RU63379U1 - DEVICE FOR PRODUCING WATER FROM ATMOSPHERIC AIR - Google Patents

Abstract

The invention relates to devices for the production of water from atmospheric air. The purpose of the development is the expansion of functional properties. The device contains a collection of fresh water in the form of a Dewar vessel, thermocouples, solar panels, cold and hot heat exchangers with air valves, which are air ducts, and a shield plate with holes for draining water is attached to the bottom of the cold heat exchanger, and a focus lens is located above the recirculation heat exchanger sun rays. The device can be made portable for the production of up to 1 liter of water from air in arid regions.

Description

The invention relates to devices for the production of water from atmospheric air in emergency situations.

A known installation for producing fresh water from atmospheric air, comprising a duct with an evaporator, a refrigeration machine, a condenser, a circulating cooling system, a fresh water collector, a recirculation heat exchanger connected to a cooling system, while the refrigerating machine is made of lithium bromide with a solar water heater and with an absorber connected to the cooling system, and the duct is installed vertically and the lower end is bent up, and the recirculation heat exchanger is installed in the duct nozzle (Pa ent RF 2004719. E 03 B 3/28. 1991).

A disadvantage of the known installation is the narrow functional properties.

The problem the proposed solution is aimed at is the expansion of functional properties.

The aforementioned drawback is eliminated by the fact that the device for receiving water from atmospheric air, comprising a duct, a fresh water collector, a refrigerating machine, is characterized in that the refrigerating machine is made in the form of a block of thermoelements in contact with hot and cold heat exchangers, and the cold heat exchanger is located in the upper part fresh water collector made in the form of a Dewar vessel, the recirculation heat exchanger is located above the hot heat exchanger, while there are air gaps between the heat exchangers and gaskets and thermal insulation, and in the heat exchangers and gaskets are channels that are duct for the air above the recirculation

a heat exchanger has a lens for focusing the sun's rays, and a shield plate with a hole for draining water is attached to a cold heat exchanger with openings for condensate drain.

The drawing shows a device for producing water from atmospheric air.

The device comprises a housing 1, made in the form of a Dewar vessel, a cover 2, in which there are thermocouples 3 in contact with hot 4 and cold 5 heat exchangers. In this case, the cold heat exchanger 5 has openings 6 for condensate drain and air channels 7, for example, made in the form of a snail and connected through the air gap 8 and the heat-insulating gasket 9 with openings with the air channels 10 of the hot heat exchanger 4, which through the other air gap 11 and are heat-insulating a gasket 12 with holes is connected to the air channels 13 of the recirculation heat exchanger 14, and above the heat exchanger 14 there is a lens 15 for focusing the sun's rays, and to the bottom of the cold heat exchanger 5, a shielding plate 16 is attached with holes 17 for collecting condensate. Thermocouples 3 are electrically connected to the solar panels 18 (connection is not shown in the drawing).

The principle of operation of the device is as follows. In arid regions, for example, in desert conditions, the sun's rays through the lens 15 heat the recirculation heat exchanger 14, as a result of which a stream of atmospheric air is formed in the air channels 7, 10 and 13 of the heat exchangers representing the air duct, which, passing through the channels 7 of the cold heat exchanger 5 , is cooled to the dew point, and condensate in the form of drops drops on the shielding plate 16 and flows through the openings 17 into the housing 1, made in the form of a Dewar vessel; The dried cold air then passes through the air gap 8 into the air channels 10 of the hot heat exchanger 4 and then into the air channels 13 of the recirculation heat exchanger 14 and is released into the atmosphere. At the same time, passing through the air channels 10, drained

cold air cools the hot heat exchanger 4, which contributes to a more efficient operation of thermocouples 3, which are fed from solar panels 18.

The proposed design of a device for producing water from atmospheric air can be portable, providing up to 1 liter of fresh water in desert conditions. There are no moving parts in the design, which increases reliability.

Claims (3)

1. A device for producing water from atmospheric air, containing an air duct, a fresh water collector, a refrigeration machine, characterized in that it contains a heat exchanger heated by sunlight and located above the hot heat exchanger, and the refrigeration machine is made in the form of thermocouples in contact with hot and cold heat exchangers having air channels, and the cold heat exchanger has openings for condensate drainage. 2. A device for producing water from atmospheric air according to claim 1, characterized in that a shielding plate with holes for draining the water into the fresh water collector is attached to the lower part of the cold heat exchanger. 3. A device for producing water from atmospheric air according to claim 2, characterized in that there are air gaps and heat-insulating gaskets with openings between the heat exchangers, and the heat exchangers with thermocouples are located in the housing representing the lid, the fresh water collector is made in the form of a Dewar vessel.