RU2686195C1 - Method and installation of fire water supply for arid regions - Google Patents

Abstract

FIELD: water supply.SUBSTANCE: invention relates to water supply, in particular to methods for production or collection of drinking or tap water, as well as to firefighting equipment, and can be used for fire extinguishing in arid regions, with scarcity of water sources. Method of fire water supply for arid regions, including collection and storage of water in pressure and control reservoir, water supply to points of consumption along pipelines system with required pressure by means of high pressure pumping station, provision of permanent fire-prevention volume of water in pressure-control capacity due to separation of suction pipes of household-drinking and fire pumps and removal of suction pipe of industrial-household pumps to level of untouched fire-prevention volume. Water is condensed from atmospheric air with the help of water extractor operating from renewable energy sources, extracted water is directed by inclined pipeline by gravity to pressure-regulating tanks, thus filling reservoirs, and excess is directed to household needs, and moisture extraction is carried out round the clock. Installation for implementation of fire water supply method for arid regions comprises pressure and control tank for collection and storage of water, system of pipelines for supplying water to a point of consumption, a high-pressure pumping station with separate suction pipes of fire and household-drinking pumps, wherein the suction pipe of the household-drinking pump is at the level of untouchable fire-prevention capacity. Claimed plant is equipped with water extractor from atmospheric air with wind turbine operating from renewable energy source, wherein the water extractor is connected to the water collection and storage vessel by the inclined pipeline, through which the water produced in the extractor flows by gravity into the pressure-control vessel, wherein the water extractor is located above the level of the water container.EFFECT: task of the proposed invention is to ensure fire-prevention water supply by taking water from an autonomous self-filling water reservoir operating from renewable energy sources (RES), for areas with an arid climate with shortage of water resources, as well as partial water supply for household needs.2 cl, 1 dwg

Description

The invention relates to the field of water supply, and in particular to methods of obtaining or collecting drinking or tap water, as well as to the field of fire-fighting equipment, and can be used for fire fighting in dry regions, with a shortage of water sources.

For economic fire-fighting water supply in small settlements, local water supply systems are most often arranged, which use groundwater. A widespread scheme of rural water pipelines is a scheme with water intake from local sources with the help of mine wells or boreholes and direct supply to the water supply network with parallel connection of a water tower.

A known method of supplying water from reservoirs for water supply of settlements (RF patent No. 2400599, IPC Е03В 1/02, publ. 09/27/2010). The water supply system is carried out in the form of interconnected vertical and inclined pipelines. The lower end of the vertical pipeline is installed in the reservoir for water extraction, and the upper end is connected to the upper end of the inclined pipeline. Water is lifted up by the booster system.

There is a method and installation of fire water supply to industrial enterprises with an autonomous fire extinguishing system with a separate dedicated fire water tower, pumping stations and external and internal water pipes laid according to local conditions (https://vodoprovodnaya.ru/protivopozharnoe-vodosnabzhenie). A water source of such a system must have several sources - a well, an open natural reservoir, an underground and an open reservoir.

The fire pond is known, which is a pit excavated in the ground lined with polymeric material 1.1-4.5 mm thick, the water intake conduit is made in the bottom part of the reservoir and hermetically coupled with the polymeric material, and the water is taken from the insulated shore well (RF Patent No. 106544, IPC А62С, published on July 20, 2001). In front of the onshore well, a well with a valve is installed on the water inlet, the wheel of which should be placed under the hatch cover.

The disadvantage of the known methods and installations is their dependence on the sources of water supply, lack of autonomy, since the water is filled due to the natural inflow from nearby natural water sources (rivers, streams, groundwater, etc.) or due to artificial filling by various means of pumping water from natural sources with a flush hose, electric pump or motor pump.

