Ringedals Dam is a

gravity dam A gravity dam is a dam constructed from concrete or stone masonry and designed to hold back water by using only the weight of the material and its resistance against the foundation to oppose the horizontal pressure of water pushing against it. ...

Ringedalsvatnet Ringedalsvatnet is a lake in Ullensvang Municipality in Vestland county, Norway. The lake sits just east of the village of Skjeggedal and about east (up the valley) from the village of Tyssedal, which sits on the shore of the Sørfjorden. Th ...

Tyssedal Tyssedal is a village in Ullensvang municipality in Vestland county, Norway. The village is located on the shore of the Sørfjorden (Hardanger), Sørfjorden about north of the town of Odda (town), Odda. Tyssedal is located in an environment in ...

Odda Odda () is a former municipality in the old Hordaland county, Norway. The municipality existed from 1913 until its dissolution in 2020 when it was merged into Ullensvang Municipality in Vestland county. It was located in southeastern Hordaland c ...

municipality A municipality is usually a single administrative division having corporate status and powers of self-government or jurisdiction as granted by national and regional laws to which it is subordinate. The term ''municipality'' may also mean the go ...

in the

county A county is a geographic region of a country used for administrative or other purposesChambers Dictionary, L. Brookes (ed.), 2005, Chambers Harrap Publishers Ltd, Edinburgh in certain modern nations. The term is derived from the Old French ...

Hordaland Hordaland () was a county in Norway, bordering Sogn og Fjordane, Buskerud, Telemark, and Rogaland counties. Hordaland was the third largest county, after Akershus and Oslo, by population. The county government was the Hordaland County Municipal ...

Norway Norway, officially the Kingdom of Norway, is a Nordic country in Northern Europe, the mainland territory of which comprises the western and northernmost portion of the Scandinavian Peninsula. The remote Arctic island of Jan Mayen and t ...

. The dam was built in stages between 1909 and 1918 in connection with the hydroelectric power plant in Tyssedal and the factories in Odda. When the dam was completed in 1918 it was one of Europe’s largest gravity dams with a reservoir capacity of 222 million m³. The dam is built in Cyclopean concrete with 30% large-sized stones (plums) and dressed on both sides with approximately 20,000 m² of hand-cut

granite Granite () is a coarse-grained (phaneritic) intrusive igneous rock composed mostly of quartz, alkali feldspar, and plagioclase. It forms from magma with a high content of silica and alkali metal oxides that slowly cools and solidifies undergro ...

stone, the largest of its kind in Norway. The dam is crowned by the date and initials of managing director Ragnvald Blakstad and topped with

merlon A merlon is the solid upright section of a battlement (a crenellated parapet) in medieval architecture or fortifications.Friar, Stephen (2003). ''The Sutton Companion to Castles'', Sutton Publishing, Stroud, 2003, p. 202. Merlons are sometimes ...

s in

Neo-Romanesque Romanesque Revival (or Neo-Romanesque) is a style of building employed beginning in the mid-19th century inspired by the 11th- and 12th-century Romanesque architecture. Unlike the historic Romanesque style, Romanesque Revival buildings tended to ...

style. Ringedalsvatnet is today the reservoir of Oksla Hydroelectric Power Plant at Sørfjorden. The reservoir has a capacity of 426 million m³ and the power station is every year producing approximately 900

GWh A kilowatt-hour (unit symbol: kW⋅h or kW h; commonly written as kWh) is a unit of energy: one kilowatt of power for one hour. In terms of SI derived units with special names, it equals 3.6 megajoules (MJ). Kilowatt-hours are a common bil ...

History

Transfer tunnels

In the bedrock under the Ringedals Dam there are three tunnels. In 1903, three years before AS Tyssefaldene was established, the first underwater tunnel that pierced into the natural lake reservoir was made by the drill and blast method. The transfer tunnel was 100 meters long and named after the owner, ''Bruuns tunnel''. The tunnel could lower the Ringedalsvatnet 10 meters, down to 428 meters above sea level. Later Bruuns Tunnel was made bigger and today a penstock pipe lifts the water from Skjeggedal Pumping Station to Ringedalsvatnet (

pumped-storage hydroelectricity Pumped-storage hydroelectricity (PSH), or pumped hydroelectric energy storage (PHES), is a type of hydroelectric energy storage used by electric power systems for load balancing. The method stores energy in the form of gravitational potential ...

). When the first stage of Tyssedal Power Station was built from 1906 to 1908, there was no need for a dam and reservoir. Ringedalsvatnet could be regulated 16 meters by a new transfer tunnel and valves. In 1907 a 160-meter-long tunnel with a cross section of 6.5–7 m² was cut out of the bedrock. The tunnel is named after the responsible engineer, Thorvald Schult (1874-1937). The valve house is also called "Schultsynken". The last tunnel under the dam is called ''Brekkes tunnel'' and is not in use. When the smelting works in Odda needed more power from Tyssedal Power Station, a new dam had to be built at Vassendfossen in Skjeggedal.

