Pembangkit listrik tenaga air: Perbedaan antara revisi
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{{terjemah|Inggris|date=Agustus 2013}}
'''Pembangkit Listrik Tenaga Air''' (PLTA) adalah pembangkit yang mengandalkan [[energi potensial]] dan [[kinetik]] dari [[air]] untuk menghasilkan energi listrik. Energi listrik yang dibangkitkan ini biasa disebut sebagai '''hidroelektrik'''. ▼
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|[[Berkas:Hydroelectric_dam.png|thumb|none|285px|Hydroelectric dam in cross section]]
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{{Energi terbaharui}}
▲'''Pembangkit
Bentuk utama dari pembangkit listrik jenis ini adalah
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The energy extracted from water depends not only on the volume but on the difference in height between the source and the water's outflow. This height difference is called the ''[[head (hydraulic)|head]]''. The amount of [[potential energy]] in water is [[directly proportional]] to the head. For this reason, it is advantageous to build dams as high as possible to produce the maximum electrical energy.
While many hydroelectric schemes supply public electricity networks, some projects were created for private commercial purposes. For example, [[aluminium]] processing requires substantial amounts of electricity, and in [[United Kingdom|Britain]]'s [[Scottish Highlands]] there are examples at [[Kinlochleven]] and [[Lochaber]], designed and constructed during the early years of the 20th century. Similarly, the [[Economy of Suriname|'van Blommestein' lake, dam and power station]] were constructed in [[Suriname]] to provide electricity for the [[Alcoa]] aluminium industry.
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Di banyak bagian [[Kanada]] (provinsi [[British Columbia]], [[Manitoba]], [[Ontario]], [[Quebec]], dan [[Newfoundland and Labrador]]) hidroelektrisitas digunakan secara luas. Pusat tenaga yang dijalani oleh provinsi-provinsi ini disebut [[BC Hydro]], [[[Manitoba Hydro]], [[Hydro One]] (dulunya "Ontario Hydro"), [[Hydro-Québec]], dan [[Newfoundland and Labrador Hydro]]. Hydro-Québec merupakan perusahaan penghasil listrik hydro terbesar dunia, dengan total listrik terpasang sebesar 31.512 MW ([[2005]]).
== Pentingnya ==
[[Berkas:Water turbine.svg|thumb|right|260px|[[Water turbine|Hydraulic turbine]] and [[electrical generator]].]]
Tenaga listrik hydro, menggunakan kinetik, atau energi gerakan sungai, sekarang menyediakan 20% listrik dunia. [[Norwegia]] menghasilkan hampir seluruh listriknya dari hydro, sedangkan [[Iceland]] memproduksi 83% dari kebutuhannya ([[2004]]), [[Austria]] memproduksi 67% dari seluruh listrik yang dihasilkan di negara tersebut. [[Kanada]] merupakan penghasil tenaga hidro terbesar dunia dan memproduksi lebih dari 70% listriknya dari sumber hidroelektrik.
== Lihat pula ==
{{Commons|Category:Hydroelectric_power}}
* [[Hydropower]]
* [[List of energy topics]]
* [[wave power|Wave power]]
* [[tidal power|Tidal power]]
* [[List of reservoirs and dams]]
* [[Tennessee Valley Authority]]
* [[Small hydro]]
* [[Pumped-storage hydroelectricity]]
* [[Environmental concerns with electricity generation]]
* [[William George Armstrong, 1st Baron Armstrong]] an early private hydro-electric station
== Pranala luar ==
* [http://www.cus.net/renewableenergy/subcats/hydroelectric/hydroelectric.html Hydroelectric power]
* [http://www.dams.org/ World Commission on Dams report on environmental and social effects of large dams, including discussion of greenhouse gas emissions]
* [http://www.freeenergynews.com/Directory/Hydro/ Hydroelectricity] - Water potential powered systems, focusing on non-impactive small hydro. (''FreeEnergyNews.com'')
* [http://www.freeenergynews.com/Directory/River/ River Energy] - river turbine systems, not dam. (''FreeEnergyNews.com'')
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{{Sustainability and energy development group}}
[[Kategori:Pembangkit listrik tenaga air| ]]
[[Kategori:Energi terbaharui]]
[[Kategori:Konversi energi]]
[[Kategori:Penyimpanan energi]]
[[Kategori:Energi alternatif]]
{{Link FA|hr}}
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