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Forcible dredging type tubular heat exchange device for sewage or surface water

A tubular heat exchange and surface water technology, applied in the direction of heat exchanger type, heat exchanger shell, indirect heat exchanger, etc. Due to the large amount of steel consumption in the structure and other problems, the effects of small leakage accidents, high efficiency heat exchange without clogging, and high pressure bearing capacity are achieved.

Active Publication Date: 2013-04-24
青岛科创蓝新能源股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] The purpose of this invention is to provide a forced dredging tubular heat exchange device for sewage or surface water, in order to solve the problem that the plate structure of the existing sewage heat exchange device has insufficient pressure bearing capacity, serious water leakage accidents, and the casing structure consumes a lot of steel etc., as well as the blockage of suspended solids at the nozzle of the tubular structure, the retention of suspended solids and impurities in the flow channel of the plate-type wide channel structure, etc.

Method used

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  • Forcible dredging type tubular heat exchange device for sewage or surface water
  • Forcible dredging type tubular heat exchange device for sewage or surface water
  • Forcible dredging type tubular heat exchange device for sewage or surface water

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specific Embodiment approach 1

[0034] Specific implementation mode one: as Figure 1-Figure 14 As shown, a forced dredging tubular heat exchange device for sewage or surface water in this embodiment includes a flow channel separation device 1, a plurality of heat exchange tubes 2, a shell 3, a left tube plate 4, a right tube plate 5, Left header 6, right header 7, left head 8, right head 9, multiple shell baffles 10, multiple shell inner diaphragms 11, multiple transverse diaphragm holes 12, multiple headers Baffle plate 13, multiple header dredging devices 14, multiple head baffles 15, header flange 16, head flange 17, sewage or surface water outlet 19, heat exchange medium inlet 20, heat exchange medium Outlet 21, shell side area 35, left tube side area 36, ​​right tube side area 37, dredging area 38; the flow channel separation device 1 includes a flow channel separation shell 23, a plurality of flow channel separation plates 24, a plurality of separation Flow channel 25, multiple flow channel separatio...

specific Embodiment approach 2

[0035] Specific implementation mode two: as Figure 12 As shown in the specific embodiment 1, a forced dredging tubular heat exchange device for sewage or surface water, from the flow channel separation inlet 27 to the first flow channel separation inner port 26 to the last flow channel Separate the inner port 26, and gradually increase the distance from the flow channel separation short tube 29 in sequence, and the distance increased each time is 5mm-500mm.

specific Embodiment approach 3

[0036] Specific implementation mode three: as Figure 12 As shown, a forced-drainage tubular heat exchange device for sewage or surface water described in the second specific embodiment starts from the flow channel separation inlet 27 to the first flow channel separation port 26 to the last flow channel separation The distance from the inner port 26 to the flow channel separation short tube 29 increases gradually in sequence, and the distance increased each time is 50mm-200mm.

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Abstract

The invention belongs to the technical field of energy resources and relates to a forcible dredging type tubular heat exchange device for sewage or surface water. The forcible dredging type tubular heat exchange device for the sewage or surface water aims to solve the problems that an existing wide-flow-passage plate type structure is insufficient in pressure bearing capability and severe in water leakage accidents and results in retention of suspended matters and impurities, a tubular structure orifice is prone to blockage and the like. The device comprises a flow passage separation device, header dredging devices, heat exchange tubes, a shell, two tube plates, two headers, two seal heads, baffle plates, diaphragm plates, diaphragm plate holes, a sewage or surface water inlet, a sewage or surface water outlet, a heat exchange media inlet, a heat exchange media outlet and the like. The sewage or surface water flows into the device from the inlet and then flows backwards sequentially by means of blocking of the header dredging devices after being subjected to flow passage separation of the flow passage separation device, and performs heat exchange with heat exchange media outside the tubes during flowing, and after entering the device from the inlet, the heat exchange media baffle and flow in the shell by means of blocking of the diaphragm plates and the baffle plates and performs heat exchange with the sewage or surface water in the tubes during flowing. The forcible dredging type tubular heat exchange device for the sewage or surface water is used for heat exchange of the sewage or surface water with the heat exchange media.

Description

technical field [0001] The invention relates to a heat exchange device for heat exchange between sewage or surface water containing impurities and suspended matter and a heat exchange medium, and belongs to the technical field of energy. Background technique [0002] Using heat pump technology to extract cold heat from low-grade renewable clean energy for building heating and air conditioning is one of the effective ways to save energy and reduce emissions in buildings, and its energy saving rate can reach more than 45%. These low-level renewable clean cold and heat sources include: the atmosphere, soil, groundwater, surface water, urban sewage, etc. When using these cold and hot energy sources, on the one hand, it needs to be utilized according to local conditions, and on the other hand, it is necessary to effectively solve some common and key technologies question. Regarding sewage and surface water cooling heat sources, the key problems to be solved are the clogging of i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F28D7/16F28F9/22F28F9/00
Inventor 吴荣华迟芳余洋苗正
Owner 青岛科创蓝新能源股份有限公司
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