RU2193528C2 - Method of preparing silver water - Google Patents

Abstract

FIELD: electrochemical engineering. SUBSTANCE: electrochemical dissolution of silver and adjusting pH of water are performed in aqueous solution at current density 0.0012-0.004 A/sq.cm and 25 C on three-electrode diaphragm electrolyzer wherein the third electrode functions as extra anode. Method can be used in drinking water disinfecting process and for preparing disinfecting solutions. EFFECT: enhanced process efficiency. 1 dwg

Description

 The invention relates to electrochemical technology and can be used for disinfection of drinking water, as well as in medicine to obtain disinfectant solutions.

 A known method of obtaining a disinfectant solution based on silver ions, in which to increase the solubility of silver using citric acid and other food additives [1].

 The disadvantage of this method is the use of valuable food products.

 The closest technical solution to the invention is a method for producing silver water [2].

 The essence of the method lies in the fact that to increase the concentration of silver, the source water is passed through 2 consecutively located electrolytic cells. In the first cell, water is enriched with silver ions as a result of dissolution of the anode, and in the second cell, the pH of the water is adjusted.

 The disadvantages of the method are the complexity of its implementation and the high energy costs associated with carrying out the process in 2 electrolyzers and using a 4-electrode system.

 The task of the invention is to improve the efficiency of the process. This is achieved by increasing the concentration of silver ions in water upon receipt of silver water by anodic dissolution of metallic silver.

The essence of the invention lies in the fact that the process of electrochemical dissolution of metallic silver is carried out in an aqueous solution at a current density of 0.0012-0.004 A / cm ² , a temperature of 25 ^o C in a diaphragm electrolyzer with 3 electrodes: two silver, placed in one chamber In this case, one of them is the cathode, the other is the anode, and an electrode made of anode-resistant material (platinum, stainless steel) connected to the system in the same way as the anode. Changing the current strength in a circuit with a platinum or other anode-resistant electrode leads to alkalization of water in a chamber with silver electrodes, which increases the solubility of silver. The yield of silver ions in current is 94.5-97.0%.

Example. They fill the cell with tap water, turn on a direct current at various densities of 2.5 • 10 ^-5 ; 12 • 10 ^-4 ; 4 • 10 ^-3 A / cm ² . Then, the electrodes of the electrolyzer are washed with water and the solution is analyzed before and after electrolysis for the content of silver ions, and the hardness and pH of the water are measured.

When the current density is less than 1.2 • 10 ^-2 A / cm ^{2 the} process productivity is low, the upper limit of the current density depends on the conductivity of the treated water.

 The method is carried out in the installation (see drawing), consisting of the following parts.

1. Platinum anode
2. Silver anode
3. Silver cathode
4. Electrolyzer
5. Aperture
6. Current source
7. Rheostat
8. Ammeter
9. Voltmeter
The proposed method allows to obtain silver water by electrolysis with simultaneous alkalization in the same cell, which leads to a significant reduction in energy consumption and simplification of the process.

Bibliographic data
1. Application 98104328/25, IPC ⁶ C 02 F 1/50, 16. Bull. 11, 1999

2. Patent 4755268 (USA), INC ⁴ C 02 F 1/46 / Matsuo Voshiaki. Ito Jin-Ichi, Oshima Kat Suc - 50437; Claim 05/18/87. Priority 05/28/86, 61-123133 (Japan) NKN 204/149.

Claims (1)

A method of producing silver water in a diaphragm electrolyzer by anodic dissolution of silver and adjusting the pH of the water, characterized in that the process is carried out in a diaphragm electrolyzer, in which two silver electrodes are placed in one chamber, one of which is the cathode and the other is the anode, and the other is placed an additional electrode of anode-resistant material that performs the function of the anode, while the electrochemical dissolution of silver is carried out at a current density of 0.0012-0.004 A / cm ² and a temperature of 25 ^o C.