Ohaaki Power Station
Engineering Plant (eg railway, locomotive, car, plane)
An integral part of the Wairakei Power Scheme, Ohaaki is notable for its 105m high cooling tower and the re-injection of water into the steam field.
Developed in harmony with Maori tribal values, the Ohaaki power station is an integral part of the Wairakei system. Ohaaki uses tower cooling instead of river water and conserves the borefield by condensate reinjection. Located on the Broadlands geothermal field, about 25 km north of Wairakei, and opened in 1989, Ohaaki added 108 MW generating capacity to the national grid and contributes annually about 750 GWh to the country’s energy resources – approximately 3% of total requirements.
The geothermal fluid is fed to five separation plants where the steam and water are separated. To avoid any contamination of the Waikato River, this hot separated geothermal water is reinjected back into the ground at 150°C to avoid a silica build-up in the pipelines and plant. The steam is piped to the power station and passes through the turbines to generate electricity. The steam then passes to the condensor where circulating water is sprayed through the steam to cool it.
The resultant warm water is then passed through a natural draught cooling tower, a concrete structure which is a first for New Zealand. Incorporating ‘state of the art’ design, its thin shell and special foundations are designed to resist wind and earthquakes. It is 105m high, 70m diameter at the base, and 40m at the throat. The tower will remove 420 MW of heat from the 20 000 tonnes per hour of circulating water as it falls through an induced flow of air. The evaporation of small fraction of water provides the necessary cooling of the circulating water. In this way the circulating water system continuously gains condensed steam, which is balanced by evaporating losses from the cooling tower and by discharge of condensate which is reinjected into the ground.
Reinjection has not been carried out previously in New Zealand on such a large commercial scale. The non-condensable gases, mainly carbon dioxide, are extracted from the condensor by gas exhausters and are dispersed from the cooling tower. A system continuously monitors the concentration of hydrogen sulphide in the area surrounding the plant to ensure that there is no build-up of gas.
It should also be noted that some hot water separated from the geothermal fluid is used in nearby wood-drying kilns.
Former owner: Electricity Corporation of New Zealand Ltd
Designer: Works Corp, Design Power, Rankine & Hill Ltd
Construction: Works Corporation, Power Build, Wilkins & Davies Ltd.
IPENZ “Engineering to 1990” project
This item of New Zealand’s engineering heritage was recognised as part of the IPENZ “Engineering to 1990” project which the Institution organised to help celebrate the country’s sesquicentenary in 1990. A plaque was unveiled to mark the significance of this power station as part of the development of the nation.
39 km north of Taupo on the eastern side of State Highway 5
King Country / Central Volcanic Plateau
Turn off State Highway 5 on to Ohaaki Road and then on to the station access road. There is a good view of the geothermal field and the powerhouse at the station lookout.
Nature of Engineering
Electrical Power Generation and Distribution
Lat: -38.523123 Long: 176.295247