General Information
Project Type
Function / usage: |
Flood barrier system |
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Location
km | Name |
Technical Information
There currently is no technical data available.
Excerpt from Wikipedia
The Saint Petersburg Flood Prevention Facility Complex (Russian: Ко́мплекс защи́тных сооруже́ний Санкт-Петербу́рга от наводне́ний, tr. kómpleks zashchítnykh sooruzhéniy Sankt-Peterbúrga ot navodnéniy), unofficially the Saint Petersburg Dam, is a 25 km (16 mi) complex of dams for flood control near Saint Petersburg, Russia. The dam extends from Lomonosov northward to Kotlin Island (and the city of Kronstadt), then turns east toward Cape Lisiy Nos near Sestroretsk.
The complex is intended to protect Saint Petersburg from storm surges by separating the Neva Bay from the rest of the Gulf of Finland. Historically, the storm surges from the gulf had caused over 300 floods in the city, several of which had a massive devastating effect. The dam has the capability to protect the city from water rising up to 5 m (16 ft). Its first use to hold back the incoming Baltic water into Neva bay took place 28 November 2011 and had resulted in decrease of water rise to 1.3 masl, that is below flood level equal to 1.6 masl according to Baltic system of coordinates, which prevented the 309th flood in the history of the city and saved some 1.3 billion roubles of possible damages.
The construction of the flood prevention complex started in 1978 and became one of the longest construction projects in Russia. After a protracted halt in the 1990s and early 2000s, construction was resumed in 2005 due to the intervention of Russia's President Vladimir Putin, a native of Saint Petersburg. Putin finally inaugurated the finished complex in 2011, when all the facilities at the southern part of the dam were completed, along with the 1.2 km (0.75 mi) long underwater roadway tunnel below the main southern lock, the longest undersea tunnel in Russia.
Over 30 water purification installations are placed around the dam, a part of a larger program to clean the water in the Neva Bay. The dam tunnel is also the last completed part of the Saint Petersburg Ring Road. The northern and southern parts of the dam act like two giant bridges and provide an easy access from mainland to Kotlin Island and Kronstadt.
Specifications
The dam spans the Gulf of Finland, with the island of Kotlin (Kronstadt) at its centre. It extends for 25.4 km (15.8 mi) and stands 8 m (26 ft) above sea level. It incorporates two large openings for shipping, which can be closed when floods threaten. Construction began in 1980 but stalled in the Russian political and economic upheavals of the 1990s; it resumed many years later and finally ended in 2011. The main benefit that most people cite is not flood control but rather improved traffic flow, as the dam completes the Saint Petersburg Ring Road.
Floods on the Neva
Saint Petersburg suffers from frequent floods (more than 340 in recorded history), some being natural disasters. It is situated on drained marshlands, isles and lowlands in the estuary of the Neva River, where flooding is common. Flow from Lake Ladoga is significant and the Neva's current is rapid, but flooding is generally caused by water backing up the Neva from its outlet, the Gulf of Finland. Most rivers flood in periods of exceptionally high flow, but the Neva typically floods in late autumn.
In the early literature, high winds from the Gulf of Finland were often cited as the cause of Neva flooding, but scientists now understand the more complex hydrometeorological chain of events behind it. A low-pressure region in the North Atlantic moves onshore, giving rise to cyclonic lows on the Baltic Sea. The low pressure of the cyclone draws greater-than-normal quantities of water into the virtually land-locked Baltic. As the cyclone continues inland, long low-frequency seiche waves are established in the Baltic. When the waves reach the narrow and shallow Neva Bay, they become much higher, ultimately breaching the Neva embankments.
The worst such flood occurred on 19 November 1824, when the water level rose 4.21 m (13.8 ft) above normal. The playwright Alexander Griboyedov wrote, " The embankments of the various canals had disappeared and all the canals had united into one. Hundred-year-old trees in the Summer Garden were ripped from the ground and lying in rows, roots upward." When the waters receded 569 people were dead, with thousands more injured or made ill – more than 300 buildings had been washed away. The 1824 inundation is the setting for Alexander Pushkin's famous poem, The Bronze Horseman (1834). Other disastrous floods took place in 1777 and 1924. One of the most recent floods occurred on 18–19 October 1998, when the water level rose to 2.2 m (7.2 ft).
Project
For years, prominent scientists and statesmen of imperial Russia developed various plans for flood protection, and the Soviet Union implemented the idea. The flood of 1955 finally made it clear that the city needed a protective dam. Many options were considered before the Soviet government decided on a 25.4 km (15.8 mi) complex of 11 dams, including a six-lane highway on the top.
The project was begun in 1979, and construction continued through 1995, at which point the dam was around 70% complete, when due to difficulties obtaining financing after the fall of the Soviet Union the project was suspended until 2005 when President Vladimir Putin ordered its resumption. Construction was completed in 2011, and the formal opening of the complex was on 12 August 2011. At the opening ceremony, Putin said that the completion of the project was a "historic event" and meant that Saint Petersburg "is not just protected from floods, the ecological situation also improved."
The entire project cost roughly 109 billion rubles ($3.85 billion) and resulted in a series of eleven separate dams measuring 25 kilometers (16 mi) across the Gulf of Finland. Built into the structure are two openings to allow ships to pass through, six gates that can be closed to hold back water, and about 30 facilities for purifying water flowing into the gulf. It took 42 hm³ of stone and soil, 2 hm³ of reinforced concrete, and about 100,000 tonnes (110,000 short tons) of steel structures and other materials to build the dam. The project was designed and implemented by over 100 scientific and design institutions, construction companies, and suppliers of materials and equipment.
Criticism
Opponents have raised concerns and staged demonstrations during the construction of the dam. The main concerns relate to water quality and the impact on historically significant sites.
Water quality
Dam's opponents fear that the dam will constrain water flow, accumulating polluted water inside the dam. Damming an estuary and altering its flow pattern generates a number of physical and biological impacts; the disruption of the normal flow obstructs natural current and affects the water’s habitat. The 60 canals and rivers that flow through Saint Petersburg will all discharge into the dammed area. Currently, the Neva’s water is good enough to serve as a source for drinking water.
To address the problem of water pollution, the city's government adopted a plan to upgrade the city's sewage system to limit the amount of untreated wastewater release to less than 0.1%. The measures being taken seem to be quite efficient – after the launch of modern long-awaited South-West Wastewater Treatment Plant in 2006 the amount of biological and phosphate waste is expected to be lowered by 60% and 25%, respectively. Over 30 water purification installations are placed around the complex, a part of a larger effort to clean the water in the Neva Bay.
World Heritage Site impacts
The dam passes through the historic Northern Forts of Kronstadt, which is a World Heritage Site.
Text imported from Wikipedia article "Saint Petersburg Dam" and modified on July 22, 2019 according to the CC-BY-SA 4.0 International license.
Participants
Currently there is no information available about persons or companies having participated in this project.
Relevant Web Sites
Relevant Publications
- Water dynamics and pollution nearby Leningrad dam. Presented at: IABSE Colloquium: Interaction between Major Engineering Structures and the Marine Environment, Nyborg, Denmark, 1991, pp. 215-224. (1991):
- About this
data sheet - Structure-ID
10001153 - Published on:
24/08/2007 - Last updated on:
03/06/2022