RU2229917C1 - A gas-fuel power installation for production of the distilled and high qua lity drinking water - Google Patents

Abstract

FIELD: production of the distilled and high quality potable water. SUBSTANCE: the invention presents a gas-fuel power installation for production of the distilled and high quality potable water. The offered invention is pertinent to one of methods of purification and desalination of water by its distillation in the power installation functioning on a gas fuel (natural gas, associated petroleum gas, power gas) for production of the distilled water and from it - production of high-quality potable water. The gas-fuel power installation for production of the distilled and high-quality potable water has in parallel located inside it the water-heating and water evaporating containers and passing through them metal heat exchange pipes of burning with a water shell. Inside the upper part of the water evaporating container a the metal shower is located. The following components are in succession connected to the heat exchange pipes of burning of the water-heating container: the metal chamber of burning; the pipes with gates for removal of gaseous products of burning into an atmosphere; the heat exchange chamber with a located inside it a metal tank for smelting water ice or snow. The heat exchange chamber is connected to a water-accumulative tank by a linking pipe with a water filter. The metal gas burners with electrical dischargers are inserted in the heat-exchange pipes of burning of the water evaporation container and in the bottom of the chamber of burning. A metal water trapping chamber of the distilled water with a water tap and a water filter are in series connected to the bottom of the water fridge. A receiver with water taps, a water filter and a vacuum pump is connected to the upper side part of the housing of the distilled water trapping chamber. The technical result of the invention is in achievement of effective operation of the ecologically clean mobile installation using a cheap gas fuel. EFFECT: the invention ensures the effective operation of the ecologically clean mobile installation using a cheap gas fuel. 1 cl

Description

The invention relates to one of the methods of purification and desalination of water by its distillation in a gaseous fuel (natural, associated petroleum, generator gas) power plant to produce distilled and high-quality drinking water from it.

The inventive pilot plant for gaseous fuels for producing distilled and high-quality drinking water is equipped with parallel located inside the heating and water-heating tanks and passing through them metal heat transfer pipes with a water jacket located inside the upper part of the water tank with a metal shower, connected in series to the heat transfer pipes heating capacity with a metal combustion chamber, pipes with gates and for the removal of gaseous products of combustion into the atmosphere, a heat exchange chamber with a metal tank located inside it for melting water ice or snow; connected to the heat exchange chamber and to the water storage tank by a connecting pipe with a water filter; metal gas burners with electric dischargers inserted into heat exchange tubes of combustion of a water-evaporation tank and into the bottom of a combustion chamber; connected in series to the bottom of the water cooler with a metal trap chamber of distilled water with a tap and a water filter, connected in series to the upper side of the trap chamber of distilled water with a metal gas pipe, a receiver with taps, a water filter and a vacuum pump.

Use to obtain distilled and from it quality drinking water in a pilot plant using gaseous fuel.

A known installation [1-3] for producing distilled and high-quality drinking water, containing surrounded by thermal insulation and connected in series metal water heating tanks with connecting water supply pipes, taps and a water evaporation tank with a connecting steam pipe, valve and steam-air valve; a metal water cooler, a water storage tank with connecting water pipes and taps, a water pump and a filter, connected in series to the water supply pipe of the water storage tank and the steam discharge pipe of the water storage tank; tanks with mixers and taps extending downward from the water cooler for collecting distilled water and obtaining high-quality drinking water from it by adding mineral salts.

The main disadvantages of the known installation are the high cost of its operation due to the high cost of thermal and electrical energy, the complexity of the design, bulkiness and massiveness.

The technical result of the invention consists in achieving the operational efficiency of an experimental, environmentally friendly, mobile installation using cheap gaseous fuel, reducing the bulkiness and bulkiness of the installation, constructive and technological novelty of the installation, less safe operation of the installation in relation to northern climate conditions.

