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Synergic bypassing and electrocoagulation device and method for trapping fine particulate matters and heavy metals

A technology for fine particles and heavy metals, applied in separation methods, chemical instruments and methods, electrostatic effect separation, etc., can solve the problems of poor treatment effect and failure to meet the special emission limit of flue gas, so as to increase the chance of collision and reunion, Intensify the effect of the degree of mixing

Active Publication Date: 2018-11-30
SHANGHAI JIAO TONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These methods can effectively remove most of the dust, but they also have poor treatment effects on fine particles and volatile heavy metals, and cannot meet the requirements of the special emission limits for flue gas in the non-ferrous smelting industry

Method used

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  • Synergic bypassing and electrocoagulation device and method for trapping fine particulate matters and heavy metals
  • Synergic bypassing and electrocoagulation device and method for trapping fine particulate matters and heavy metals

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] In the horizontal section of the flue in front of the bag filter, a small circumvention and electrocoagulation are installed to cooperate with the fine particle and heavy metal trapping device.

[0036] Such as Figure 1~2 As shown, the circumvention and electrocoagulation cooperate with the fine particle and heavy metal trapping device, including the shell 1, the baffle dust collecting plate 2, the positive corona pole 3, the negative corona pole 4, the spoiler rod 5, and the vibrating dust removal device 6. High-voltage power supply 7, ash hopper 8, flue gas diversion hole 9; multiple baffle dust collecting plates 2 are arranged in the shell 1, and the flue gas channels in the shell 1 are separated into multiple shunt channels, and adjacent shunt flows Positive corona poles 3 and negative corona poles 4 are respectively arranged in the channels to charge particles passing through adjacent shunting channels with different charges, and a plurality of spoiler rods 5 are ...

Embodiment 2

[0056] In the horizontal section of the flue in front of the bag filter, a small circumvention and electrocoagulation are installed to cooperate with the fine particle and heavy metal trapping device. The main dimensions of the device are as follows: the height is 500mm, the width is 500mm, and the length is 1460mm. The narrowest width of the baffle dust collection plate is 100mm, and the widest width is 200mm. is 300mm, and the diameter of the diversion hole is 50mm. A total of 4 rows of electrodes are set up, which are positive electrodes (2), negative electrodes (1), positive electrodes (2) and negative electrodes (1). The electrodes are star-shaped, with a field of 500mm. A corresponding spoiler is set at 100mm, the short axis of the spoiler is 20mm, the long axis is 30mm of the short axis, and the length is 500mm. The distance between the flow rod and the center of the electrode and the wall of the baffle plate is 100mm. Connect the first and third rows of electrodes to...

Embodiment 3

[0058] In the horizontal section of the flue in front of the bag filter, a small circumvention and electrocoagulation are installed to cooperate with the fine particle and heavy metal trapping device. The main dimensions of the device are as follows: the height is 500mm, the width is 500mm, and the length is 1460mm. The narrowest width of the baffle dust collection plate is 100mm, and the widest width is 200mm. is 300mm, and the diameter of the diversion hole is 50mm. A total of 4 rows of electrodes are set up, which are positive electrodes (2), negative electrodes (1), positive electrodes (2) and negative electrodes (1). The electrodes are star-shaped, with a field of 500mm. A corresponding spoiler is set at 100mm, the short axis of the spoiler is 20mm, the long axis is 30mm of the short axis, and the length is 500mm. The distance between the flow rod and the center of the electrode and the wall of the baffle plate is 100mm. Connect the first and third rows of electrodes to...

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Abstract

The invention relates to a synergic bypassing and electrocoagulation device for trapping fine particulate matters and heavy metals, the device comprises a shell (1), baffling dust collector plates (2), positive corona electrodes (3), negative corona electrodes (4) and tabulator bars (5); the plurality of baffling dust collector plates (2) are arranged in the shell (1), a flue gas channel in the shell (1) is separated into multiple shunt channels, the positive corona electrodes (3) and the negative corona electrodes (4) are respectively arranged in adjacent shunt channels to charge particles respectively passing through the adjacent shunt channels with different charges, and the multiple tabulator bars (5) are dispersed in the shunt channels. Compared with the prior art, the synergic bypassing and electrocoagulation device can achieve synchronous deep capture of the fine particulate matters and the heavy metals by means of a spoiler and an electrocoagulation by combined with a subsequent high-efficiency dust collector.

Description

technical field [0001] The invention belongs to the non-ferrous metal smelting flue gas fine particle and heavy metal discharge control technology in the field of environmental protection, and in particular relates to a device and method for bypassing flow and electrocoagulation and coordinating fine particle and heavy metal capture. Background technique [0002] The output of non-ferrous metals in my country has ranked first in the world for many years, making important contributions to the national economy. However, the industrial flue gas and environmental flue gas collected in the non-ferrous metal smelting process will contain a large amount of dust and heavy metals, which will cause great harm to human health and the environment. At present, the direction of my country's air pollution control has changed from the electric power industry to the non-electric power industry. The Ministry of Environmental Protection has issued emission standards with special limits for th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D51/02B01D51/10B01D53/06B01D53/32B03C3/01B03C3/016
CPCB01D51/02B01D51/10B01D53/06B01D53/323B01D2257/60B01D2258/0283B03C3/01B03C3/016
Inventor 晏乃强瞿赞黄文君王龙龙李佳幸
Owner SHANGHAI JIAO TONG UNIV