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'''Domestic energy consumption''' is the amount of energy that is spent on the different appliances used within housing.{{Clarify|date=October 2008}}<!-- which housing? lead needs to specify the country and the type and size of housing --> In an average household in a temperate climate,{{Clarify|date=October 2008}} The average energy in a household a year consists of 20000kW-h (WHERE?){{Clarify|date=June 2011}}. These figures are surely dependent on size of housing electricity, location and local weather. Other figures are similarly dependent on unspecified factors. --> the yearly use of household energy can be composed as follows:
'''Domestic energy consumption''' is the amount of energy that is spent on the different appliances used within family houses. In an average household in a temperate climate,{{Clarify|date=October 2008}} The average energy in a (Belgian) household a year consists of 20000kW-h. These figures are surely dependent on size of housing electricity, location and local weather. Other figures are similarly dependent on unspecified factors. --> the yearly use of household energy can be composed as follows:


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===Amount of solar panels required===
===Amount of solar panels required===
{{Main|Photovoltaics}}
{{Main|Troubleshooting a Photovoltaic System}}
<!-- 2 sections needed: both for tropical as temperate climates (amount of sunlight/efficiency is different) -->
<!-- 2 sections needed: both for tropical as temperate climates (amount of sunlight/efficiency is different) -->
According to documents by Practical Action, and according to Microgeneration.com, the power generated by solar panels is about 10 watts per square metre of solar collector (10 W/m²).
According to documents by Practical Action, and according to Microgeneration.com, the power generated by solar panels is about 10 watts per square metre of solar collector (10 W/m²).


Depending on the location where the panels are employed (tropics or temperate climates), more or less area is required.
Depending on the location where the panels are employed (tropics or temperate climates), more or less area is required.
===Amount of wind turbines required===
To generate power, the average autonomous house needs only one small horizontal axis [[wind turbine|wind generator]] (HAWT), 5 metres or less in diameter. On a 30 metre high tower, this turbine can provide enough power to supplement solar power on cloudy days. Commercially available wind turbines use sealed, one-moving-part AC generators and passive, self-feathering blades for years of operation without service.
The largest advantage of [[wind power]] is that larger wind turbines have a lower per-watt cost than solar cells, provided there is wind. However, location is critical. Just as some locations lack sun for solar cells, some locations lack sufficient wind for an economical turbine installation. In the [[Great Plains]] of the [[United States]] a 10 metre turbine can supply enough energy to heat and cool a well-built all-electric house. Economic use in other areas requires research, and possibly a site-survey.<ref>Paul Gipe, "Wind Power for Home and Business"</ref>


==See also==
==See also==
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==External links==
==External links==
*[https://extranetdocs.eandis.be/Livelink/livelink.exe?func=ll.login&username=wcm01&password=wcm01&NextURL=%2FLivelink%2Flivelink%2Eexe%3Ffunc%3Ddoc%2Efetch%26nodeId%3D5481239 Eandis Magazine: Hoe ziet je energiebudget eruit? (see page 4)]
* http://home.howstuffworks.com/emergency-power2.htm
* [https://extranetdocs.eandis.be/Livelink/livelink.exe?func=ll.login&username=wcm01&password=wcm01&NextURL=%2FLivelink%2Flivelink%2Eexe%3Ffunc%3Ddoc%2Efetch%26nodeId%3D5481239 Eandis Magazine: Hoe ziet je energiebudget eruit? (see page 4)]
<!-- Link broken, BERR dissolved *[http://www.berr.gov.uk/files/file11250.pdf Domestic Energy Consumption in the UK]  -->
<!-- Link broken, BERR dissolved *[http://www.berr.gov.uk/files/file11250.pdf Domestic Energy Consumption in the UK]  -->
*[http://www.statistics.gov.uk/STATBASE/ssdataset.asp?vlnk=7287 Domestic Energy Statistics in the UK]
*[http://www.statistics.gov.uk/STATBASE/ssdataset.asp?vlnk=7287 Domestic Energy Statistics in the UK]

Revision as of 10:13, 27 December 2012

Domestic energy consumption is the amount of energy that is spent on the different appliances used within family houses. In an average household in a temperate climate,[clarification needed] The average energy in a (Belgian) household a year consists of 20000kW-h. These figures are surely dependent on size of housing electricity, location and local weather. Other figures are similarly dependent on unspecified factors. --> the yearly use of household energy can be composed as follows:

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Note that for households in the developing world these overview data are incorrect (area heating almost reduced to zero, and less and different consumption of energy).[clarification needed]

Daily domestic energy consumption

Below, fairly accurate[clarification needed] estimates are noted for a general[clarification needed] private home in the temperate climate. In addition, rough non equations are noted about the energy requirements for homes in the (sub)tropical climates. The latter however may not be as accurate as the starting numbers have been derived from a table for the temperate climates.[clarification needed] They however give a rough idea. Finally, it should be noted that the latter equations do not differentiate between subtropical climates and tropical climates; again some differences may be present here as well, translating in an even greater margin of error. However, the numbers are only designed to give a general indication and in this they will likely succeed.[clarification needed]

In temperate climates

As can be seen from the table above, a private home in a temperate climate generally needs around 20,000 kilowatt-hours per year (20000 kW·h/year) to fulfill its energy needs.[clarification needed] people use 10 to the 11 watts of power in the US

In (sub)tropical climates

As can be seen from the table, a private home in a subtropical climate generally needs around 8000 kW·h/a (1 kW) to fulfill in its energy needs.

Domestic electricity consumption

Other than the domestic energy consumption, the domestic electricity consumption is the amount of electricity is used within the home. Space heating apparatus that work on other energy sources (eg gas, wood from gas stoves, gas heaters, wood burners, ...) are thus not included. The electricity consumption needs to be known to be able to calculate the electricity one needs to generate to create an off-the-grid system.

Amount and size of powerplants required

As stated, for practical (off-the-grid microgeneration) use, rather than the domestic energy requirements, the domestic electricity requirements need to be taken.

Amount of solar panels required

According to documents by Practical Action, and according to Microgeneration.com, the power generated by solar panels is about 10 watts per square metre of solar collector (10 W/m²).

Depending on the location where the panels are employed (tropics or temperate climates), more or less area is required.

Amount of wind turbines required

To generate power, the average autonomous house needs only one small horizontal axis wind generator (HAWT), 5 metres or less in diameter. On a 30 metre high tower, this turbine can provide enough power to supplement solar power on cloudy days. Commercially available wind turbines use sealed, one-moving-part AC generators and passive, self-feathering blades for years of operation without service.

The largest advantage of wind power is that larger wind turbines have a lower per-watt cost than solar cells, provided there is wind. However, location is critical. Just as some locations lack sun for solar cells, some locations lack sufficient wind for an economical turbine installation. In the Great Plains of the United States a 10 metre turbine can supply enough energy to heat and cool a well-built all-electric house. Economic use in other areas requires research, and possibly a site-survey.[1]

See also

References

Template:Reflist

External links

  1. Paul Gipe, "Wind Power for Home and Business"
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