RU2004502C1 - Method of preparation of drinking water - Google Patents

Description

It is directly in the process of electrodialysis due to mineral components dissociated in the source water. Moreover, distillate is produced from the same source water in a desalination plant, from which drinking water is prepared. In addition, the aforementioned positive properties are achieved by simplifying the design of the installation by using a relatively simple in design and easy to automate electrodialyzer instead of complex metering devices, chlorates, etc. The specified technical result is achieved only when using the totality of existing features of the claimed invention .

An analysis of the claimed and known solutions shows that there is no totality of features that are identical in technical essence to the claimed method. A comparative analysis of the claimed solution with the prototype shows that the claimed method differs from the known one in that the mineralizing components are introduced into the distillate from the source water by the electrodialms method through the ion-selective membranes and the distillate is fed into the concentration chambers and the source water into the desalination chambers of the electrochemical distributor. the ratio of the amount of starting water and distillate is determined by the indicated mathematical expression, and the disinfection of drinking water is carried out during electrodialysis in the anode chamber of the indicated electrodialyzer. Thus, the claimed method meets the criteria of the invention of novelty.

Known methods for the preparation of drinking water with the correction of its mineral composition by introducing reagent solutions into the distillate, by distillate filtration through a layer of a mineral substance, by mixing the distillate with artesian water containing mineral impurities. There is also a known method of electrodialysis - directional transfer of mineral substances dissociated in an oode through ion-selective membranes in a direct current electric field. In addition, a method is known for disinfecting drinking water by the bactericidal action of active chlorine on organic substances contained in drinking water by introducing chlorine-containing substances into the water, for example, by dosing bleach with water or sodium hypochlorite obtained in an electrolyzer. There is no information on the method of preparing drinking water with the correction of its mineral composition and disinfection in a single technological process without the use of additional equipment and reagents identical to the one proposed and it does not follow from the prior art. This allows us to conclude that the claimed technical solution meets the criterion of inventive step.

The proposed technical solution

10 ensures the achievement of a technical result, can be implemented in installations for the preparation of drinking water, for example, from natural salt or brackish water in various industries, and provides the possibility of its repeated use. This allows us to conclude that the invention utility.

0 The method is as follows. Raw water containing mineral salts, such as sea water, is subjected to desalting in a thermal desalination plant,

5 Part of distillate intended

for the preparation of drinking water based on it, and the part of the source water intended for adjusting the mineral composition of drinking soy Veda

0 blocking system. The distillation will allow the concentration chambers to be fed, the original zoda to the desalination chambers of the electroelectrometers. In a direct current electric field, cations in solution move in the direction of the negatively charged cathode, anions in the opposite direction to the positively charged knowledge. In this case, the ions of mineral components dissociated from the source water migrate

Q in equivalent amounts through anion-selective and cation-selective membranes to a distillate flowing through the concentration chambers. The distillate is saturated with mineral components to

5 of a given concentration, the value of which is determined by the current density. The process proceeds under conditions of transferring to the distillate from the source water the main components of mineral substances and excluding the possibility of transferring impurities contained in the source water, the presence of which in drinking water is not desirable from a hygienic point of view, for example, organic compounds and the like. The amount of feed water needed to prepare a drinking water from distillate is determined from the above relationship. The amount of initial water is determined at a minimum and with an atom of sufficiency, when the aforementioned dependence becomes equal, which is essential

for regimes deficient in natural mineralized waters. Violation of this condition leads to an insufficient concentration of minerals in drinking water, a decrease in its quality. Drinking water is fed into the anode chamber of the same electrodialyzer, in which, as a result of the electrochemical reaction, gaseous chlorine is formed, which, when reacted with water, produces hypochlorous acid with bactericidal properties. Drinking water prepared in this way is sent to the consumer.

Example. From the source (natural Black Sea) water with a mineral impurity content of 16,300 mg / L and a temperature of 20 ° C in a vacuum desalination plant, a distillate is obtained, part of which is processed in an amount of 24 tons in an experimental unit for the preparation of drinking water with a capacity of 2 t / h sequentially in the concentration chambers and the anode chamber of the electrodialyzer. The process is carried out with the amount of 0.75 t of initial water circulating through the desalination chambers of the electrodialyzer, the minimum water required in accordance with the above dependence (Mode 1). The process is also conducted when

quantities of initial water 1 t and 0.5 t (Modes 2 and 3). The process is conducted for 12 hours at a current strength of 5.61 A in the electrodialyzer supply circuit, which is necessary to obtain a predetermined concentration of mineral components in drinking water of about 500 mg / l.

The drinking water obtained in the experiments (Modes 1 and 2) complies with the requirements of the standard. The water obtained in mode 3 does not meet the requirements.

The experimental data characterizing the process of preparing drinking water are given in the table.

Using the method, a positive technical result is created, namely, that the process reliability is increased and operating costs are reduced when it is implemented, while simplifying the design of the installation for preparing drinking water from waters containing mineral impurities.

(56) U.S. Patent No. 3,956,132, cl. 210-219, 1976.

L.I., Elpiner, Water supply for marine vessels. M: Transport, 1975, p. 184-165, 171-173.

Claims (2)

1. METHOD FOR PREPARING DRINKS - g GM Сд / Си (СП - 1), WOW WATER, including distillation and where Сд - consumption of distillate; supply water containing mineral С - concentration of mineral impurities, introduction of minerals into the distillate in the source water; components and disinfection, Sp - concentration of mineralizing characterized in that, the introduction into the distillation of components in drinking water, lt mineralizing components is carried out 2. The method according to claim 1, characterized in that It was found in the electrodialyzer that disinfection of drinking water with osonoselective membranes was introduced in the anode chamber of the electrodia distillate into the concentration chambers and the lyser. source water to desalination chambers 15