To achieve the specified technical result, a pilot plant for gaseous fuel for producing distilled and high-quality drinking water, containing metal water heating tanks surrounded by thermal insulation and connected in series with connecting water supply pipes, taps and a water evaporation tank with a connecting steam pipe, a valve and a steam-air valve; metal water cooler, water storage tank with connecting water supply pipes and taps, water pump and filter connected in series to the water supply pipe of the water storage tank and the steam discharge pipe of the water evaporation tank; tanks with mixers and taps extending downward from the water cooler to collect distilled water and obtain high-quality drinking water from it by adding mineral salts, is equipped with parallel-mounted inside heating and water-evaporation tanks and metal burning heat-exchange tubes with a water shell passing through them; a metal shower located inside the upper part of the evaporation tank; connected in series to the heat-exchange tubes of combustion of the water-heating capacity with a metal combustion chamber, pipes with gates for the removal of gaseous products of combustion into the atmosphere, a heat-exchange chamber with a metal tank located inside it for melting water ice or snow; connected to the heat exchange chamber and to the water storage tank by a connecting pipe with a water filter; metal gas burners with electric dischargers inserted into heat exchange tubes of combustion of a water-evaporation tank and into the bottom of a combustion chamber; connected in series to the bottom of the water cooler with a metal trap chamber of distilled water with a tap and a water filter; connected in series to the upper side of the casing chamber of the distilled water by a metal gas pipe, a receiver with taps, a water filter and a vacuum pump.

The drawing schematically shows the proposed experimental installation on gaseous fuels to produce distilled and high-quality drinking water.

Installation on gaseous fuel for producing distilled and high-quality drinking water contains surrounded by thermal insulation (glass wool or mineral wool) 30 and metal water-heating tanks 15, 28 connected to water supply pipes 13, 16, 19, taps 14, 17, 27, 29 and a water evaporation tank 22 with a connecting steam pipe 21, a valve 25 and a steam-air valve 20; located inside the upper part of the evaporation tank 22 metal shower 18; parallel located inside the water heating and water-evaporation tanks 15, 28, 22 and passing through them metal combustion heat exchange pipes 23 with a water shell; connected in series to the combustion heat exchange tubes 23 of the heating tank 15, a metal combustion chamber 52, pipes 55, 59 with gates 53, 54 for removing gaseous products of combustion into the atmosphere, a heat exchange chamber 57 with a metal tank 56 located inside it for melting ice or snow; connected in series to the water supply pipe 13 of the water storage tank 15 and the steam discharge pipe 21 of the water storage tank 22, a metal water cooler 12, a water storage tank 8 with connecting water pipes 3, 10, 61 and taps 4, 5, 9, 58, water pump 2 and filter 1; metal gas burners 24, 31 with electric dischargers inserted into the heat exchange tubes of combustion 23 of the water-evaporation tank 22 and into the bottom of the combustion chamber 52; connected to the heat exchange chamber 57 and to the water storage tank 8 by a connecting water supply pipe 61, a water filter 60; connected in series to the bottom of the water cooler 12, a metal trap chamber 37 of distilled water with a tap 11 and a water filter 38; connected in series to the upper side of the housing of the trap chamber 37 of distilled water, a metal gas pipe 36, a receiver 35 with taps 26, 34, a water filter 33 and a vacuum pump 32.

The pilot installation works as follows. Water filter 1 is immersed in a body of water (sea, river, lake, etc.). Using a water electric pump 2, natural water 7 is supplied through a water supply pipe 3 to a water storage tank 8. A polyethylene float 6 with a device is a water level regulator 7 in a water storage tank 8. From a water storage tank 8 with an open tap 9, water 7 spontaneously flows through a water supply 10 to the lower located water cooler 12. Through the water pipe 13 leaving the water cooler 12, water enters the first water heating tank (tank) 15, then through the water pipe 16 to the second water heating tank (tank) 28, and water supply 19, water shower 18 in the water evaporation tank 22.

The gas burners 24, which are inserted into the combustion tubes 23 with a water jacket, are fed and ignited by means of pulsed arresters, gaseous fuel (associated, petroleum, natural, generator gas). Atmospheric air (gas, oxygen) as an oxidizer enters the combustion zone under the influence of natural draft or forced blasting. The flame of the burners 25 and the heat generated are directed inside the heat transfer pipes 23. The combustion pipes 23 are heated and transfer heat through the metal walls to the water and the resulting water vapor of the water storage tanks 15, 28 and the water evaporation tank 22. The resulting gaseous products of combustion in a mixture with the rest of the air enter the chamber combustion 52 and pipes 55, 59 are discharged out into the atmosphere. From the water storage tanks 15, 28, the heated water enters through a water shower 18 into a water-evaporation tank 22, where part of it is immediately converted to steam, and the rest is additionally heated.

