RU2649890C1 - Installation of fresh water extraction from atmospheric air - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention may be used in areas with a lack of natural sources of fresh drinking water for autonomous production of it using renewable energy sources. Plant for extraction of fresh water from the atmospheric air consists of a vertical-axial wind turbine, a condensate-filled water basin. It also contains a vortex thermocouple, a condensation chamber, a radiator for cooling air. Vertical axial wind turbine is designed as a vortex wind turbine, installed with the ability to form a swirling laminarized air flow and injecting it through the air duct into a vortex thermocouple, where the air flow divides into hot and cold streams. Thermocouple has one exhaust duct to divert the hot flow into the condensation chamber, and the other exhaust duct is connected to a radiator that has an exhaust air duct for exhausting the cooled air. Condensation chamber is equipped with an exhaust air duct for draining the dried air into the environment. Condensed moisture enters the header, where a cold accumulator is installed, made of a composite material with low thermal conductivity. Condensation chamber with a vortex thermoregulator placed in it, an air cooling radiator and a water collector is installed under a bulkhead above the ground line at a height equal to the depth of soil warming, depending on the climatic conditions of a particular locality.

EFFECT: effective extraction of fresh water is ensured.

1 cl, 1 dwg

Description

The invention relates to installations for producing fresh water from atmospheric air using renewable energy sources.

It is known that one of the main advantages of the Great Silk Road was wells installed at a distance of 12-15 km from each other, where water was extracted directly from atmospheric air. In the design of the well, ancient engineers used the vortex effect. The well itself was half dug in the ground. In the center of the recess for accumulated water, a pile of stones (condenser) neatly lined with a high cone towered (Khamzya Umyarov - The Great Silk Road: Whirlwinds in wells // Technique of Youth, No. 8, 2008, pp. 20-23)

The technological secret of ancient engineers remains unsolved to this day, therefore, this construction of the well cannot be fully reconstructed.

Known installations for producing water from atmospheric air using wind energy (RF patent No. 2526628, IPC EV 03/28, publ. 08/27/2014; http://eco-energiva.blogspot.ru/2015/06/eolewater.html, http : //derevnyaonline.ru/community/46/3532).

The disadvantages of these installations is that for the start and operation of a wind turbine, the minimum wind speed is 7 m / s and above, require periodic maintenance and repair (at least once a month), high material consumption and low productivity of moisture extraction from air.

It is known that in a cubic meter of air contains (depending on humidity) 4 to 25 grams of water vapor (Shmeter S.M. Humidity // Physical Encyclopedia / Edited by A.M. Prokhorov. - M .: Soviet Encyclopedia , 1988. - T. 1. - S. 285-286. - 704 p.). This volume of 12 to 16 thousand km ^{3 of} moisture (or 0.000012% of all water on Earth) can be compared with the amount of water in the Great Lakes of North America. Known installations for the extraction of fresh water from atmospheric air can collect on average about 20-30% of this amount. The best conditions for them (high humidity and temperature) are in countries located within 30 degrees of latitude from the equator. Here are the poorest and most populous countries in the world.

Known vortex wind turbine with a vertical axis of rotation, containing an exhaust tower with an annular air intake at the base, a guide apparatus, a wind wheel mounted at the outlet of the guide apparatus, an exhaust device and vortex generators creating a swirling air flow (RF patent No. 2073111, IPC F03D 3/00 , publ. 02/10/1997).

The disadvantage of this installation is that at a high speed swirling flow in the exhaust cylindrical channels, the wind wheel creates an air cushion, inhibiting the flow, and thereby reducing the efficiency of the installation.

The closest in technical essence to the proposed invention is the Water Seer installation, proposed by engineers of the University of California at Berkeley in collaboration with the humanitarian organization Peace Corps, designed to condense moisture from atmospheric air (http://www.energy-fresh.ru/ekosfera / water /? id = 13743). The installation contains a vertical-axis helicoidal wind turbine that drives air into a special chamber - a water collector buried in the ground, where water condenses on the walls of the chamber and accumulates due to the low temperature, and water can be obtained from the water collector using a hose or pump.

