Method for removing salt by using three-dimensional carbon electrode

A carbon electrode and three-dimensional technology, which is applied in the field of three-dimensional carbon electrode desalination, can solve problems affecting desalination performance, chaotic channels, slow mass transfer and diffusion, etc., and achieve excellent desalination efficiency, excellent cycle life, and good stability Effect

Inactive Publication Date: 2018-06-29
BEIJING INSTITUTE OF TECHNOLOGYGY
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Problems solved by technology

However, the carbon electrodes with high loading capacity, especially activated carbon, have chaotic pores, which often affect the desalination performance due to slow mass transfer and diffusion.
For this kind of ultra-thick carbon electrode, it often takes a long time for the electrolyte to diffuse into the electrode, and it may not even be completely saturated. While the desalination capacity decreases, the desalination efficiency is also greatly reduced.
Therefore, it is also a great challenge to prepare a three-dimensional carbon electrode with high loading capacity and excellent electrical desalination performance (salt removal amount, desalination rate).

Method used

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  • Method for removing salt by using three-dimensional carbon electrode
  • Method for removing salt by using three-dimensional carbon electrode
  • Method for removing salt by using three-dimensional carbon electrode

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Embodiment 1

[0027] A method for desalting with a three-dimensional carbon electrode, the specific steps are as follows:

[0028] Step 1. Prepare a three-dimensional carbon electrode; using natural wood as a carbon precursor, through a simple pre-carbonization and activation process, a high loading capacity (50 mg cm -2 ), ultra-thick (1.5mm) three-dimensional carbon framework with ordered pores, excellent electrical conductivity and mechanical strength, and it is used for capacitive desalination (such as figure 1 shown in a).

[0029] Step 2, select two wood carbon sheets with the same size (mass, thickness, surface area), separate them with a diaphragm in the middle, and assemble them into two symmetrical electrodes (such as figure 1 shown in b). ;

[0030] Step 3: Put the above-mentioned two-electrode system in the reactor, use a peristaltic pump to flow the brine, and the water flow rate is 20mL min -1 , apply a voltage of 1.5V across the electrodes to conduct a desalination test (...

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Abstract

The invention relates to a method for removing salt by using a three-dimensional carbon electrode, belonging to the field of sea water desalination. According to the method, natural wood is used as acarbon precursor, a three-dimensional carbon skeleton is prepared by using a process of firstly carrying out pre-carbonization and then activating, and the prepared three-dimensional carbon skeleton is prepared into a capacitor so as to be used for removing salt. The carbon skeleton has a large number of vertically aligned, parallel and low-bending macroporous channels, thus facilitating the direct transmission and diffusion of electrolyte ions. After activation is finished, a plurality of micropores are simultaneously formed inside the carbon skeleton, the micropores are distributed on the inner walls of ordered through holes, and the large number of micropores provide a place for salt ion electrosorption. Therefore, the carbon electrode of the structure significantly enhances the diffusion of the salt solution in the electrode, shortens the time and distance of the ions reaching the micropores, and finally improves the performance of desalting.

Description

technical field [0001] The invention relates to a method for desalting by using a three-dimensional carbon electrode, which belongs to the field of seawater desalination. Background technique [0002] Capacitive Deionization (CDI) is an emerging technology for seawater desalination. Compared with current commercial seawater desalination technologies (such as membrane reverse osmosis technology and multi-stage flash desalination technology), CDI technology has the advantages of high efficiency, low energy consumption, and easy miniaturization. The traditional CDI electrode preparation process usually consists of active material (usually activated carbon), binder (PTFE or PVDF) and conductive agent (usually carbon black) through mixing and stirring, and then scrape coating onto the current collector ( Usually on carbon paper), it is made after hot pressing and drying. However, this process will face the following difficulties in practical application: when the electrode is t...

Claims

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Application Information

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IPC IPC(8): C02F1/469C02F103/08
CPCC02F1/4691C02F2103/08
Inventor 严乙铭刘明权徐敏倪伟霍思璐
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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