Others mocked it as the worst idea ever, but it turns out it wasn't such an outlandish idea after all.
The Akademik Lomonosov started operating in 2019.
It looks like what it was meant to be: a source of reliable energy in a region so harsh that building any other kind of power supply system would be a challenge.
The Financial Times wrote earlier this week how Russia was fueling its Arctic ambitions with nuclear power.
And the ambitions include taking full advantage of the opening up of the Northern Sea Route thanks to the changing climate and also of its metal and mineral wealth.
Take copper, for example. Copper demand is set to soar in the coming years if the energy transition continues at the current clip.
The metal is the default choice for electrical wiring thanks to its superb conductivity and is also used in significant amounts in power generation, transmission and distribution, including from wind turbines and solar installations.
It is also used abundantly in electric vehicles - if the average internal combustion engine contains about 20 kilos of copper, the average electric car contains as much as 4 times that.
No wonder, then, that copper demand from the EV industry alone - in EV charging alone, according to BloombergNEF - is set to grow by a whopping 1,000 % between 2020 and 2030.
It may well be the case that while everyone is too busy watching natural gas prices in Europe and wondering what Moscow will do next, Moscow is in fact focusing on metals and minerals - some of which, incidentally, have been called the oil of tomorrow.
According to the FT article, Chukotka is rich in lithium reserves.
Just how rich is hard to pinpoint, but it might be enough to be worth developing.
Russia also has lithium deposits in eastern Siberia and Yakutia, also in the Far East, and has plans to become the source of 3.5 % of the world's lithium by 2025.
The Arctic seems to be the modern version of the treasure cave in Ali Baba and the 40 Thieves.
There is everything in the Arctic in terms of natural resources, but the harsh climate and lack of even basic infrastructure in most of it have interfered with the development of these resources.
There has also not been much need for them in a fossil fuel-based economy.
Now, with the surge in demand expected for most basic metals and certain minerals considered critical for the energy transition such as cobalt, for example, or the group collectively known as rare earths, there seems to be strong motivation, at least in Russia, which has most of the Arctic, to push ahead with resource development in the inhospitable northern region.
Rosatom, the company behind the Akademik Lomonosov, plans to build 5 more floating nuclear power plants, all to supply mining projects.
The nuclear option was preferred by the Kremlin to Novatek's idea for floating gas-fired power plants.
The 5 floating power plants will cost $2.2 billion.
Floating power plants are the 1st step that needs to be made on the road to the development of Russia's metal and mineral wealth in the Arctic.
Without electricity, the task of building roads and other vital infrastructure for a mining project is a lot more challenging.
With electricity, the 1st big problem is solved.
Russia's Prime Minister, Mikhail Mishustin, said earlier this year:
- The world economy is aimed at a gradual transition to low-carbon energy, and this is already a new reality
- It is necessary to prepare for a step-by-step reduction in the use of traditional fuels: oil, gas, coal
- It is necessary to improve energy efficiency, develop alternative energy, build appropriate infrastructure
This world will replace hydrocarbons with metals and minerals.
Fortunately for Russia, it has a lot of both hydrocarbons and metals and minerals.
Unfortunately for those without a lot of metal and mineral resources, they might once again find themselves dependent on imports from the country that now holds their gas supply in its hands.
Author: Irina Slav