Global Geothermal Power Plants

There are currenly 187 Geothermal power plants across the globe with a total capacity of 11932.8 MW.

Name Capacity (MW) Type Other Fuel Commissioned Owner
Nagqu Geothermal 1.0 MW Geothermal 1993 United Nations Development Programme (UNDP)
Yangbajain Geothermal 25.1 MW Geothermal 1977
Boca de Pozo Geothermal Power Plant Costa Rica 5.0 MW Geothermal
Miravalles I and II Geothermal Power Plant Costa Rica 115.0 MW Geothermal
Miravalles III Geothermal Power Plant Costa Rica 27.5 MW Geothermal
Miravalles V Geothermal Power Plant Costa Rica 15.45 MW Geothermal
Pailas Geothermal Power Plant Costa Rica 36.0 MW Geothermal
Amager 14.0 MW Geothermal Dong Energy
Ahuachapan Geothermal Power Plant El Salvador 95.0 MW Geothermal
Berlin Geothermal Power Plant El Salvador 109.0 MW Geothermal
Aluto-Langano 7.3 MW Geothermal 2013
Bouillante 4.5 MW Geothermal
Ortitlán 25.2 MW Geothermal 2007
Zunil 28.6 MW Geothermal 1999
Platanares 39.0 MW Geothermal 2017
Bjarnarflag 3.0 MW Geothermal 1969 Landsvirkjun
Hellisheiði 213.0 MW Geothermal 2006 Orkuveita Reykjavíkur
Krafla 60.0 MW Geothermal 1977 Landsvirkjun
Nesjavellir 120.0 MW Geothermal 1998 Orkuveita Reykjavíkur
Reykjanes 100.0 MW Geothermal 1977 HS Orka
Svartsengi 76.0 MW Geothermal 1977 HS Orka
Darajat 1 55.0 MW Geothermal PLN – Indonesia Power
Darajat 2 3 215.0 MW Geothermal PT. Chevron Geothermal Darajat Ltd
Dieng 60.0 MW Geothermal PT. Geo Dipa Energy
Gunung Salak 375.0 MW Geothermal PT. Chevron Geothermal Salak Ltd
Kamojang 1 2 3 140.0 MW Geothermal PLN – Indonesia Power
Kamojang 4 60.0 MW Geothermal PT. Pertamina Geothermal Energy
Lahendong (Binary Cycle) 20.0 MW Geothermal BPPT + Pertamina
Lahendong IV 80.0 MW Geothermal PLN + Pertamina Geothermal Energy
Ulubelu 1 & 2 110.0 MW Geothermal PT. PLN
Wayang Windu 227.0 MW Geothermal PT. Star Energy
BAGNORE 3 19.0 MW Geothermal 1998
BAGNORE 4 39.0 MW Geothermal 1998
CARBOLI 1 19.0 MW Geothermal 1998
CARBOLI 2 19.0 MW Geothermal 1997
CHIUSDINO 1 17.0 MW Geothermal 2010
CORNIA 2 17.0 MW Geothermal 1994
FARINELLO 54.0 MW Geothermal 1995
LAGONI ROSSI 20.0 MW Geothermal 1981
LE PRATA 20.0 MW Geothermal 1996
MONTEVERDI 1 17.0 MW Geothermal 1997
MONTEVERDI 2 17.0 MW Geothermal 1997
NUOVA CASTELNUOVO 15.0 MW Geothermal 2000
NUOVA GABBRO 19.0 MW Geothermal 2002
NUOVA LAGO 11.0 MW Geothermal 2002
NUOVA LARDERELLO 17.0 MW Geothermal 2005
NUOVA MOLINETTO 18.0 MW Geothermal 2002
NUOVA MONTEROTONDO 11.0 MW Geothermal 2002
NUOVA RADICONDOLI 59.0 MW Geothermal 2002
NUOVA SAN MARTINO 39.0 MW Geothermal 2005
NUOVA SASSO 17.0 MW Geothermal 1996
NUOVA SERRAZZANO 49.0 MW Geothermal 2002
PIANACCE 18.0 MW Geothermal 1987
PIANCASTAGNAIO 3 20.0 MW Geothermal 1990
PIANCASTAGNAIO 4 20.0 MW Geothermal 1991
PIANCASTAGNAIO 5 20.0 MW Geothermal 1996
RANCIA 1 18.0 MW Geothermal 1986
RANCIA 2 18.0 MW Geothermal 1998
SASSO 2 20.0 MW Geothermal 2009
SELVA 1 19.0 MW Geothermal 1999
SESTA 1 18.0 MW Geothermal 2002
TRAVALE 3 20.0 MW Geothermal 2003
TRAVALE 4 39.0 MW Geothermal 2002
VALLE SECOLO 114.0 MW Geothermal 1981
Hachijojima 3.3 MW Geothermal 1999 TOKYO ELECTRIC POWER CO
Hatchobaru Otake 110.0 MW Geothermal KYUSHU ELECTRIC POWER CO
Kakkonda 80.0 MW Geothermal KYUSHU ELECTRIC POWER CO
Matsukawa Geothermal 23.5 MW Geothermal 1966 TOHOKU ELECTRIC POWER CO
Mori 50.0 MW Geothermal 1982 TOHOKU ELECTRIC POWER CO
Ogiri 35.0 MW Geothermal 1996 KYUSHU ELECTRIC POWER CO
Onikobe 15.0 MW Geothermal 1975 TOHOKU ELECTRIC POWER CO
Onuma Plant 9.5 MW Geothermal 1973 HOKKAIDO ELECTRIC POWER CO INC
Otake 12.5 MW Geothermal 1967 KYUSHU ELECTRIC POWER CO
Sumikawa Akita 50.0 MW Geothermal 1995 J-POWER
Takigami 25.0 MW Geothermal 1996 MITSUBISHI MATERIALS CORP
Uenotai 27.5 MW Geothermal 1994 KYUSHU ELECTRIC POWER CO
Yamagawa 30.0 MW Geothermal 1995 TOHOKU ELECTRIC POWER CO
Yanaizu-Nishiyama 65.0 MW Geothermal 1995 KYUSHU ELECTRIC POWER CO
Olkaria I 45.0 MW Geothermal 1981 Kenya Electric Generating Company
Olkaria I units 4 & 5 140.0 MW Geothermal 2015 Kenya Electric Generating Company
Olkaria II 105.0 MW Geothermal 1982 Kenya Electric Generating Company
Olkaria III (Orpower 4) 139.0 MW Geothermal 2015 Ormat Technologies Inc
Olkaria IV 140.0 MW Geothermal 2014 Kenya Electric Generating Company
Cerro Prieto I 30.0 MW Geothermal
Las Tres Vírgenes 10.0 MW Geothermal
Los Azufres 225.0 MW Geothermal CFE
Los Humeros 68.6 MW Geothermal
Kawerau 100.0 MW Geothermal 2008 Mercury Energy
Nga Awa Purua 138.0 MW Geothermal 2010 Mercury Energy
Ohaaki 122.0 MW Geothermal 1984 Contact Energy
Rotokawa 34.0 MW Geothermal 2000 Mercury Energy
Te Huka Binary 28.0 MW Geothermal 2010 Contact Energy
Wairakei 132.0 MW Geothermal Contact Energy
mokai 112.0 MW Geothermal 2000 Mercury Energy
Momotombo Geothermal Power Plant Nicaragua 77.0 MW Geothermal
San Jacinto-Tizate Geothermal Power Plant Nicaragua 82.0 MW Geothermal
Lihir 30.0 MW Geothermal 2005 Lihir Gold Ltd.
BACMAN 130.0 MW Geothermal
LEYTE GPP 112.5 MW Geothermal
MAKBAN 442.8 MW Geothermal

