CS230352B1 - Method of and apparatus for hygienically safeguarding water - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a method and apparatus for the elimination of germs in water by the action of an electric field and microorganisms and by means of disinfectants produced by the electrolysis of salts present in the water.

So far, hygienic water security is provided in small, medium and large water treatment plants with chlorine, ozone or chlorine dioxide, which are added in the gaseous state, or sodium hypochlorite, calcium or chloramine, which are administered in the liquid state by complicated production, dosing and mixing equipment. , in some cases in special rooms adapted for this purpose, the dosing being controlled only manually according to the water flow.

The current method of hygienic provision of drinking and other water (also for swimming pools) is expensive, disinfectants must be produced, purchased, brought to the place and dosed. It is demanding on operation, dosing is done manually, depending on the instantaneous flow of treated water, space-consuming, it is necessary to build special rooms and build special single-purpose apparatuses. Hygiene measures are toxic and endanger human health when handled.

The aforementioned drawbacks are eliminated by a method for the hygienic provision of water, which consists in carrying out both the electric field between the electrodes and the products of electrolysis of the salts present in the water.

The apparatus for carrying out the method according to the invention consists of a conduit for flowing water of varying salt concentration, in which the electrodes are negative and positive. Behind them is an indicator of the concentration of electrolysis products, which is connected to the concentration evaluator, in the direction of water flow. It is connected to a DC power regulator, which is connected via a transformer and a rectifier with positive and negative electrodes.

The method of hygienic water security and the corresponding block diagram of the device according to the invention are illustrated by way of example in the accompanying drawing, in that one or more negative electrodes 2 and one or two electrodes of negative electrolyte 2 and More electrodes positive 3. Behind them is located an indicator sensor 6 of the concentration of electrolysis products, usually an oximeter, downstream of the water. The indicator sensor 6 is connected to an electrolysis product concentration evaluator 7 which is connected to a DC power regulator 8. The regulator 8 is connected via the transformer 4 and the rectifier 5 to the positive 3 and negative 2 electrodes.

Hygienic protection of the water of the device according to the invention is carried out by supplying to the one or more electrodes negative 2 and positive 3 located in the flow line 1 containing variable-concentration salts on which the electrolyte resistance depends, a direct current of constant current is applied. The number, size and shape of the electrodes 2, 3 is determined by the amount of water flowing through, and as a material, with respect to the corrosion stability of the electrodes 2, 3, preferably carbon or metal or stainless steel is used. wherein the negative electrode 2 may be the conduit 1 itself.

The voltage between the electrodes 2, 3 determines the effect of the electric field itself on the microorganisms. The type and amount of disinfectant produced by this electrolysis is controlled by the duration (pulses) of the electric field, which again determines the intensity of its physiological action on microorganisms. The controller 8, consisting of time and auxiliary relays, which controls the time of DC power supply to the electrodes 2, 3 for a given water and its respective resistance, is controlled by a sensor 6, which is usually an oximeter located downstream of the electrodes 2, 3. The sensor 6 reacts to the concentration of the disinfectant produced and the feedback acts through the concentration evaluator 7 consisting of a set of orifices and photocells to the pulse regulator 8, which feeds the regulated power through the transformer 4 and the rectifier 5 back to the electrodes 2, 3. the level of disinfectants produced.

Electrolysis produces a disinfectant directly in a liquid, flowing water, eliminating the need for dissolution and handling of toxic material, while avoiding the risk of high voltage injuries.

Validation tests were performed under laboratory conditions with this result of one of the experiments. A 0.5% solution of sodium chloride in drinking water at a rate of 0.5 L per hour was passed through the electrolyzer. After electrolysis at a power input of 0.1 W, 10 mg Clz per liter and 2 mg O3 (ozone) per liter were found in water, giving an energy efficiency of 10 W hrs per g disinfectant. Chlorine concentrations around 1 g Ch per liter were also produced with lower energy efficiency. In addition, the electric field between the electrodes destroyed unwanted microorganisms and the resulting O 3 - ozone, also significantly increased the disinfection effects of Ch.

The method of hygienic water security and the device according to the invention can be advantageously used both in small treatment plants for direct decomposition of all treated water, and also for medium and large treatment plants where the number of electrodes is increased or the concentration of salts is increased.

Claims (2)

PftEDMÉT A method of sanitary water security, characterized in that the flowing water of variable salt concentration is treated with an electric field produced by carbon electrodes with a DC voltage in the range of 3 to 6 V. 2. Apparatus for carrying out the method according to claim 1, characterized in that it consists of a conduit (1) for flowing water of variable salt content, in which the electrodes are negative (2) and positive (3), downstream of which an electrolysis product concentration indicator (6) is connected to a concentration evaluator (7j) connected to a DC power regulator (8) which is connected via a transformer (4) and a rectifier (5) with a positive (3) and a negative (2) ) electrode. 1 sheet of drawings