Building phase I (1909–1912)

In 1909 the construction work for the first dam started. It was built in dry-stone in granite downstream and upstream 3-meter-thick masonry. The dam consisted of 13000 m³ of stone and cement. When it was completed in 1912 it was 280 meters long and 16 meters high. At the bottom it was 12.5 meters and at the top 2.5 meters wide.

Building phase II (1914-1918)

From 1911 the engineer office ''Ing. Kinck's Vandbygningskontor'' made plans for the next stage. The construction work started in 1914. ''AS Kristiania Monier og Cementvarefabrik'' and '' AS Høyer-Ellefsen'' were responsible for the construction of the dam. The new dam was built upstream and on top of the old dam. The dam is 521 meters long and 33 meters high. At the bottom it is 21.5 meters and at the top 4 meters wide. For the construction they used 80,000 m³ of stone and cement. The top is at 465 m above sea level and it can be regulated down to 418 m.

Spillway

The Ringedals Dam was controlled by three valve houses placed at different levels with a spillway on the top. The 41-meter-long spillway was originally controlled manually by five gates with needle sluices. In the 1950s two of the needle sluices were replaced by slide gates. Today all the needle gates are changed to the safer slide gates.

Concrete plate (1929–1931)

After a while, Tyssefaldene experienced leakage from the dam. In 1929, the engineers at ''Ingeniørfirmaet Chr. F. Grøner'' planned a new upstream dam plate in reinforced concrete. The pioneering project was built by ''AS Høyer-Ellefsen'' using gliding formwork. The new plate was constructed two meter upstream from the original granite wall and horizontally supported by 1,700 beams. The plate is 20–47 cm thick and covers an area of 9,700 m². It consist of 68 sections with 1 horizontal and 38 vertical expansion joints with plates of copper,

bitumen Asphalt, also known as bitumen (, ), is a sticky, black, highly viscous liquid or semi-solid form of petroleum. It may be found in natural deposits or may be a refined product, and is classed as a pitch. Before the 20th century, the term a ...

and

asphalt Asphalt, also known as bitumen (, ), is a sticky, black, highly viscous liquid or semi-solid form of petroleum. It may be found in natural deposits or may be a refined product, and is classed as a pitch. Before the 20th century, the term a ...

. The construction of the new dam plate was finished in 1931.

Skjeggedal Power Station (1938)

From 1938 to 1980, Skjeggedal Power Station utilized the 30-meter fall from Ringedalsvatnet down to Vetlevatn. The power station produced 13.5 MVA. After Oksla Power Station opened in 1980 Skjeggedal Power Station was rebuilt to a pumping station in 1986.

Oksla Power Station (1980)

Since 1980 the Ringdals Dam has been supporting the reservoir for Oksla Power Station. From Ringdalsvatnet there is a new tunnel wherein the water is falling 465 m down to the power station, which is located at the fjord. The tunnel can regulate Ringedalsvatnet down to 373 meters.

Images

File:Ringedalsdammen.jpg, The dam is crowned by the dates 1910–1918 and initials of the managing director Ragnvald Blakstad. The letters are 4 m high File:Ringedalsdammen granittforblending.jpg, The dam was dressed on both sides with approximately 20000 m² of hand cut

stone, the largest of its kind in Norway. File:Ringedalsdammen damkrone.jpg, Road on the top of the dam and a spillway with five slide gates. File:Ringedalsvatnet from Ringedalsdammen.jpg, Today Ringedalsvatnet can be regulated down to 373 meters above sea level. File:Ringedalsvatnet dam landscape.jpg, Dam in landscape File:Schults tunnel.jpg, "Schult’s tunnel" was a tunnel between Ringedalsvatnet and Vetlevann. File:Ventilhus Schultstunnel Ringedalsdammen.jpg, "Schultssynken" at Ringedals dam File:Schultssynken heisespill.jpg, Valve at "Schultssynken" File:Ringedalsdammen tappeventilhus mod.jpg, Valve house File:Tappeventiler Ringedalsdammen.jpg, Two pipes at the valve house on the top File:Ringedalsdammen svingventil.jpg,

Butterfly valve A butterfly valve is a valve that isolates or regulates the flow of a fluid. The closing mechanism is a disk that rotates. Principle of operation Operation is similar to that of a ball valve, which allows for quick shut off. Butterfly valves ...

File:Damplate Ringedalsdammen.jpg, It is two meters between the new concrete plate and the original upstream face in granite. The concrete plate built 1929-31 is supported by 1700 horizontal beams. File:Ringedalsvatnet.jpg, Ringedalsvatnet seen from the dam. Water is pumped into the reservoir from Skjeggedal Pumping Station

References

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External links

Norsk Vasskraft- og IndustristadmuseumStatkraftAS Tyssefaldene
{{coord, 60.1281, 6.6357, type:landmark_region:NO, display=title Odda Dams in Norway Dams completed in 1918