RU2745593C2 - Device for fresh water production from atmospheric air - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to devices for the fresh water production from water vapours contained in ambient atmospheric air, and can be used to produce fresh water mainly in the coastal with the seas regions. Device consists of container with open top submerged into water reservoir with sea water so that its walls extend beyond water surface. Upper edge of container is equipped with caps to prevent ingress of splashes from sea waves, which are directed to centre of container at an angle to horizontal plane. Inside the vessel there is a through passage for sea water flow, located between two opposite walls of the reservoir and arranged so that one end of the path is located at the water surface, and the other one is below with an inclination, which is within 20–45°. In its cross-section the path has the shape of a triangle, the base of which faces the reservoir bottom, and the vertex faces the surface of the reservoir. Length of base of triangle is less than width of container in direction perpendicular to arrangement of path. Angle between lateral ribs of the triangle is within 90–140°. Above the path there is a solar collector fixed on side surfaces of the reservoir, having through holes in vertical direction. Solar collector is arranged so that between its lower surface and the upper surface of the path there is an air gap. In close proximity to the above end of the channel in the sea water there is an actuator of the wind energy converter, which is a rotating shaft with a blade mechanism for injecting sea water into the path. Wind energy converter is attached from the outside to the container side surface due to the fastening device. Fresh water vessel is located at reservoir bottom. Container location at the water body surface is ensured by the floats.

EFFECT: technical result: avoiding the risk of ingress of sea water into a vessel with fresh water, high degree of warming the air above the surface of the path, which intensifies the process of condensation of fresh water.

1 cl, 2 dwg

Description

The invention relates to a device for producing fresh water from water vapor contained in the surrounding atmospheric air, and can be used to obtain fresh water mainly in coastal areas with seas.

The prototype of the invention is the device described in [1].

The device consists of a container with an open top, immersed in a reservoir with sea water so that its walls extend beyond the surface of the water. Inside the tank there is a through channel for the flow of seawater, located between two opposite walls of the tank and placed so that one end of the channel is at the surface of the water, and the other is lower with an inclination within the range of 20-45 °. The cross-section of the tract has the shape of a triangle, the base of which is directed to the bottom of the tank, and the top to the surface of the reservoir. The length of the base of the triangle is less than the width of the container in the direction perpendicular to the location of the tract. The angle between the lateral edges of the triangle is in the range of 90-140 °. In the immediate vicinity of the upper end of the tract in seawater, there is an actuator for the wind energy converter, which is a rotating shaft with a blade mechanism for pumping seawater into the tract. The wind energy converter is attached from the outside to the side surface of the container by means of a fastening device. At the bottom of the tank there is a vessel for fresh water. The location of the container at the surface of the reservoir is provided by floats.

The disadvantage of such a device is the risk of splashing of seawater into the vessel with fresh water, as well as insufficient heating of the air above the upper surface of the duct, which reduces the intensity of condensation of moisture.

The aim of the invention is to eliminate the risk of seawater entering a vessel with fresh water, as well as to increase the degree of heating of the air above the surface of the duct - the zone of moisture condensation.

The purpose is achieved by the fact that the upper edge of the container is equipped with visors to prevent splashes from sea waves from entering it, facing the center of the container at an angle to the horizontal plane. In this case, a solar collector is located above the channel, fixed on the side surfaces of the container, having through holes in the vertical direction, located so that there is an air gap between its lower surface and the upper surface of the channel

The block diagram of the device is shown in Fig. one.

The device consists of a container 1 (Fig. 1, a ) with an open top, immersed in a reservoir with sea water so that its walls go beyond the surface of the water, while the upper edge of the container 1 is equipped with visors 2 to prevent splashes from sea waves from entering it facing the center of the container at an angle to the horizontal plane. Inside the container 1 there is a through path 3 for the flow of seawater, located between two opposite walls of the container 1 and placed so that one end of the path is at the surface of the water, and the other is lower with an inclination within the range of 20-45 °. The path is shown in FIG. 1b and in cross-section has the shape of a triangle, the base 4 of which faces the bottom of the container 1, and the top 5 to the surface of the reservoir. The length of the base of the triangle is less than the width of the container 1 in the direction perpendicular to the location of the tract 3. The angle between the lateral edges 6 of the triangle lies in the range of 90-140 °. Above the path 3 there is a solar collector 7, fixed on the side surfaces of the container 1, having through holes in the vertical direction, located so that there is an air gap between its lower surface and the upper surface of the path 3. In the immediate vicinity of the above end of the tract 3 in the sea water, there is an actuator of the wind energy converter 8, which is a rotating shaft with a blade mechanism for pumping seawater into the tract 3. The wind energy converter 8 is attached from the outside to the side surface of the container 1 by means of a fastening device 9. At the bottom of the container 1 there is a vessel for fresh water 10. The location of the container 1 at the surface of the reservoir is provided by floats (not shown in the figure).

The device works as follows. The container 1 is placed in a reservoir and is fixed in the desired position by means of appropriate latches (not shown in the figure). After the tank 1 is immersed in the reservoir, sea water will begin to flow through the path 3 due to its inclination at an appropriate angle under the action of gravitational forces. The seawater will cool the duct 3 in general, and in particular its upper surface, thereby forming a moisture condensation zone. The continuous movement of sea water along the path 3 is carried out by the wind energy converter 8, which ensures its constant injection into the path 3 from the side located at the surface of the reservoir. The solar collector 7 located above the path 3 will provide additional heating of the air above the upper surface of the path 3, which will make it possible to intensify the process of fresh water condensation. Through holes in the solar collector 7 will provide a constant flow of moist air into the condensation zone. The moisture condensed from the air will drain into the vessel for collecting fresh water 10 due to the action of gravitational forces and a special design of the tract 3, in the cross section having the shape of a triangle with a base 4, apex 5 and side ribs 6, which are inclined with respect to the horizontal axis. The floats ensure the constant presence of the container 1 at the surface of the reservoir, and the visors provide protection against the ingress of seawater splashes into it.

Literature

1. RF patent for invention No. 2651294 Device for obtaining fresh water from atmospheric air / Ismailov TA, Evdulov OV, Evdulov DV, Kazumov R.Sh. - publ. 04/19/2018, Bul. No. 11.

Claims (1)

A device for obtaining fresh water from atmospheric air, containing a container with an open top, immersed in a reservoir with seawater so that its walls extend beyond the surface of the water, inside which there is a through path for the flow of seawater, located between two opposite walls of the container and placed so so that one end of the tract is at the surface of the water, and the other is lower with an inclination within the range of 20-45 °, while the tract in cross-section has the shape of a triangle, the base of which faces the bottom of the tank, and the top to the surface of the reservoir, and the length of the base triangle is less than the width of the container in the direction perpendicular to the location of the tract, the angle between the lateral edges of the triangle lies within 90-140 °, while in the immediate vicinity of the upper end of the tract in sea water there is an actuator of the wind energy converter, which is a rotating shaft with paddle mechanism for pumping marine odes to the tract, fixed from the outside to the side surface of the tank due to the fastening device, while the location of the tank at the surface of the reservoir is provided by floats, characterized in that the upper edge of the tank is equipped with peaks facing the center of the tank at an angle to the horizontal plane, and a solar collector is located above the tract , fixed on the side surfaces of the container, having through holes in the vertical direction, located so that there is an air gap between its lower surface and the upper surface of the duct.

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