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WATER EXTRACTORS FROM ATMOSPHERIC AIR
Extraction complexes of water from atmospheric air operate in a wide range of environmental parameters with absolute humidity from 3 to 80 g/m3. In regions with arid and semi-arid climates, in certain local territories characterized by modified environmental parameters, the complex has no analogues in the world.
As you know, in arid and semi-arid areas, the absolute humidity of the air is very low – up to 10 g/m³, which does not allow extracting water from the atmospheric air in sufficient quantities. The developed 'OASIS' system extracts water from the atmospheric air, taking into account the influence of environmental parameters, using the features of the climate, landscape, and soil of specific locations in arid and semi-arid regions.
The extractor's performance depends on the climatic conditions and the volume of air passing through the system. The projected results of the project will allow organizing water supply in water-deficient areas and improve the living standards of the population.
The extractor's performance depends on the climatic conditions and the volume of air passing through the system. The projected results of the project will allow organizing water supply in water-deficient areas and improve the living standards of the population.
Freshwater shortage in the world
DEGRADATION OF AGRICULTURAL LAND
There are 2.0 billion hectares of fertile land in the world.
There are 2.0 billion hectares of fertile land in the world.
SURFACE WATER POLLUTION
The total mass of hydrosphere pollutants is about 15 billion tons per year
The total mass of hydrosphere pollutants is about 15 billion tons per year
GROUNDWATER DEPUTY
Groundwater is depleted by more than 40%
Groundwater is depleted by more than 40%
DESERTIFICATION
There are about 1 billion hectares of agricultural land in the world
There are about 1 billion hectares of agricultural land in the world
Since 2020, the MONTANS team has been working on the development of an atmospheric water extractor for operation in hot and dry climates, under the following climatic conditions:
On the topic of atmospheric water extraction, the authors hold over 18 Russian patents and 1 foreign patent."
- ambient temperature of 12-50°C,
- relative humidity of 10-90%,
- absolute humidity of 4-75g/m3
On the topic of atmospheric water extraction, the authors hold over 18 Russian patents and 1 foreign patent."
Water extraction complex
up to 1000 liters / day
up to 700 kg
up to 8.4 kWh
from 10 to 90%
from 3 to 75 grams / m3
from 12 to 50oc
up to 700 kg
up to 8.4 kWh
from 10 to 90%
from 3 to 75 grams / m3
from 12 to 50oc
Performance
Weight
Installed capacity
Relative Humidity
Absolute humidity
Temperature Range
Weight
Installed capacity
Relative Humidity
Absolute humidity
Temperature Range
The 'OASIS' atmospheric water extraction complex extracts water from the air considering the influence of environmental parameters, utilizing the peculiarities of the climate, landscape, and soil of specific areas in arid and semi-arid regions.
The productivity of the extractor depends on the climatic conditions and the volume of air passing through the system. The projected results of the project will allow organizing water supply in water-deficient areas and improving the living standards of the population.
The productivity of the extractor depends on the climatic conditions and the volume of air passing through the system. The projected results of the project will allow organizing water supply in water-deficient areas and improving the living standards of the population.
Water Extraction Complex from the Air 'OASIS
Comparative analysis of water extractors 1000 liters/day (prices as of 2021)
Atmospheric water extractors (AWE 100) with a productivity of up to 100 liters per day, under the following environmental conditions:
- Ambient air temperature 10-60ºC
- Relative humidity 10-90%.
Mobile atmospheric water extractor (AWE 30) with a productivity of up to 30 liters per day, under the following environmental conditions:
- Ambient air temperature 10-60ºC
- Relative humidity 10-90%.
Water Extraction Complex
(КЭВ 100)
Water Extraction Complex
(КЭВ 30)
Research was conducted in natural conditions in 2018 and 2019 in the southern regions of Russia
Conducting experiments in the natural conditions of a hot and dry climate in the Southern Federal District (SFD) in 2022
Production of drinking water from air
Production of drinking water from atmospheric humidity is one of the most important and innovative solutions for water extraction available today. It is used to address the growing problem of depleting drinking water resources worldwide.
