WO2015149816A1

WO2015149816A1 - Device for producing water from ambient air

Info

Publication number: WO2015149816A1
Application number: PCT/EA2014/000008
Authority: WO
Inventors: Татьяна Петровна БЕЛОБОЖНАЯ; Денис Дмитриевич ШАТАЛОВ; Рафинат Саматович ЯРУЛЛИН; Мусрет Османович НАМАЗОВ
Original assignee: УГЛОВСКИЙ, Сергей Евгеньевич
Priority date: 2014-04-04
Filing date: 2014-04-04
Publication date: 2015-10-08

Abstract

This invention relates to apparatuses for producing fresh water from ambient air, and more particularly to apparatuses utilizing renewable energy sources. The invention is intended primarily for producing fresh water from ambient air using cold from seawater or from the ground during the warm season. The device works as follows. A heat transfer medium in a closed circulation loop is cooled in the depths of the sea by cold from seawater and is heated in a condensation chamber by heat from humid ambient air. The production of fresh water in the device is based on the phenomenon of the condensation of moisture from ambient air on a cooled surface with a temperature below dew point. Cold from deep layers of water or the ground is used as a source of cold. Humid ambient air arriving in the condensation chamber via an air inlet is cooled to below dew point, loses excess moisture, and exits via an air discharge system. The invention can be used for extracting and reusing moisture in hotbeds and greenhouses, and also for drip irrigation or watering trees in gardens. The device remains functional as long as the temperature and humidity of the ambient air are sufficiently high for the air to cool in the condensation chamber to a temperature below dew point.

Description

DEVICE FOR PRODUCING WATER FROM ATMOSPHERIC AIR

DESCRIPTION

The invention relates to installations for producing fresh water from atmospheric air, in particular to installations using renewable energy sources. The invention is intended primarily for producing fresh water from atmospheric air using cold sea water or soil in the warm season.

A device and method for extracting moisture from the atmosphere (US patent Ns 3498077, 1970, MKI F25D23 / 12), which is suitable for use in the coastal marine area. Cold sea water is pumped by the pump through condensers located on the shore, extracting water from intercepted marine air masses with high humidity. The device is driven by hydraulic turbines or windmills.

The disadvantage is the high energy costs of raising cold sea water from a depth of several hundred meters in an open circulating sea water circuit. Another disadvantage is the salinization of the pipeline, the flow part of the pump and the condenser with sea water, the special requirements for materials and the design of the pump, leading to its cost increase.

A device and method for extracting drinking water from the air (US patent N ° 4351651, 1982, MKI EOZVZ / 28, C02F1 / 18), by passing moist atmospheric air from the surface of the earth through a cold heat exchanger located underground or at the bottom of the sea , and having a low subsurface temperature.

The disadvantage of this installation is the inconvenience of condensate drainage, as well as increased energy consumption for the organization of air circulation, special requirements for the design of the condenser, leading to its cost increase.

A known installation for the intensification of dew formation and dew collection (RF patent Ns 2149957, 2000, MKI EOZVZ / 28, B01 D5) containing a water collector and a dew condenser, the condensing surface of which is a radiator raised above the surface of the earth, having a "cellular structure and simulating an absolutely black body, with a drain pan and sewer pipes for draining the formed dew into the water collector, and a louvre-reflector was added to the unit to protect the cellular structure from overheating in the daytime. The device operates as follows: during the day, the blinds are closed and, thanks to their mirror surface, solar radiation is reflected, preventing the heating of the condenser’s cellular structure. At night, the blinds open, and the cellular structure of the condenser radiates into space, which leads to a decrease in its temperature and dew condensation. Due to the branched surface of the capacitor, the amount of dew formed is much larger than above a flat surface.

The disadvantage of this installation is its low productivity. Also, the disadvantage is that the installation is functional only in the dark.

Closest to the claimed is a device (prototype) described in RF patent N ° 2157874, 2000, MKI EOZVZ / 28, C02F1 / 04. Installation for producing fresh water, containing a condensate chamber connected to the intake and discharge of air, while the flow of atmospheric air into the condensate chamber is provided by force or by gravity due to the energy of the sun or wind, the condensate chamber is located under water or in the ground at a depth that does not have seasonal temperature changes, and the air intake is made in the form of a weather vane, characterized in that the condensate chamber is thermally insulated from the intake and discharge of air.

The objective of the invention is to provide a device for producing fresh water from atmospheric air, having a simple and reliable design, which would be economical to manufacture and durable in operation.

It is also an object of the present invention to provide a device for producing fresh water from atmospheric air having a condensate purification unit, which may include UV disinfection, electrostatic filters, a coal unit for producing purified drinking water.

