RU1830385C - Plant for preparation of water for pouring - Google Patents

Abstract

Appointment: preparation of water for pouring. SUBSTANCE: water treatment plant for bottling contains a well for underground water equipped with a submersible electric pump. Water from the well enters the storage tank and then, with the booster pump, through clarifying filters and a heat exchanger, the water is sent to a flow reactor loaded with granular salts. The composition of salts depends on the type of mineral water that must be obtained. From the reactor, mineral water enters the saturator through an intermediate tank, where it is saturated to a predetermined concentration with carbon dioxide, and through a bactericidal unit to the tank of the bottling machine. 1 ill. Yo

Description

The invention relates to plants for improving the quality of water and can be used for the preparation of drinking, canteen, medicinal-table and medicinal mineral waters.

An object of the invention is to provide directional mineralization of water.

The drawing shows a flow diagram of a water treatment plant for bottling.

The installation includes a well 1 for underground water, a submersible electric pump 2, a water supply pipe 3, an accumulation tank 4 with a booster pump 5, clarifying filters 6, a heat exchanger 7 with refrigerant 8, a flow reactor 9, carbon dioxide supply pipelines 10 from a gasification station 11, an intermediate

a tank 12 with a booster pump 13, a saturator 14 for saturating the water with carbon dioxide, a disinfection unit 15, and a tank for the filling machine 16.

Installation works as follows.

Groundwater from well 1 is pumped through a pipe 3 into a storage tank 4 by a submersible pump 3, then water is directed by a booster pump 5 to clarifying ceramic or plate filters 6. where mechanical impurities are retained, after filters water enters a counterflow heat exchanger 7 to stabilize the required temperature technologists using a refrigerant 8. clarified and cooled water enters the flow reactor

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9, where carbon dioxide enters simultaneously through a pipeline 10 from a gasification station 11. (Carbon dioxide is delivered to a bottling plant in liquid form in special tanks, from which carbon dioxide is converted to a gaseous state at a gasification station). Flow reactor 9 is pre-loaded with granular salts. The composition of the salts depends on the type of mineral water for bottling. Almost realistically simulating any of the existing drinking mineral water. In addition, there are currently technologies for the evaporation of mineral waters to produce a dry powder consisting of salts characterizing mineral water.

The pressure of water and carbon dioxide in the reactor is set based on the formation of a suspended layer of granular salts, which contributes to more intensive dissolution. The specified salinity is ensured at a stable water temperature by the duration of the contact of salts with water and the flow of carbon dioxide, an increase in the concentration of which in water directly affects the solubility of salts, i.e. we control the process of mineralization of water.

From the reactor 9, the water of a given mineralization enters the intermediate tank

12 and thereafter, by the pressure of the pump 13, water is supplied to the saturator 14 to saturate to a predetermined concentration with carbon dioxide and then through the bactericidal unit 15 to the tank 16 of the filling machine. Saturated with carbon dioxide, mineralized to the desired quality and quantity, the water is prepared for bottling.

Using the installation ensures the production of water of any composition and mineralization quality in almost any region where fresh water is available.

SUMMARY OF THE INVENTION A water treatment plant for bottling, comprising a water source, a storage tank, filters, a heat exchanger, an intermediate tank connected to a saturator connected to a gasification station and through a disinfection unit to a tank of a filling machine, characterized in that, for the purpose of providing directed mineralization of water, the installation is additionally equipped with a flow reactor for placing salt granules in it, to the lower inlet of which a heat exchanger and gasification station are connected, and the upper outlet pipe is connected to the intermediate tank.

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