RU2198846C2 - Vacuum water distilling apparatus - Google Patents

Abstract

FIELD: hydraulic engineering; distillation of sea water at pressure close to critical. SUBSTANCE: proposed apparatus includes vacuum reservoir, spiral heating element, exhaust fan, vapor-condensate jacket, cooling tube bundles, condensate receiving bath, riser, reservoir for vapor-forming chamber and still bottoms, partition forming vapor protective space, refrigerating machine, cold distributing system, gear pumps, protective boxes, heating unit, unsealing unit, reservoirs and pipe lines fitted with fittings and check valve. Water to be distilled is fed in sprayed state; spiral-shaped spraying unit with sprayers inserted inside it is provided for the purpose. Besides that, vapor condensation in one and the same reservoir takes place due to availability of intermediate cold- distributing combs in vapor-condensate jacket. EFFECT: enhanced efficiency. 2 cl, 1 dwg

Description

 The invention relates to hydraulic engineering and can be used to provide the population with drinking water due to marine desalination.

State of the art
Over the past few decades, leading hydraulic engineers have seriously dealt with the problem of providing the population with drinking water, and many methods have been proposed for solving this imminent problem, among which there is a method of desalination of sea water at critical pressure, which significantly saves energy costs for steam conversion of water. But this method, due to the technical flaw in the desalination process, has not found wide application in practice (see R. Furon. Problems of Water on the Globe, ed. "Gidrometerologicheskaya", Leningrad, 1966).

 In the copyright certificate SU 402515, published in 1974, the author developed a method of desalination of sea water in a vacuum apparatus, which allows you to effectively carry out the desalination process.

 Known vacuum desalination apparatus contains a vacuum vessel, a heating element, a vaporization chamber, a vapor condensation chamber, cooling vapor condensing tubes, a still bottom chamber, a spray unit with sprayers, pumps, containers, pipelines with valves and a check valve.

 However, in the known apparatus, the most important structural units are not sufficiently developed, on which the operability of the apparatus and its performance depend.

 The objective of the invention is to improve the known vacuum apparatus and increase its productivity.

 This problem is solved due to the fact that the apparatus contains a riser located in the steam chamber and an exhaust fan that operates from the pressure of the water supplied from the riser to the fan blades, the steam condensate chamber is made in the form of a jacket in which bundles of cooling vapor condensing tubes are placed connected through intermediate cold distribution combs with a cold distribution system of the refrigeration machine, the vaporization chamber has a partition forming a vapor protection space, while the spray unit and the heating element are made in a spiral shape. In addition, gear pumps with safety boxes and a depressurizing device are used in the apparatus.

 The graphic part contains one drawing.

Information confirming the possibility of carrying out the invention
The vacuum desalination apparatus (see drawing) contains a vacuum vessel 1, inside of which a spiral-shaped float heating element 2 is mounted, a spraying unit 3 is also spiral-shaped, sprayers 4, an exhaust fan 5, a steam condensate jacket 6, made in the form of bundles of cooling tubes 7, emanating from the intermediate cold-distribution combs 8, a bath for collecting condensate 9, a riser 10, a vessel for a steam-forming chamber 24, it is also used to collect still residue (scale) 19, a partition forming protective space 11.

 In addition to the above, the apparatus also includes a chiller 12 with a cold distribution system 13, gear pumps 14 and 15, safety boxes 16, a heating device 17, a depressurizing device 18, a container for collecting desalinated water 20, a check valve 21, a container for source water 22, pipelines with fittings 23.

The use of a vacuum desalination bottom apparatus in practice
The process of desalination of sea water in the apparatus occurs continuously, depending on the performance of the pumps, the rate of vaporization and its rapid condensation. An increase in the productivity of the apparatus is achieved by the use of gear pumps, intensive vaporization occurs when the source water is sprayed into the vacuum vessel, and artificial cold with an exhaust fan is used to quickly condense the steam, which works from the water pressure directed from the riser to the fan blades. In addition, the integrity of the entire system must be impeccable. To increase the service life of the apparatus, the main working parts are coated with an anticorrosive composition or they are made of a corrosion-resistant material. Water (see drawing) for filling the vacuum vessel 1 is taken from the tank 22, which enters through the pipe 23. If the source water does not flow by gravity, then use the gear pump 14. When the apparatus is working through the pumps, the system must not be depressurized, for this pumps protect the box 16. The gear pump feeds the source water at a certain pressure along the riser 10 into the spiral-shaped unit 3, where the nozzles 4 are screwed, and their number depends on the performance of the device. After making sure that all sprayers and the exhaust fan are working properly, the hatch of the depressurizing device 18 is tightly closed. Then all the water from the vacuum vessel gear pump 15 is pumped out. In this case, the pressure in the vacuum vessel must correspond to the design.

 After the completion of preparatory measures, the entire apparatus is included in the work. Then the source water supplied by the pump, falling on the surface of the heating element in a highly atomized form, immediately turns into saturated steam, which is distilled with an exhaust fan 5 into a steam condensate jacket 6, made of bundles of cooling tubes 7, emanating from intermediate cold distribution dies 8, where there is artificial cold comes from the refrigeration machine 12 through a cold distribution system 13, where the steam, passing through the bundles of cooling tubes, condenses and drains into the bath 9. To prevent I premature vapor condensation still in the vaporization chamber 24 leave a small vapor barrier 11 by means of a partition.

 Condensate is pumped out of the bath into the tank 20. When the apparatus is forced to stop in order to prevent vacuum depressurization, a check valve 21 is provided in the system in the vacuum vessel.

 The source water coming from the tank is partially heated by washing the cylinder of the chiller. If this heat is not sufficient for intensive vaporization, then the water is heated directly in the vaporization chamber using heat obtained from an additional heating device 17. The bottom residue (scale) 19 from the apparatus is occasionally drained through the hatch of the depressurizing device.

 In the drawing, duplicate power mechanisms are not shown, but they are available, since after starting the device they are not stopped until the bottom residue reaches an acceptable level and density, so that no power mechanism can withstand such a load without stopping.

 The overall dimensions of one device should not exceed half the area of the platform of a railway carriage. An apparatus having such a volume can desalinate water of any density up to 10 cubic meters. meters per hour.

Claims (2)

 1. Vacuum desalination apparatus containing a vacuum vessel, a heating element, a vaporization chamber, a vapor condensation chamber, cooling vapor condensing tubes, a still bottom chamber, a spray unit with sprayers, pumps, tanks, pipelines with valves and a check valve, characterized in that it contains in the steam-generating chamber, the riser and the exhaust fan, which operates from the pressure of the water supplied from the riser to the fan blades, the steam condensate chamber is made in the form of a jacket ki, in which the bundles of cooling vapor-condensing tubes are placed, connected through intermediate cold-distribution combs to the cold-distribution system of the chiller, the steam-forming chamber has a partition forming a vapor-protective space, while the spraying unit and the heating element are made in a spiral shape.  2. The device according to claim 1, characterized in that use gear pumps with safety boxes and a depressurizing device.