The tasks are achieved using this device to obtain fresh water from atmospheric air through the use of cold sea water or soil.

The production of fresh water in the device is based on the phenomenon of moisture condensation from atmospheric air on a cooled surface with a temperature below the dew point. The cold source of the deep layers of water or soil is used as a source of cold. A distinctive feature of the proposed device is that in a closed circulation loop, the chemically neutral intermediate coolant is cooled in the depths of the sea due to the cold of sea water or in the soil due to the cold of the soil.

A distinctive feature of the proposed device is that the air intake is made in any way.

A distinctive feature of the proposed device is that the condensate chamber is located in the atmosphere, and the condensate chamber can be located at any height.

Also, a distinctive feature of the proposed device is a condensate purification unit, which may include UV disinfection, electrostatic filters, a coal block for producing purified drinking water. The condensate purification unit may include other types of filters, depending on the quality and composition of air pollution.

The invention is illustrated in the drawing (Figure 1), which shows a diagram of a device for producing fresh water from atmospheric air through the use of cold sea water or soil.

A brief description of the drawings:

Figure 1 shows a schematic diagram of an example implementation of a device for producing fresh water from atmospheric air through the use of cold sea water or soil, consisting of: an air intake (1), a condensate chamber (2), an air discharge system (3), a condensate purification unit ( 4), condensate collector (5), coolant circulation circuit (6), circulating device (7).

Disclosure and implementation of the invention:

The device operates as follows. The coolant in a closed circulation circuit (6) is cooled in the depths of the sea due to the cold of sea water and is heated in the condensate chamber (2) due to the heat coming from humid atmospheric air. The production of fresh water in the device is based on the phenomenon of moisture condensation from atmospheric air on a cooled surface with a temperature below the dew point. The cold source of the deep layers of water or soil is used as a source of cold. Humid air entering the condensate chamber through the air intake (1) is cooled below the dew point, loses excess moisture and exits through the air discharge system (3). The necessary air flow can be ensured by the coastal sea wind. You can increase productivity by orienting the air intake towards the wind, for which it is necessary to make it rotate and in the form of a weather vane. If forced blowing is required, it is possible to use electric fans to ensure the required air performance, and various sources can be used for fan drives: wind engines, wind mills, solar power plants, and electricity.

The device may have a condensate purification unit (4), which may include electrostatic filters, UV disinfection, a coal block for obtaining purified drinking water from condensate. The heat carrier can be circulated by a circulation pump. T to the energy consumption in the circulation pump does not depend on the location of the circuit, the condensate chamber can be located above the water consumer, in this case, the condensate formed, entering the condensate collector (5), will have a hydrostatic pressure equal to the height of the condensate chamber relative to the water consumer , and water supply to the consumer can be carried out by gravity.

To cool the coolant, it is necessary to position a part of the closed loop of the coolant at an appropriate depth with a low temperature.

The device remains operational as long as the temperature and humidity of the atmospheric air are high enough so that it is cooled in the condensate chamber to a temperature below the dew point.

If sea water is unavailable, soil cold can be used. The invention can be used to remove and reuse moisture in greenhouses and greenhouses, as well as for drip irrigation or watering trees in gardens. In greenhouses and greenhouses, where the air has a high temperature and humidity, the device performance may be sufficient, achieved when the coolant circuit is located in the soil at a depth of 1, 5 - 2 meters below the freezing depth.

If the electric drive is unavailable for the circulation pump, another device can be used to circulate, in particular, a gas piston using direct gas expansion during combustion. To avoid water hammer, a layer of air is used between the piston and water, which acts as a gas shock absorber.

Claims

CLAIM

1. A device for producing fresh water from atmospheric air through the use of cold sea water or soil, containing a condensate chamber connected to the intake and discharge of air, and the flow of atmospheric air into the condensate chamber is provided by force or by gravity due to the use of solar or wind energy, characterized in that the air intake is made in any way, the condensate chamber is located in the atmosphere, the aforementioned device contains a condensate purification unit, a condensate collector, closed a circulation circuit in which the coolant is cooled in the depths of the sea due to the cold of sea water or in the soil due to the cold of the soil and is heated in the condensate chamber due to the heat from humid atmospheric air, a device circulating the coolant in a closed circuit, and the condensate chamber can located at any height.

2. The device according to claim 1, characterized in that the circulating device is made in the form of a circulation pump.

3. The device according to claim 1, characterized in that the circulating device is made in the form of a gas piston using direct expansion of the gas during combustion, and an air layer is used between the piston and the water, in order to avoid hydraulic shock acting as a gas shock absorber.

4. The device according to claim 1, characterized in that the condensate purification unit may include electrostatic filters, UV disinfection, a coal block for producing purified drinking water.