the low-temperature zone (B) is connected with the water cooling tower; and compressed air discharged from the compressor preceding stage (1) firstly passes through the high-temperature zone (A) of the cooling coil (2-1) and then enters the low-temperature zone (B) after entering the interstage cooler (2). The interstage cooling system of the water-saving compressor has the advantages that water resources can be saved.

Description

technical field [0001] The invention relates to an interstage cooling system of a compressor, which is mainly used in the interstage cooling process of large-scale compressors in air separation and other industries. Background technique [0002] In the air separation and other industries, the compressor for producing high-pressure air adopts the technical scheme of multi-stage compression and inter-stage cooling. At present, the inter-stage cooling method of large compressors is: using water as the coolant, the compressed air is cooled by the inter-stage cooler, and the cooled compressed air enters the next stage of the compressor for further compression; The cooling water is sent to the water cooling tower, and the heat is released to the atmosphere through the evaporation of the water in the water cooling tower; the cooling water is cooled and then enters the interstage cooler for recycling. This system composed of interstage coolers, water cooling towers, compressor pre-...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F04B39/06
Inventor 薛海君余喆
Owner SHUANGLIANG ECO ENERGY SYST CO LTD
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