In 2020, New Zealand generated 42,858
gigawatt-hours (GW⋅h) of electricity with hydroelectricity making up 56%. The installed generating capacity of New Zealand (all sources) as of December 2020 was 9,758
megawatts (MW), from hydroelectricity,
natural gas,
geothermal, wind, coal, oil, and other sources (mainly biogas, waste heat and wood). Manapouri Power Station is a single
underground power station in Fiordland, and the largest hydroelectric station in the country. It has a maximum generating capacity of 730 MW and produces 4800 GW⋅h annually, mainly for the
Tiwai Point aluminium smelter near
Invercargill. Both Waitaki and Manapouri are operated by Meridian Energy. There are two power stations on the Clutha River scheme operated by Contact Energy:
Clyde Dam (464 MW, commissioned 1992) and
Roxburgh Dam (320 MW, commissioned 1962). on the Waikato River. Completed in 1929, it was the first major development after the now-closed Horahora on the Waikato River. The North Island has two major schemes: Tongariro and Waikato. The
Tongariro Power Scheme consists of water taken from the catchments of the Whangaehu, Rangitikei, Whanganui and Tongariro Rivers passing through two powerhouses (Tokaanu and Rangipo) before being deposited in
Lake Taupō. The scheme is operated by Genesis Energy and has an installed capacity of 360 MW. The
Waikato River Scheme, operated by
Mercury Energy, consists of nine powerhouses on the river between Lake Taupō and
Hamilton, generating 3650 GW⋅h annually. Other smaller hydroelectricity facilities and schemes are scattered around both islands of mainland New Zealand. Hydroelectric schemes have largely shaped hinterland New Zealand. Towns including
Mangakino,
Tūrangi,
Twizel and
Otematata were originally founded for workers constructing hydroelectric schemes, and their families. The hydroelectric reservoirs of
Lake Ruataniwha and
Lake Karapiro are world-class rowing venues, with the latter having hosted the 1978 and the
2010 World Rowing Championships. Other schemes have shaped political New Zealand. In the 1970s, the original plans to raise Lake Manapouri for the Manapouri station were scrapped after major protests. Later in the 1980s, protests were made against the creation of
Lake Dunstan behind the Clyde Dam, which would flood the
Cromwell Gorge and part of
Cromwell township, destroying many fruit orchards and the main street of Cromwell. However, the project was given the go ahead and Lake Dunstan was filled in 1992–93. Hydroelectricity generation has remained relatively steady since 1993 – the only major hydroelectricity projects since then was the completion of the second Manapouri tailrace tunnel in 2002, increasing the station output from 585 MW to a maximum continuous rating of 850 MW, although due to
resource consent conditions, maximum generation is limited to 800 MW. No major new hydroelectric projects have been committed as of December 2011, but there are proposals for further developments on the Waitaki and Clutha Rivers, and on the West Coast of the South Island.
Geothermal geothermal power plant New Zealand lies on the
Pacific Ring of Fire, so has favourable geology for
geothermal power. Geothermal fields have been located across New Zealand, but at present, most geothermal power is generated within the
Taupō Volcanic Zone – an area in the North Island stretching from
Mount Ruapehu in the south to
White Island in the north. As at December 2020, the installed capacity of geothermal power was 991 MW, and in 2020, geothermal stations generated 7,610 GW⋅h – 18% of the country's electricity generation that year. (although the plant only generates 140 MW); and
Ohaaki, which has a 105-metre tall
hyperboloid natural draft
cooling tower: the only one of its kind in New Zealand. A significant amount of geothermal electricity is also generated near
Kawerau in the eastern Bay of Plenty, and a small amount is generated near
Kaikohe in
Northland. Much of New Zealand's geothermal power potential still lies untapped, with the
New Zealand Geothermal Association estimating an installation capacity (using only existing technology) of around 3,600 MW.