What types of geothermal power plants are there?

There are three main types of geothermal power plants in use for utility-scale electricity production.

Dry steam power plants

This type of plant uses steam from underground reservoirs to directly turn the turbines and generate electricity. Dry steam power plants are typically located near geothermal steam sources and require high-temperature geothermal resources.

Flash steam power plants

These plants are the most common type of geothermal power plant and use hot water from the underground reservoirs to create steam that powers the turbines. The hot water is brought to the surface at high pressure and then "flashed" into steam by reducing the pressure, which then drives the turbines.

Binary cycle power plants

This type of plant uses a heat exchanger to transfer heat from geothermal fluids to a secondary fluid with a lower boiling point, such as isobutane or pentane. The secondary fluid vaporizes and drives the turbine, which then generates electricity. Binary cycle power plants can operate at lower temperatures than dry steam and flash steam power plants and can make use of lower-temperature geothermal resources.

How does geothermal power plants generate elecricity?

Geothermal power plants use steam to turn large turbines, which run electrical generators, either with dry steam, flash steam, or binary cycle technology.

How much electricity is generated from geothermal energy each year?

According to the latest data from the International Renewable Energy Agency (IRENA), the global geothermal power capacity reached 14.9 GW at the end of 2020, generating 97.2 TWh of electricity annually.

Data Information

This data is a derivitive set of data gathered by source mentioned below.

Data Sources

Global Energy Observatory/Google/KTH Royal Institute of Technology in Stockholm/Enipedia/World Resources Institute/database.earth