RU2008136661A - METHOD OF WATER TREATMENT, DEVICE IMPLEMENTING IT, AND DOWNLOAD USED IN THEM - Google Patents

Abstract

1. A method of water treatment, including primary coarse water purification using a layer of shungite-3 of Karelia, deep purification and adjustment for saturation with useful salts, macro - and microelements using a layer of limestone, with further removal of harmful biological medium from the water that has entered the water during passage the previous layers, using a layer of shungizite, and then the subsequent correction of water by bioactivity, which is carried out using the corresponding layer of silicon-containing mineral rock, while water is fed through the mineral load lower up, characterized in that the limestone layer is preliminarily divided into layers of macrobiological and microbiological adjustment by forming two separate layers from different limestone rocks, and the macrobiological adjustment layer is formed from dolomites formed from fossilized remains of prehistoric invertebrate creatures (protozoa, intestinal, brachiopods, mollusks, echinoderms), and the layer of microbiological adjustment - glauconite, formed by biominerals formed from fossilized remains Cove prehistoric blue-green algae and cyano bacteria fossils and their metabolic products. ! 2. The method of water treatment according to claim 1, characterized in that opal cristobalite, for example, marshalite, is used as a layer of silicon-containing mineral rock, the mineral load is used with an equal-sized particle size distribution, the granule size of which is set depending on the required properties of the obtained water, when this ratio of the volumes of the layers of the load is laid depending on the activity of the first layer of coarse

Claims (6)

1. A method of water treatment, including primary coarse water purification using a layer of shungite-3 of Karelia, deep purification and adjustment for saturation with useful salts, macro - and microelements using a layer of limestone, with further removal of harmful biological medium from the water that has entered the water during passage the previous layers, using a layer of shungizite, and then the subsequent correction of water by bioactivity, which is carried out using the corresponding layer of silicon-containing mineral rock, while water is fed through the mineral load lower up, characterized in that the limestone layer is preliminarily divided into layers of macrobiological and microbiological adjustment by forming two separate layers from different limestone rocks, and the macrobiological adjustment layer is formed from dolomites formed from fossilized remains of prehistoric invertebrate creatures (protozoa, intestinal, brachiopods, mollusks, echinoderms), and the layer of microbiological adjustment - glauconite, formed by biominerals formed from fossilized remains Cove prehistoric blue-green algae and cyano bacteria fossils and their metabolic products. 2. The method of water treatment according to claim 1, characterized in that opal cristobalite, for example, marshalite, is used as a layer of silicon-containing mineral rock, the mineral load is used with an equal-sized particle size distribution, the granule size of which is set depending on the required properties of the obtained water, when This ratio of the volumes of the loading layers is laid depending on the activity of the first rough cleaning layer, after which the acquired water properties are taken as a reference point for further water treatment. 3. A device for treating water, comprising a circuit in which loading cartridges according to claim 1 are enclosed, comprising a corresponding layer thereof and arranged in a certain sequence from the circuit inlet to the outlet thereof, characterized in that each cartridge is arranged in the loading layer, the input and output of each cartridge is covered by a membrane, and the circuit is a collapsible structure formed of cartridges assembled from bottom to top in the sequence according to the mineral loading of claim 1 and with the possibility replacing each of them with another, while the formed structure can be placed in the corresponding collapsible housing. 4. The water treatment device according to claim 3, characterized in that each cartridge has a volume equal to or greater than the volume of its loading layer, which depends on the activity of the first coarse cleaning layer, after which the acquired water properties are taken as a reference point for further water treatment. 5. Mineral loading for water treatment, containing minerals, layered in layers in the direction of the water flow according to claim 1, from bottom to top, while the minerals used are crushed to a size of not more than 5 mm and subjected to heat treatment, characterized in that for adjusting and saturating the water microelements introduced an additional mineral layer of glauconite formed by plant biominerals from the fossilized remains of prehistoric blue-green algae and cyanide bacteria and the fossilized remains of their metabolic products, moreover, all minerals have an equal-sized particle size distribution and are subjected to heat treatment in a dry air environment. 6. Mineral loading for water treatment according to claim 5, characterized in that the layers of minerals are distributed in at least five corresponding layers located from the entrance to the housing to its exit in a certain order from bottom to top and having the integrated ability to provide consistent bottom-up water treatment from initial to its required properties.