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Dynjanfoss

Hydro power plant in Telemark, Norway. Approximate location 58.9516, 8.3953.

HydroTelemarkNorwayconventional storage

Dynjanfoss is a 39 MW hydro power plant in Telemark, Norway. It is operated by Å Energi [100%]. Based on its capacity (estimated), it can supply roughly 39k homes (estimated). It ranks #171 of 307 Norway power plants by installed capacity. Commissioned in 1951, it is around 75 years old — an older, legacy facility. As a non-combustion source, it has no direct CO₂ emissions from generation. In context, hydro supplies about 90.0% of Norway's electricity; the national grid averages 28 gCO₂/kWh (99.0% low-carbon) (2025).

39Source-backed capacity
39,044homes powered (est.)
1951commissioned (~75 yrs)

Plant data: WRI Global Power Plant Database (CC BY 4.0), id WRI1003090.

Data status

Known data

FacilityDynjanfoss WRI
CountryNorway · Telemark WRI
Coordinates58.9516, 8.3953 WRI
FuelHydro WRI
MW installed capacity39 MW WRI source record; scope not independently normalised
OwnerÅ Energi [100%] WRI
Commissioned1951 WRI
Technologyconventional storage WRI

Calculated from dataset

Capacity rank in country#171 of 307 calculated
Fuel-specific rank in country#158 of 291 calculated
Capacity vs country/fuel peers0.91× · 43 MW median · 291 peers calculated
Homes-powered equivalent39,044 calculated
Climate4.8°C · HDD 4,796 derived from coordinates
Environmental severityC3 · 29/100 derived from coordinates

Not available

GWh reported / yrNot available not in dataset
CO₂ emissionsnot applicable not applicable

Known, modelled and calculated values are kept separate. Missing fields are shown as unavailable.

Data provenance

The capacity and/or fuel fields on this page include a source-backed provenance label from GEM, an official registry, Wikidata, OSM, or a cross-source match.

capacity: GEM tracker 2026 (location L100001054786); fuel: WRI source-record fuel

In context: how this plant compares

At 39 MW, Dynjanfoss is around the median hydro plant in Norway (43 MW). Technically it is described as conventional storage. Hydropower converts the energy of falling or flowing water into electricity; output depends on rainfall and reservoir level, and large dams also provide grid balancing and storage.

Capacity comparison computed from the WRI Global Power Plant Database; fuel-type context is general engineering background.

Capacity vs largest hydro plants in Norway

Kvilldal: 1,444 MW1kKvilldalAurland5: 1,398 MW1kAurland5Tonstad: 960 MW960TonstadSy-Sima: 720 MW720Sy-SimaSaurdal: 640 MW640SaurdalSvartisen: 600 MW600SvartisenLang Sima: 580 MW580Lang SimaRana: 570 MW570Rana

Installed capacity (MW), WRI Global Power Plant Database (CC BY 4.0).

Owner

Operated by Å Energi [100%].

Local climate & thermal context

This hydro plant converts the energy of falling or flowing water through hydro turbines. It sits in a warm-summer humid continental climate (Köppen Dfb) — Northern Hemisphere, latitude 59.0°N — which shapes how much energy it can produce and how its output varies through the year.

4.8°Cannual mean temp
4,796heating degree-days (base 18°C)
0cooling degree-days (base 18°C)
440 melevation

Monthly mean temperature

J: -4 °CJF: -4 °CFM: -1 °CMA: 3 °CAM: 9 °CMJ: 13 °CJJ: 15 °CJA: 14 °CAS: 10 °CSO: 5 °CON: 0 °CND: -2 °CD15 °C

Heating degree-days here run 95% above the median power plant in this dataset — a proxy for how much extra energy heated equipment must replace through its surfaces in winter.

Climate heat-demand index: 93/100 — this site sits in the top third of the power plants we cover by heating degree-days.

Climate normals: WorldClim 2.1 (1970–2000 monthly normals, 10 arc-min, CC BY 4.0); zone: Köppen-Geiger world climate classification (Kottek et al. 2006, 0.5° grid). Degree-days & heat-demand index computed by PowerAtlas — a modelled heat-demand proxy, not a measured site figure.

Site climate & environmental severity

For a plant’s outdoor hardware — heat-recovery steam generators (HRSG), expansion joints, valves, flanges and their insulation — the local climate sets how fast unprotected steel and coatings degrade. This site sits in a moderately corrosive environment (estimated ISO 9223 class C3 — Medium), with humidity / wetness the leading environmental stress.

C3ISO 9223 corrosivity (indicative)
29/100environmental-severity index
18.9°Cseasonal temperature swing
49 kmdistance to coast

Higher environmental severity is exactly where protective removable insulation pays back most: a sheltered micro-climate slows corrosion, UV and thermal-cycling damage and extends outdoor hardware service life. This is an indicative site-climate context — not a condition assessment of any specific plant or operator.

Indicative estimate via the ISO 9223:2012 informative method (atmospheric corrosivity from temperature, time-of-wetness and airborne salinity), using WorldClim climate normals, the Köppen-Geiger class and coast distance. Indicative, not a measured corrosion rate.

How it compares & nearby plants

The #158 largest hydro power plant of 291 in Norway by capacity.

Norway has 291 hydro power plants in this dataset, together about 28,512 MW of capacity.

Nearby power plants

Location

Coordinates 58.9516, 8.3953 from WRI Global Power Plant Database (CC BY 4.0). View on OpenStreetMap.

Frequently asked questions

What type of power plant is Dynjanfoss?

Dynjanfoss is a 39 MW source-record hydro power plant in Telemark, Norway, commissioned in 1951.

How many homes can Dynjanfoss power?

Its output is enough to supply roughly 39,044 homes (estimated).

Who operates Dynjanfoss?

Dynjanfoss is operated by Å Energi [100%].

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