RU96105661A - DESINITOR OF SEA WATER KASHEVAROV "OMVK" - Google Patents

Claims (3)

1. OMVK seawater desalination unit having a seawater evaporator, a condensate steam condenser, pumps with electric motors and a source of electricity, water pipes, water pipes, characterized in that a glazed greenhouse is used as an evaporator, using solar radiation and external warm air to evaporate, which it is supplied to the greenhouse by fans, sea water is supplied to the greenhouse by spraying devices, for example nozzles mounted on a water pipe under the ceiling of the greenhouse, t a heat exchanger-condenser with three series-connected chambers for air coming from the greenhouse to the upper chamber with three series-connected chambers for sea water entering the lower chamber from the water conduit, which is laid to the deep layers of cold sea water, as a source of electricity consumed by the pump motors and fans, the Kashevarov wind farm is used according to the patent of the Russian Federation N 1800097 for an invention with a priority of 06.25.90 g, OMVK has a computer that controls its operation oh and elektrodatchiki connected to the computer to automatically enter data into it, describing the conditions OMVK work.  2. OMVK desalination plant according to claim 1, having a glazed greenhouse similar to greenhouses for growing vegetables, but sealed with water pipes laid along its ceiling parallel to the air flow created by fans installed in the inlet end hole of the greenhouse, the pipes passing from the pump to the fans, where they end with plugs, nozzles are installed on the pipes, spraying water in the direction of the air flow of air, at the beginning of the pipe there is a pump supplying water to the pipes under high pressure from the upper water chamber of the heat exchanger-condenser, the bottom of the greenhouse is made in the form of horizontal platforms with sides that delay the layer of evaporating sea water formed by the unevaporated part of the water sprayed by the nozzles, the bottom of the greenhouse goes down steps from the fans to the end of the greenhouse, the end end of the greenhouse is connected by a sleeve to the upper air chamber of the heat exchanger-condenser, non-evaporated water from the last site of the greenhouse is discharged into a pipe with a valve in the form of a float that determines the level of At this site, the greenhouse is equipped with temperature and humidity sensors of the air contained in it, connected to a computer that controls the operation of OMVK.  3. The OMVK desalination plant according to claim 1, having a heat exchanger-condenser formed by the lower, middle and upper chambers for sea water entering the lower chamber from the water conduit laid to the deep - cold layers of sea (ocean) water, and the upper, middle and lower chambers for moist air entering the upper chamber from the greenhouse, while the middle chamber for water and air is made in the form of tubes through which water and air pass in mutually opposite directions, which have common Helen, and through which heat exchange of water and air occurs, into the upper air and lower water chambers pass tubes, respectively, with water and air, between which heat exchange also takes place, the lower air chamber simultaneously serves to collect condensate formed as in tubes of the middle chamber, through which air passes from top to bottom, and in the lowest chamber, through which tubes of cold water (sea) pass from bottom to top, the middle chamber can be made in one of three versions of tubes with cross sections in the form of a circle, a rectangle or a triangle, an air duct with cold air, intended for use in hotel and domestic premises instead of air conditioners, leaves the lower air chamber, a water duct leaves the upper water chamber, which removes excess warm sea water that is not used for evaporation in the greenhouse, a pipe with a water pump leaves the lower air chamber, through which condensate from the lower chamber is supplied to the consumer through the water supply.