A disadvantage of the known installation is the low efficiency of the wind turbine due to the low life of the support nodes, due to the high dynamic loads on them from the rotor, the complicated production technology of swirling blades, which affects the increase in their cost, and relatively high material consumption. The coefficient of utilization of wind energy (KIEV) of this wind turbine is not more than 40%, therefore, the productivity of the plant for producing fresh water is very low. In addition, there is no exhaust device, which affects the change in the ratio of temperatures required for the formation of the dew point in the catchment, thereby reducing the productivity of fresh water extraction.

The vortex effect is known (Ranque-Hilsch Effect, Eng. Ranque-Hilsch Effect), in which the air flow "spontaneously" is divided into cooled and hot peripheral flows (A. Merkulov. Vortex effect and its application in technology. - M.: Mechanical Engineering , 1969, 183 p.).

The objective of the invention is the creation of an autonomous installation for the effective extraction of fresh water from atmospheric air using a vortex wind turbine, simple in design and using a vortex effect, which significantly affects the increase in air volume per unit time passing through the installation, as well as the temperature separator of the air stream ( vortex thermal converter), for installation in areas with a lack of natural sources of fresh drinking water.

As a result of using the present invention, it becomes possible to efficiently extract fresh water by generating and generating incoming air into a swirling flow by a vortex generator, followed by forcing it into a vortex thermal transducer (for example, the Rank-Hillsch tube), where the flow is separated, forming a swirling flow on the periphery enriched with moisture, in the center is a cooled stream that enters the radiators for cooling, and the saturated hot air condenses and cooled radiators and enters the catchment, where an additional cold accumulator is a block made of a composite material with low thermal conductivity.

Reliability and durability of the installation are increased due to the absence of rotating parts and assemblies, and operability and performance are maintained for a long time. The efficiency of the installation and the intensity of extraction depend only on the speed of the wind flow. The construction of plants of various sizes will make it possible to use them both individually and to supply water to entire settlements, as well as to create artificial reservoirs in arid regions to improve lands prone to desertification and degradation.

The above technical result is achieved in that the installation of fresh water extraction from atmospheric air, consisting of a vertical-axis wind turbine, a condensate collector, according to the invention contains a vortex thermoconverter, a condensation chamber, a radiator for cooling the air, while the vertical-axis wind turbine is made in the form of a vortex wind turbine installed with the possibility of forming a swirling laminarized air flow and forcing it through the air in a vortex thermal converter, where the air flow is divided into hot and cold flows, while the thermal converter has one exhaust duct to divert the hot stream to the condensation chamber, and the other exhaust duct is connected to a radiator, which has an exhaust duct to drain the cooled air, and the condensation chamber equipped with an exhaust duct for draining the drained air into the environment, while condensed moisture enters the catchment, where the accumulator is installed cold formed from a composite material with low thermal conductivity, and the condensing chamber with placed in it a vortex thermostat, radiator and air cooling Water Collector set under artificial mound above the soil line height equal to the depth of heating of the soil, depending on climatic conditions specific locality.

In the installation for extracting fresh water from atmospheric air to produce fresh water from atmospheric air containing a vertical-axis wind turbine, a condensate collector, a vertical-axis wind turbine is made in the form of a vortex wind turbine installed so that it runs at a speed of 2 to 20 m / s, the air flow passing through the air intake of the vortex wind turbine was formed into a swirling laminarized flow and was pumped through the air duct into the vortex thermal converter, where separation of the flow, forming on the periphery a hot swirling flow, enriched with moisture, and in the center a cooled flow that enters the radiators through the air duct pipes and the saturated hot air enters the condensation chamber, where it condenses on the cooled radiators, and the condensed moisture enters the water collector where an additional cold accumulator is a block made of a composite material with low thermal conductivity, while air drained from moisture and cold air are removed from the radiator I through the exhaust air to the environment, and with a moisture condenser sump installed under the artificial mound above the soil line height equal to the depth of heating of the soil, depending on climatic conditions specific locality.

