Kamis, 03 Mei 2018

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An atmospheric water generator (AWG) is a device that extracts water from humid ambient air. Water vapor in the air can be extracted by condensation - cooling the air below its dew point, exposing the air to desiccants, or by reducing the air pressure. Unlike a dehumidifier, an AWG is designed to render the water potable. AWGs are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The two primary techniques in use are cooling and desiccants.

The extraction of atmospheric water may not be free of cost, because significant input of energy is required to drive some AWG processes. Certain traditional AWG methods are completely passive, relying on natural temperature differences, and requiring no external energy source. Research has also developed AWG technologies to produce useful yields of water at a reduced (but non-zero) energy cost. Biomimicry studies have shown the Stenocara gracilipes has the natural ability to perform this task.


Video Atmospheric water generator



History

The Incas were able to sustain their culture above the rain line by collecting dew and channeling it to cisterns for later distribution. Historical records indicate the use of water-collecting fog fences. These traditional methods have usually been completely passive, requiring no external energy source other than naturally occurring temperature variations.

Several inventors have developed air wells as a way to passively collect moisture from air.


Maps Atmospheric water generator



Modern technologies

Many atmospheric water generators operate in a manner very similar to that of a dehumidifier: air is passed over a cooled coil, causing water to condense. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. This is the most common technology in use, but when powered by coal-based electricity it has one of the worst carbon footprints of any water source (exceeding reverse osmosis seawater desalination by three orders of magnitude) and it demands more than four times as much water up the supply chain as it delivers to the user.

An alternative available technology uses liquid, or "wet" desiccants such as lithium chloride or lithium bromide to pull water from the air via hygroscopic processes. A proposed similar technique combines the use of solid desiccants, such as silica gel and zeolite, with pressure condensation. Direct drinking quality water generating devices using sun light are also under development.

It is said to take 310 Wh to make 1 litre of water.

Cooling condensation

In a cooling condensation type atmospheric water generator, a compressor circulates refrigerant through a condenser and then an evaporator coil which cools the air surrounding it. This lowers the air temperature to its dew point, causing water to condense. A controlled-speed fan pushes filtered air over the coil. The resulting water is then passed into a holding tank with purification and filtration system to help keep the water pure and reduce the risk posed by viruses and bacteria which may be collected from the ambient air on the evaporator coil by the condensing water.

The rate at which water can be produced depends on relative humidity and ambient air temperature and size of the compressor. Atmospheric water generators become more effective as relative humidity and air temperature increase. As a rule of thumb, cooling condensation atmospheric water generators do not work efficiently when the temperature falls below 18.3°C (65°F) or the relative humidity drops below 30%. This means they are relatively inefficient when located inside air-conditioned offices. The cost-effectiveness of an AWG depends on the capacity of the machine, local humidity and temperature conditions and the cost to power the unit.

New emerging technology utilize the Peltier effect of semi-conducting materials in which one side of the semi-conducting material heats while the other side cools. In this application, air is forced over the cooling fins on the side that cools which lowers the temperature of the air to its dew point, causing water to condense. The resulting water is then collected. Due to the solid-state nature of the semi-conducting material and the lower power usage, some of these new designs use solar energy panels as the power source.

The drinking water generation capacity can be enhanced in low humidity ambient air conditions, first by using the evaporative cooler with a brackish water supply to increase the air humidity near to dew point condition. Thus drinking water is generated using brackish water without depending on ambient air humidity by the water generator.

Wet desiccation

One form of wet desiccant water generation involves the use of salt in a concentrated brine solution to absorb the ambient humidity. These systems then extract the water from the solution and purify it for consumption. A version of this technology was developed as portable devices which run on generators. Large versions, mounted on trailers, are said to produce up to 1,200 US gallons (4,500 l) of water per day, at a ratio of up to 5 gallons of water per gallon of fuel. This technology was contracted for use by the US Army and the US Navy from Terralab and the Federal Emergency Management Agency (FEMA).

A variation of this technology has been developed to be more environmentally friendly, primarily through the use of passive solar energy and gravity. Brine is streamed down the outside of towers, where it absorbs water from the air. The brine then enters a chamber and subjected to a partial vacuum and heated. The water vapor is collected and condensed, while the renewed brine is recirculated through the system. As the condensed water is removed from the system using gravity, it creates the vacuum which lowers the boiling point of the brine.

Prototype systems combining adsorption, refrigeration and condensation are also being developed.


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In greenhouses

A special case is water generation in greenhouses because the air inside a greenhouse is much hotter and more humid than the outside. Particularly in climatic zones with water scarcity, a greenhouse can strongly enhance the conditions necessary for atmospheric water generation. Examples are the seawater greenhouse in Oman, and the proposed Integrated Biotectural System or IBTS-Greenhouse.


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In fuel cell cars

A hydrogen fuel cell car generates one litre of drinking quality water for every 8 miles ride which is of significance in desert conditions.


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In air conditioners

In dehumidification type air conditioners, waste water is a by-product, caused by air cooling and condensation, like an atmospheric water generator (AWG). The water, in this case, is not purified. Refrigeration air conditioning equipment usually reduces the absolute humidity of the air processed by the system. The relatively cold (below the dewpoint) evaporator coil condenses water vapor from the processed air, much like an ice-cold drink will condense water on the outside of a glass. Therefore, water vapor is removed from the cooled air and the relative humidity in the room is lowered. The water is usually sent to a drain or may simply drip onto the ground outdoors. The heat is rejected by the condenser which is located outside of room to be cooled.


eTree - An eco-friendly solar powered atmospheric water generator ...
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Drinking water generator by Solar power

Drinking quality water is generated by the roof top solar hydro panels from the air using the solar power and solar heat during day light time.


Home Style Atmospheric Water Generator Small Water Cooler Water ...
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See also

  • Dehumidifier
  • Air well (condenser)
  • Dew pond
  • Fog collection
  • Rainwater harvesting
  • Solar chimney
  • Watermaker
  • Solar still

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References

Source of the article : Wikipedia

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