RU2011934C1 - Device for making water from warm moist air - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device consists of condenser 4, supply air duct 3, exhaust pipe 1 with coating 2 absorbing the solar radiation and reservoir for condensate. Supply air duct 3 is made in form of sleeve in which lower part of pipe 1 is coaxially located. Fins of condenser 4 are located in parallel with axis of exhaust pipe 1 both inside exhaust pipe and in space between exhaust pipe and wall of air supply duct 3. Device is embedded in ground. EFFECT: enhanced efficiency. 3 dwg

Description

 The invention relates to techniques for the use of solar energy, and more particularly to the design of a device for producing water from moist air.

 It is known that dew falls upon cooling moist air below the dew point temperature. It is also known that on the walls and ceiling of cold rooms, especially basements, moisture condenses from the warm air entering the room from the outside. However, for the regime of constant condensation of moisture, the subsequent collection of condensate and the use of water, intensive circulation of moist air (constant inflow and exhaust) is necessary, as well as the creation of conditions for the removal of heat generated during condensation of moisture.

 It is known to use exhaust pipes with an external coating that absorbs solar radiation, heated by the sun, and traction is strengthened (pressure drop is created) without the use of fans or any other similar devices. The air column in the exhaust pipe heats up, the relative density of the air in the exhaust pipe decreases and air draft is created in it with the help of solar energy.

 In addition to organizing intense draft, in devices for obtaining water from moist air, it is necessary to remove heat from the condenser to the environment.

 The aim of the invention is to increase the productivity of a device for producing water from moist air.

 In FIG. 1 schematically shows a device in section along a vertical axis; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 section BB in FIG. 1.

 A device for receiving water from moist air contains a chimney 1 with a coating 2 in its upper part, absorbing solar radiation, a supply duct 3, a condenser 4. In the upper part of the duct 3 there are openings 5 for air inlet. The device to the level of the holes 5 is buried in the ground 6. Condensate 7 is collected at the bottom of the duct 3. The duct 3 is made of plastic, the exhaust pipe and the ribs of the condenser 4 are made of a heat-conducting material, such as aluminum.

 The drawings conventionally show a device for supplying water to the surface.

 The device operates as follows. When heated under the action of solar radiation, the upper part of the exhaust pipe 1 in the pipe creates traction. Wet air from a layer close to the surface of the soil 6, through holes 5, flows down the duct 3 to the condenser 4 and is cooled on the edges of the condenser to a temperature below the "dew point". The moisture contained in the air condenses on the condenser 4 and flows to the lower part of the duct 3. The heat released during the condensation of moisture is removed along the edges of the condenser 4 through the side wall of the duct 3 into the ground 6. Then, the cooled air rises up the exhaust pipe 1, at In this case, it begins to heat up from the moist air coming down, according to the principle of a regenerative heat exchanger. As it arrives upward, the air heats up even more in the upper part of the exhaust pipe 1.

Claims (1)

 DEVICE FOR PRODUCING WATER FROM WARM WET AIR, containing an inlet duct made in the form of a cup, an exhaust pipe, the lower part of which is located coaxially with it and a water collector located below the end of the exhaust pipe, characterized in that the exhaust pipe is in communication with the supply the air duct through the water collector, the inlet duct below the intake hole is buried in the ground and is equipped with radial ribs, one ends in contact with the walls of the duct, the other ends in the floor the exhaust pipe, and the upper part of the latter is equipped with a coating absorbing solar radiation.

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