3 Apr 2020
EUR 400 million
|Date of agreement:||21 Jan 2020|
|Customer:||Agder Energi AS|
|Amount in NOK:||NOK 600 million|
|Amount in EUR:||EUR 59.39 million|
|NACE sector / loan type:||Production and distribution of electricity|
|Business area:||Energy and water|
NIB is providing a loan to finance Agder Energi’s Åseral Nord hydropower project along the Mandal watercourse in Åseral, Vest-Agder of Norway. The project consists of a new dam, a hydro tunnel and an additional turbine at the Skjerka power station.
Agder Energi is constructing a new dam directly downstream from the old Langevatn dam, which dates back to the 1950s. The new dam is 10 metres higher and increases the reservoir volume from 22 million cubic metres to 47 million cubic metres.
As the existing approximately 13 km-long tunnel connecting the Langevatn dam to the Nåvatn reservoir is in poor condition and at risk of collapsing, the company is constructing a new tunnel of 7.2 kilometres. This new tunnel will enable better hydraulic capacity.
The Skjerka hydropower plant utilises water from the Nåvatn reservoir. The power plant will be equipped with an additional Francis turbine. The turbine hall is located inside the mountain.
Agder Energi AS is one of the largest hydropower producers in Norway, and majority-owned by local municipalities. The company’s operations also include distribution, end-user hydropower sales and other services.
The investments are expected to increase production capacity, maintain security of supply and contribute to more efficient use of hydropower resources. Expected productivity impacts related to the investments include:
The additional annual electricity generation is assumed to contribute to shift from fossil fuel based power and thus indirectly reduce greenhouse gas emissions.
Expected environmental impacts related to the investments include:
Monitoring results for discharges of tunnel water
This is a project with a potentially extensive environmental and/or social impact (category A, read more)
An already regulated river system is being utilised in a more efficient manner with limited additional negative impacts.