Wind viewed from Ashhurst Domain Wind generated 5% of electricity in 2020. This was down from 7% in 2016 and 9% in 2015. As at end 2020, wind power accounts for 690 MW of installed capacity. Consents have been granted for
wind farms with a further capacity of 2,500 MW. New Zealand has abundant wind resources. The country is in the path of the
Roaring Forties, strong and constant westerly winds, and the funneling effect of
Cook Strait and the
Manawatū Gorge increase the resource's potential. These effects make the Lower
North Island the main region for wind generation. About 70% of the nation's current installed capacity lies within this region, with some turbines in this area having a
capacity factor of over 50%. Electricity was first generated by wind in New Zealand in 1993, by a 225 kW demonstration turbine in the Wellington suburb of Brooklyn. The first commercial wind farm was established in 1996 – the
Hau Nui Wind Farm, southeast of
Martinborough had seven turbines and generated 3.85 MW. The Tararua Wind Farm was first commissioned in 1999 with 32 MW of generating capacity, gradually expanding over the next eight years to 161 MW – the largest wind farm in New Zealand. Other major wind farms include
Te Āpiti,
West Wind and
White Hill. Wind power in New Zealand shares the difficulties typical to other nations (uneven wind strengths, ideal locations often remote from power demand areas). New Zealand wind farms provide on average a 45%
capacity factor (in other words, wind farms in New Zealand can produce more than double their average energy during periods of maximum useful wind strengths). The Tararua Wind Farm averages slightly more than this. There is a gas-fired power station in Taranaki at
Stratford (585 MW).
Whirinaki is a 155 MW
diesel-fired station north of
Napier, providing backup generation for periods when generation is not otherwise available, such as when plants break down, or during dry seasons where there is limited water for hydroelectricity generation. As of 2021 none of the power generators appear to be committed to the construction of any new
fossil-fuelled power stations. There is only one proposed thermal station with resource consent:
Todd Energy's 380 MW Waikato Power Plant.
Other sources Solar Compared to most developed nations, New Zealand's solar generation is lagging despite an abundance of land with favourable weather. As of late April 2025, the Lauriston Solar Farm near Ashburton is New Zealand's largest operating solar farm, with a capacity of 47 MW (63 MWp). As of December 2025, New Zealand also had 410 MW of grid-connected residential solar power installed, of which 88 MW (21%) was installed in the last 12 months. Residential solar installations are low relative to other countries, representing only 1.4% of total generation vs more than 25% in Australia.
Marine New Zealand has large
ocean energy resources but does not yet generate any power from them.
TVNZ reported in 2007 that over 20
wave and
tidal power projects are currently under development. However, not a lot of public information is available about these projects. The
Aotearoa Wave and Tidal Energy Association was established in 2006 to "promote the uptake of marine energy in New Zealand". According to their latest newsletter, they have 59 members. However the association doesn't list these members or provide any details of projects. From 2008 to 2011, the government
Energy Efficiency and Conservation Authority allocated $2 million each year from a Marine Energy Deployment Fund, set up to encourage the utilisation of this resource. site plan for a proposed nuclear power station at Te Kawau Point on the
Kaipara Harbour. The proposed station would have had four reactors with a total output of 1,332MWe. The greater
Cook Strait and
Kaipara Harbour seem to offer the most promising sites for using underwater turbines. Two resource consents have been granted for pilot projects in Cook Strait itself and in the
Tory Channel, and consent has been granted for up to 200 tidal turbines at the
Kaipara Tidal Power Station. Other potential locations include the
Manukau and
Hokianga Harbours, and
Te Aumiti / French Pass. The harbours produce currents up to 6
knots with tidal flows up to 100,000 cubic metres a second. These tidal volumes are 12 times greater than the flows in the largest New Zealand rivers.
Nuclear Although New Zealand has
nuclear-free legislation, it covers only nuclear-propelled ships,
nuclear explosive devices and
radioactive waste. The legislation does not prohibit the building and operation of a nuclear power station. The only significant proposal for a nuclear power station in New Zealand was the Oyster Point Power Station, on the Kaipara Harbour near Kaukapakapa north of Auckland. Between 1968 and 1972, there were plans to develop four 250 MW reactors at the site. By 1972, the plans were dropped as the discovery of the
Maui gas field meant there was no immediate need to embark on a nuclear programme. ==Transmission==