The present invention is based on the use of the phenomenon of the vortex effect, discovered by J. Rank and applied in industry A.P. Merkulov (Merkulov A.P. Vortex effect and its application in technology. M.: Mechanical Engineering, 1969).

The essence of the proposed installation for the extraction of fresh water from atmospheric air is illustrated by the drawing, which shows the General scheme.

The installation for extracting fresh water from atmospheric air contains a vortex wind turbine 1, a vortex thermoconverter 2, a condensation chamber 3, an air duct 4 connecting a vortex wind turbine 1 with a vortex thermoconverter 2, an exhaust duct 11 that outputs a hot enriched stream from a vortex thermoconverter 2, an exhaust air chilled air flow from the vortex thermal transducer 2, radiator for cooling air 5, exhaust duct 6, exhaust air from the condensation chamber 3, exhaust duct 13, exhaust air from the radiator 5, a water collector 7, a pipeline for extracting extracted water from atmospheric air to the consumer 8, a bulk hill 9, a cold accumulator made of composite material 10.

The catchment 7 is located under the bulk hill 9 above the soil line with a height equal to the depth of heating of the soil depending on the climatic conditions of a particular area.

The vortex wind turbine 1 is installed with the possibility of forming a swirling laminarized flow and forcing through the air duct 4 into the vortex thermal transducer 2.

Installation of fresh water extraction from atmospheric air works as follows.

The incoming wind flow, starting from a speed of 2-3 m / s, is converted through a vortex wind turbine 1 into a swirling and cooled stream, which is pumped through an air duct 4 into a vortex thermoconverter 2, where the air stream is separated. A hot swirling stream, enriched in moisture, formed in the vortex thermoconverter 2 at the periphery, enters the condensation chamber 3 through the exhaust duct 11, and in the center, the cooled stream flows through the pipes of the duct 12 to the radiator 5 for cooling. Saturated hot air entering the condensation chamber 3 is condensed on a cooled radiator 5, after which the extracted water enters the water collector 7, where it is additionally cooled by a cold accumulator 10 made of a composite material with low thermal conductivity.

Further, air dried from moisture from the condensation chamber 3 and cold air from the radiator 5 are discharged through exhaust ducts 6 and 13 into the environment. A condensation chamber 3 with a swirl temperature controller 2 located in it, an air cooling radiator 5, and a water collector 7 are installed under an embankment hill 9 above the soil line with a height equal to the soil heating depth depending on the climatic conditions of a particular area. The accumulated extracted fresh water from atmospheric air flows by gravity through the pipeline 8 to the consumer.

Claims (1)

Installation for the extraction of fresh water from atmospheric air, consisting of a vertical-axial wind turbine, a condensate collector, characterized in that it contains a vortex thermal converter, a condensation chamber, a radiator for cooling the air, while the vertical-axis wind turbine is made in the form of a vortex wind turbine, installed with the possibility of forming a swirling laminarized air flow and forcing it through the air duct into a vortex thermal converter, where the section occurs the air flow to hot and cold flows, while the thermal converter has one exhaust duct to divert the hot stream to the condensation chamber, and the other exhaust duct is connected to a radiator, which has an exhaust duct to exhaust the cooled air, and the condensation chamber is equipped with an exhaust duct for draining the drained air into the environment, while condensed moisture enters the catchment, where a cold accumulator is installed, made of a composite material with low t ploprovodnostyu, a condensation chamber with placed in it a vortex thermostat, radiator and air cooling Water Collector set under artificial mound above the soil line height equal to the depth of heating of the soil, depending on climatic conditions specific locality.

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