There is a method of water supply of the city, consisting in the delivery of water to individual users connected to the water supply system of the village through the main and distribution lines of the water supply network, and then through the house or street distributors (RF patent №2470121, IPC Е03В 7/02, Е03В 1/02 , published on 12/20/2012). Combustible gas, hydrogen or natural gas used in everyday life is supplied along trunk lines. Water is obtained before the distribution lines by burning a combustible gas, followed by cooling of the gases generated, including at local centralized heat points serving for space heating, and by condensation of the water vapor formed before the distribution lines of the water supply network.

The disadvantage of this method is the unsuitability in fire prevention purposes, the absence of a tank for storing the required volume of water, as well as the inexpediency of applying this method in the summer, when there is no need for space heating.

Known installation extraction of fresh water from atmospheric air, containing a vertical-axial wind turbine in the form of a vortex wind turbine for the formation of a swirling laminar air flow and discharge in a vortex thermocouple, where the flow is divided into hot flow at the periphery and the cooled flow in the center, which enters radiators for cooling, and the hot air enters the condensation chamber, where it condenses on cooled radiators and condensed moisture enters into ossifier with an additional cold accumulator in the form of a block of composite material, air from the radiator is vented through exhaust ducts into the environment, a catchment basin with a moisture condenser is installed under the bulk hill above the ground line (RF Patent 2649890 C1, IPC Е03В 3/28, publ. 05.04. 2018).

The closest in technical essence to the proposed method is a method of fire water supply, which consists in the use of pressure-regulating tanks and water towers or hydrocolumns (PM Anokhin, A.V. Alexandrov, I.A. Nurullin. Fire-fighting water supply: a training manual. - Ekaterinburg: Publishing house of the USU, 2013. - 204 p.). Water tanks are equipped with a piping system for supplying and withdrawing water, draining excess water, and discharging dirty water during repairs. At high pressure pumping stations (with special fire pumps), domestic drinking and fire pumps have independent suction lines. The conservation of the emergency fire water supply is ensured by the fact that the suction pipe of production and economic pumps is brought to the level of emergency fire safety reserves, which excludes the selection of emergency water reserves by these pumps. The presence of the casing provides mixing of water in the tank.

The task of the invention is to provide fire-fighting water supply due to the selection of water from an autonomous self-filling reservoir operating from renewable energy sources (RES) for areas with an arid climate with water scarcity, as well as partial water supply for household needs of the population.

As a result of the use of the invention, it is possible to carry out fire-fighting water supply in arid regions with a shortage of natural water sources by withdrawing water from a tank, which is filled with water extracted from atmospheric air and sent under pressure to fire hydrants, as well as exceeding the level of inviolable fire-fighting water, water is diverted for household needs of the population, at the same time, due to the continuous operation of the water extractor, they restore ivopozharny volume of water in the tank.

The above technical result is achieved by the fact that in the proposed method of fire-fighting water supply for arid regions, including collecting and storing water in a pressure-regulating tank, supplying water to the places of consumption through the piping system with the required pressure using a high-pressure pumping station in the pressure-regulating capacity due to the separation of the suction pipes of household-drinking and fire pumps and the removal of the suction pipe production and economic According to the invention, to the level of the inviolable fire-fighting volume according to the invention, water from the atmospheric air is condensed using extractor water from renewable energy sources, the extracted water is directed along the inclined pipeline by gravity into the pressure-regulating tanks, thus filling the tanks - drinking needs of the population, with the extraction of moisture carried out around the clock.

The technical result is also achieved by the fact that the proposed installation for implementing the fire water supply method for arid regions, comprising a pressure regulating tank for collecting and storing water, a piping system for supplying water to the place of consumption, a high-pressure pumping station with separate suction pipes for firefighters and economic drinking pumps, while the suction pipe of the drinking pump is at the level of the inviolable fire volume, according to the invention, Abzhena extractor of water from atmospheric air with a wind turbine, working from a renewable energy source, while the water extractor is connected to a tank for collecting and storing water by an inclined pipeline, through which the water obtained in the extractor flows by gravity into the pressure regulating tank, and the water extractor is located above the level containers with water.

