Process and apparatus for treating water by magneto-electric dialysis

A technology of water treatment and electrodialysis, applied in the fields of magnetic field/electric field water/sewage treatment, separation method, general water supply saving, etc., can solve the problems of water treatment speed and treatment quality that can no longer be improved, seawater desalination speed slowing down, current efficiency Can no longer improve the problem, to achieve the effect of reducing the frequency of dismantling and washing pauses or frequent electrode reversal, which is conducive to descaling and improving water treatment capacity

Inactive Publication Date: 2002-07-24
陈树庆 +1
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AI Technical Summary

Problems solved by technology

After the above process has been carried out for a period of time, due to scaling and electrode polarization on the ion exchange membrane and the two electrodes, the speed of seawater desalination gradually slows down, the quality of the effluent water decreases, and the power consumption increases.
The shortcoming of existing electrodialysis method and equipment thereof is: 1) it is to become positive and negative ion by electric field action on anion and cation exchange membrane by electric field and finish by the migration of self-selection of salt in the solution, the migration velocity of positive and negative ion All depend on the structure, material and current density of the electrodialyzer, the nature of the water to be treated, etc. Once the equipment has been manufactured and installed properly, the above parameters are a foregone conclusion, so the water treatment speed and quality cannot be improved any more. If the efficiency cannot be improved, the power consumption cannot be reduced; 2) If scaling and electrode polarization occur on the anion and cation exchange membranes and the two electrodes, the electrodialysis performance and service life of the membrane and electrodes will be reduced, so it is necessary to It is rinsed, and in serious cases, it must be disassembled and washed, thereby reducing the ability of water treatment, and this operation is troublesome and time-consuming; if the method of frequent electrode reversal is used, the problem of scaling and polarization can be partially solved, but every time Inversion must also stop production, affecting productivity

Method used

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  • Process and apparatus for treating water by magneto-electric dialysis
  • Process and apparatus for treating water by magneto-electric dialysis
  • Process and apparatus for treating water by magneto-electric dialysis

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Experimental program
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Effect test

Embodiment 1

[0018] Embodiment 1. The method of this embodiment is to add a static magnetic field to make the negative and positive ions in the flowing solution do directional deviation in the space of electrodialysis treatment water.

[0019] The so-called electrodialysis space can be obtained from figure 1 with figure 2 It can be seen in the structural schematic diagram and perspective view of the existing electrodialyzer in the solution that the positive and negative ions in the solution (in the figure, ←□ represents the migration of positive ions, and ○→ represents the migration of negative ions), under the action of a direct current electric field , the positive ions shift to the cathode and selectively pass through the cation exchange membrane, and the negative ions shift to the anode and selectively pass through the anion exchange membrane. The electricity, E is the electric field strength). For example, in the space of electrodialysis treatment water, add a Figure 4 The two pe...

Embodiment 2

[0022]Embodiment 2. The difference from the method of Embodiment 1 is that the strength of the static magnetic field should not be less than 0.5T (Tesla). Because the Lorent magnetic force Fm is proportional to the magnetic field strength B, the greater the magnetic field strength, the better the effect; it is more ideal if a superconductor with a strong magnetic field above 20T can be used. In addition, since the Lorent magnetic force Fm=qvB is a vector, the electrodialysis space of the magnetoelectric dialysis device of the present invention must be non-loop type, so that the liquid flow flows along the entire membrane surface, and the general direction of the flow velocity remains consistent. It can also be known from Fm=qvB that increasing the liquid flow velocity is not only conducive to improving the design offset force of the static magnetic field on the ions, but also conducive to improving the water treatment speed of the entire magnetoelectric dialysis equipment.

Embodiment 3

[0023] Example 3. Available from Figure 5 It can be seen from the figure that the difference from Embodiment 1 and Embodiment 2 is that the two shell walls of the shell parallel to the water flow and the current direction are high magnetic permeability material plates 17, and the rest of the shell walls are all low magnetic permeability materials. plate. In order to overcome the magnetic field shielding effect of the remaining shell walls, the effect on the applied magnetic field is reduced.

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Abstract

A magneto-electric dialysis process for desalinating seawater, preparing salt from seawater and desalting industrial water is characterized by that on the basis is existing electric dialysis equipment, a static magnetic field is additionally used to directionally shift the cations and anions in flowing solution. Its apparatus is composed of a casing with different water inlets and outlets and electrodes, a group of cationic exchange membranes and anionic exchange membranes, which are alternatively arranged between anode and cathode, and a permanent magnet attached to each wall of the casing. Its advantages are high throughput, less electric consumption and not scaling.

Description

technical field [0001] The invention relates to a method and equipment for electrochemically treating water, in particular to a method and equipment for using the charged particles moving in the solution to be deflected by the action of Lorent's magnetic force, and the descaling effect of the magnetic treatment of water. Methods and equipment for improving membrane separation technology. It can be widely used in seawater desalination, brackish water desalination, seawater concentration salt production, industrial water desalination, etc. Background technique [0002] The existing electrodialysis method for water treatment by electrochemical methods uses the selective permeability of ion exchange membranes to make directional migration of electrolyte ions in water under the action of a direct current electric field, so as to realize water desalination or concentrated salt production . The specific process is: the positive and negative ions formed by the hydrolysis of salts ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F1/469C02F1/48
CPCY02A20/124
Inventor 陈树庆张东红
Owner 陈树庆
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