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* [[Soil|ground]] sources such as [[groundwater]], [[hyporheic zone]]s and [[aquifer]]s. | * [[Soil|ground]] sources such as [[groundwater]], [[hyporheic zone]]s and [[aquifer]]s. | ||
* [[precipitation (meteorology)|precipitation]] which includes rain, hail, snow, fog, etc. | * [[precipitation (meteorology)|precipitation]] which includes rain, hail, snow, fog, etc (see [[rainwater harvesting]]) Even humid air can be used as a source for water, see [[Fof nets]] and [[Atmospheric water generator]] (the latter extracts moisture from dry desert air and filters it to pure water). | ||
* [[surface water]] such as rivers, streams, [[glacier]]s | * [[surface water]] such as rivers, streams, [[glacier]]s | ||
* [[biology|biological sources]] such as plants | * [[biology|biological sources]] such as plants (See [[Solar_still|Gathering water from plants]]) and animals ([[urine]]) | ||
* the [[sea]] through [[desalination]] | * the [[sea]] through [[desalination]] | ||
*[[Water supply network]] | *[[Water supply network]] | ||
== | ==Global water usage== | ||
* | {{Main|Green living}} | ||
A major factor of sustainable living involves that which no human can live without, [[water]]. Unsustainable water usage has far reaching implications for humankind. Currently, humans use one-fourth of the earth’s total water in natural circulation, and over half the accessible runoff{{w|Surface runoff}}.<ref name="Hawken, Paul 1999">Hawken, Paul, Amory Lovins, and L. Hunter Lovins. ''Natural Capitalism: Creating the Next Industrial Revolution''. New York City: Little, Brown and Company, 1999. Print.</ref> Additionally, [[population growth]] and water demand is ever increasing. Thus, it is necessary to use available water more efficiently. | |||
The classic solution with minimal life-style changes for obtaining water in a [[autonomous house]] is by using a [[water well|well]]. Once drilled, a well-foot requires substantial power. However, advanced well-foots can reduce power usage by twofold or more from older models. Well water can be contaminated in some areas. The [[sono arsenic filter]] eliminates unhealthy [[arsenic]] in well water. | |||
However drilling a well is an uncertain activity, with aquifers depleted in some areas. It can also be expensive. | |||
In regions with sufficient rainfall, it is often more economical to design a building to use rain, with supplementary water deliveries in a drought. Rain water makes excellent soft washwater, but needs antibacterial treatment. If used for drinking, mineral supplements or mineralization is necessary.<ref>[http://www.who.int/water_sanitation_health/dwq/nutconsensus/en/ WHO | Nutrient minerals in drinking-water and the potential health consequences of consumption of demineralized and remineralized and altered mineral content drinking-water: Consensus of the meeting]</ref> | |||
==Transporting water== | |||
In order to transport water, we have 2 options: | |||
* Make the water run towards a lower point (called a Gravity-controlled system){{cite web|first=Doug |last=Pushard |url=http://www.harvesth2o.com/faq.shtml |title=Domestic water collection systems also sometimes able to function on gravity |publisher=Harvesth2o.com |year=2005 |accessdate=2009-04-17}}{{Verify source|date=April 2009}}</ref> These typically consist of an unpressurized [[water tank]] at an elevation higher than the point of use. Pressure at the point of use is the result of the hydrostatic pressure caused by the elevation difference. Gravity systems produce {{convert|0.43|psi|kPa}} per foot of water head (elevation difference). A municipal water supply or pumped water is typically around {{convert|90|psi|kPa}}. | |||
* Increase the water pressure. This is typically done using a pressure vessel<ref>[http://www.popularmechanics.com/home/improvement/electrical-plumbing/1275136 Pressure vessel schematics]</ref>. Alternatively, a [[Inline pump controller]] or [[pressure-sensitive]] pump may be used.<ref>{{cite web|first=Doug |last=Pushard |url=http://www.harvesth2o.com/pumps_or_tanks.shtml |title=Alternatives to pressure vessels in domestic water systems |publisher=Harvesth2o.com |date= |accessdate=2009-04-17}}</ref> | |||
==Notes and references== | ==Notes and references== | ||
{{reflist}} | |||
== | ==See also== | ||
* [[Sewage collection|Sewage system]]: most systems (in the developed world) use a combined sewage/potable water system | |||
== External links == | |||
* [[Wikipedia:Water supply]] | * [[Wikipedia:Water supply]] | ||
Revision as of 02:00, 23 September 2017
Although covering some 70% of the Earth's surface, most water is saline. Freshwater is available in almost all populated areas of the earth, although it may be expensive and the supply may not always be sustainable. Sources where water may be obtained include:
- ground sources such as groundwater, hyporheic zones and aquifers.
- precipitation which includes rain, hail, snow, fog, etc (see rainwater harvesting) Even humid air can be used as a source for water, see Fof nets and Atmospheric water generator (the latter extracts moisture from dry desert air and filters it to pure water).
- surface water such as rivers, streams, glaciers
- biological sources such as plants (See Gathering water from plants) and animals (urine)
- the sea through desalination
- Water supply network
Global water usage
A major factor of sustainable living involves that which no human can live without, water. Unsustainable water usage has far reaching implications for humankind. Currently, humans use one-fourth of the earth’s total water in natural circulation, and over half the accessible runoffW.[1] Additionally, population growth and water demand is ever increasing. Thus, it is necessary to use available water more efficiently.
The classic solution with minimal life-style changes for obtaining water in a autonomous house is by using a well. Once drilled, a well-foot requires substantial power. However, advanced well-foots can reduce power usage by twofold or more from older models. Well water can be contaminated in some areas. The sono arsenic filter eliminates unhealthy arsenic in well water.
However drilling a well is an uncertain activity, with aquifers depleted in some areas. It can also be expensive.
In regions with sufficient rainfall, it is often more economical to design a building to use rain, with supplementary water deliveries in a drought. Rain water makes excellent soft washwater, but needs antibacterial treatment. If used for drinking, mineral supplements or mineralization is necessary.[2]
Transporting water
In order to transport water, we have 2 options:
- Make the water run towards a lower point (called a Gravity-controlled system)Pushard, Doug (2005). "Domestic water collection systems also sometimes able to function on gravity". Harvesth2o.com. Retrieved 2009-04-17.Template:Verify source</ref> These typically consist of an unpressurized water tank at an elevation higher than the point of use. Pressure at the point of use is the result of the hydrostatic pressure caused by the elevation difference. Gravity systems produce Template:Convert per foot of water head (elevation difference). A municipal water supply or pumped water is typically around Template:Convert.
- Increase the water pressure. This is typically done using a pressure vessel[3]. Alternatively, a Inline pump controller or pressure-sensitive pump may be used.[4]
Notes and references
See also
- Sewage system: most systems (in the developed world) use a combined sewage/potable water system
External links
- ↑ Hawken, Paul, Amory Lovins, and L. Hunter Lovins. Natural Capitalism: Creating the Next Industrial Revolution. New York City: Little, Brown and Company, 1999. Print.
- ↑ WHO | Nutrient minerals in drinking-water and the potential health consequences of consumption of demineralized and remineralized and altered mineral content drinking-water: Consensus of the meeting
- ↑ Pressure vessel schematics
- ↑ Pushard, Doug. "Alternatives to pressure vessels in domestic water systems". Harvesth2o.com. Retrieved 2009-04-17.