The number and volume of containers for collecting and storing water is chosen on the basis of regulatory documents, depending on the number of inhabitants, such as the development of the population.

The essence of the invention is illustrated in the drawing, which presents a General diagram of the installation for implementing the method of fire water supply for arid regions.

The fire water supply installation for arid regions contains a water extractor from atmospheric air 1 with a wind turbine 2, a sloping pipeline 3, through which the extracted water flows into the pressure-regulating tank 4, a high-pressure pumping station 5 with separate suction pipe for extracting water for fire extinguishing 6 and suction piping of household and drinking pumps 7, through a pipeline for collecting water for fire extinguishing 6 water under the required pressure generated by the high-pressure pump station 5 of the inlet t to fire hydrants. The wind flow, starting at a speed of 2-3 m / s, is pumped through the wind turbine 2 into the water extractor 1, where water is condensed. The water extractor from atmospheric air 1 operates around the clock, to avoid overflow of water from the tank, excess water is discharged for household needs. and to adjust the volume of water, the suction pipe of the utility-drinking pumps 7 is set at level 8 of the inviolable fire volume. Pipeline for selection of water for fire extinguishing 6 is installed closer to the bottom of the tank. The number and volume of containers for collecting and storing water is selected on the basis of regulatory documents, depending on the number of inhabitants, such as the development of the population.

The method of fire water supply for arid regions is as follows.

In settlements located in an arid climate with a shortage of natural water sources or without access to the central water supply, with a population of up to 5,000 people, a water extractor 1 is installed with a wind turbine 2 on a height sufficiently blown by winds, with a total volume exceeding volume of water, necessary for external fire extinguishing. The required volume of water for outdoor fire-fighting water supply, the length of pipelines and other parameters are determined according to SP 8.13130.2009. The oncoming wind flow, starting at a speed of 2-3 m / s, is pumped through wind turbine 2 into a moisture extractor 1, where water is condensed. Then the condensed water is dragged by gravity through the inclined pipeline 3 into the pressure-regulating tank for collecting and storing water 4. Next, water from the tank 4 through the suction pipeline to take water to the fire extinguishing 6 is sent with the required pressure created by the pump station of high pressure 5 to the point of consumption For example, to fire hydrants.

In case of exceeding the volume of water required for fire extinguishing in the tank 4, water is discharged for household needs through the suction pipe 7. A constant required volume of water with the expectation of extinguishing the fire for 3 hours is maintained by bringing the suction pipe 7 to the level of inviolable fire volume .

Claims (2)

1. The way fire water supply for arid regions, including the collection and storage of water in the pressure-regulating capacity, water supply to the places of consumption through the piping system with the required pressure using a high-pressure pumping station, ensuring a constant fire-fighting volume of water in the pressure-regulating capacity due to separating the suction pipes of household and fire pumps and removing the suction pipe of production and household pumps to the level of inviolable fire-fighting volume, from Considering that water from atmospheric air is condensed with the help of a water extractor operating from renewable energy sources, the extracted water is directed along an inclined pipeline by gravity to pressure regulating tanks, thus filling the tanks, and the surplus is directed to household drinking needs, and the extraction moisture is carried out around the clock. 2. Installation for implementing the method of fire-fighting water supply for arid regions according to claim 1, containing a pressure regulating tank for collecting and storing water, a piping system for supplying water to the point of consumption, a high-pressure pumping station with separate suction pipes for fire and utility-drinking pumps , while the suction pipe of the household and drinking pump is at the level of the inviolable fire volume, characterized in that it is equipped with a water extractor from atmospheric air with wind a turbine operating from a renewable energy source; in this case, the water extractor is connected to a tank for collecting and storing water by an inclined pipeline, through which the water obtained in the extractor flows by gravity into the pressure regulating tank, with the water extractor located above the level of the water tank.

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