September 20, 2024 | by Unboxify
On May 22, 2020, after 13 years of construction beginning in 2007, the Akademik Lomonosov went into full operation. As of now, it is the world’s only floating nuclear power plant. This blog dives deep into why Russia is building these novel facilities and the strategic advantages they aim to secure.
Using nuclear power at sea is not a new concept, particularly for military purposes. Nuclear-propelled ships can remain self-sufficient over extended periods, reducing their dependency on ports and supply ships.
However, the Akademik Lomonosov is different. It is not a warship; instead, it functions as a floating power plant capable of producing electricity for up to 200,000 people, offering a strategic civilian application of nuclear technology at sea.
The concept of floating nuclear plants is also not entirely new. The U.S Army had once converted a WWII cargo ship into a floating nuclear power plant known as the MH-1A, which operated in the Panama Canal Zone during the 60s and 70s but was decommissioned in 1976.
The Akademik Lomonosov houses two KLT-40 naval propulsion reactors, similar to those in Russian icebreakers. This vessel is 144 meters long and 30 meters wide, capable of delivering up to 70 megawatts of electricity. It also offers the added benefit of district heating.
Since the Akademik Lomonosov has no propulsion system of its own, it must be towed to wherever it is needed. Every 12 years, the entire power plant is towed back to the shipyard for an overhaul, including the unloading of nuclear waste. The construction of the ship was completed in Saint Petersburg, and it has recently been towed to its first location in Pevek, north of the Arctic Circle.
Russia aims to mass-produce these floating power plants to achieve more efficient and cost-effective construction compared to traditional nuclear power plants. The advantages include:
Russia’s Arctic strategy is central to the deployment of these floating power plants. Global warming’s impact on the Arctic has led to reduced sea ice, making northern oil and gas deposits more accessible, and the viability of the Northern Sea Route as a shorter connection between Europe and Asia more plausible.
By March 2020, Russian President Vladimir Putin had signed a strategy paper outlining Russia’s aims in the Arctic for the next 15 years, including improvements in socio-economic conditions and promotion of the Northern Sea Route. Part of these plans involves the renewal of the nuclear icebreaker fleet and the utilization of floating nuclear power plants.
The reception of nuclear power varies globally, with significant incidents like Chernobyl (1986) and Fukushima (2011) influencing public opinion and policy. Countries often weigh the risks of nuclear catastrophes against the benefits of energy security and reduced carbon emissions.
Concerns about the floating nuclear power plant include susceptibility to natural disasters, such as tsunamis. Incidents like the radioactive leak on a Russian nuclear-powered icebreaker in 2011 have amplified safety worries. However, operators claim to have considered all risks and have put safety measures in place to address potential threats.
Russia might not be alone in this endeavor. China is also planning to build floating nuclear power plants, signaling a potential trend in global energy strategies. These plants could become valuable assets for bridging energy transitions and enhancing energy security in remote regions.
While the concept of floating nuclear power plants remains controversial, their strategic benefits and application in otherwise inaccessible or underdeveloped areas make them a compelling consideration for the future of energy generation.
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