The vacuum pump 32 is turned on in the electric network. Air is pumped out from the tank 37 through the connecting gas pipe 36 by the vacuum pump 32 to catch distilled water with the valve 11 closed, the water cooler 12 and the water-evaporation tank 22 and a predetermined vacuum is created in them below atmospheric pressure. In the water-evaporation tank 22, the heated water begins to boil violently even at a temperature of about + 90 ° C. The resulting water vapor in the water evaporation tank 22 is directed through the connecting pipe 21 to the upper part of the water cooler 12, where it is cooled, converted into distilled water 39, which flows down into the silver-plated metal tank 37. After filling the tank 37 with distilled water 39 to a certain level, the valve opens 11 and distilled water 39 flows through the filter 38 into the collection tank 40. A certain amount of a mixture of drinking mineral salt is poured into the measuring container 42. Part of the distilled water 39 with the open valve 44 is fed into the graduated cylinder 42. The valve 44 is closed. The electric mixer 41 is turned on. As a result of mixing by the electric mixer 41 in the measuring cylinder 42, a water-salt solution 43 of the required concentration is formed. The valve 47 opens and distilled water 39 from the collection 40 is supplied to the collection 49, filling it with 4/5 of the volume. Crane 47 closes. The valve 46 opens. A certain volume of the water-salt solution 43 from the cylinder 42 is supplied to the collector 49. The valve 46 is closed. The electric mixer 48 of the collection 49 is turned on and the aqueous solution is completely mixed to obtain high-quality drinking water 50. Drinking water 50 is supplied to the consumer by opening the tap 51, and distilled water 39 by opening the tap 45.

The proposed installation also provides for the production of distilled and high-quality drinking water in the winter period, if necessary, from ice and snow. In the tank 56, ice and snow are loaded from above. Similarly to the burners 24, the supply and ignition of the supplied combustible gas in the burner 31 is performed. The gate 53 is opened, and the gate 54 is closed. Waste heated gaseous products of combustion with residual air enter the heat exchange chamber 57, heat the tank 56 with ice and snow, and exit through the pipe 59 to the atmosphere. The ice and snow located in the tank 56 under the influence of the heat of the exhaust gaseous products of combustion with the rest of the air melt and turn into water. The bottom of the tank 56 is located in height above the water storage tank 8. Therefore, the resulting water in the tank 56 flows spontaneously with the open tap 5 and the closed tap 4 through the filter 60, through the water supply 61 to the water storage tank 8. The installation then works according to the principle described above.

Cranes 25, 27, 29 periodically open to drain contaminated water into a designated place.

Literature

1. A.B. Avakyan, M.V. Sanin, L.I. Elpiner. Desalination of water in nature and the national economy. M .: Nauka, 1987, p. 42-43.

2. V.N.Slesarenko. Distillation desalination plants. M .: Energy, 1980, 248 p.

3. B.V. Nekrasov. Fundamentals of General Chemistry. M .: Chemistry, 1973, v. 1, p. 135, 147.

4. A.I. Egorov. Preparation of artificial drinking water. M .: Stroyizdat, 1988, 112 p.

Claims (1)

A gaseous fuel installation for producing distilled and high-quality drinking water, comprising metallic water heating tanks surrounded by thermal insulation and connected in series with connecting water supply pipes, taps and a water evaporation tank with a connecting steam pipe, a tap and a steam-air valve; metal water cooler, water storage tank with connecting water supply pipes and taps, water pump and filter connected in series to the water supply pipe of the water storage tank and the steam discharge pipe of the water evaporation tank; tanks with mixers and taps extending downward from the water cooler for collecting distilled water and obtaining high-quality drinking water from it by adding mineral salts, characterized in that it is equipped with parallel-mounted inside heating and water-evaporation tanks and metal burning heat-exchange tubes with a water shell passing through them ; a metal shower located inside the upper part of the evaporation tank; connected in series to the heat-exchange tubes of combustion of the water-heating capacity with a metal combustion chamber, pipes with gates for the removal of gaseous products of combustion into the atmosphere, a heat-exchange chamber with a metal tank located inside it for melting water ice or snow; connected to the heat exchange chamber and to the water storage tank by a connecting pipe with a water filter; metal gas burners with electric dischargers inserted into heat exchange tubes of combustion of a water-evaporation tank and into the bottom of a combustion chamber; connected in series to the bottom of the water cooler with a metal trap chamber of distilled water with a tap and a water filter; connected in series to the upper side of the casing chamber of the distilled water by a metal gas pipe, a receiver with taps, a water filter and a vacuum pump.