In the late 1980s,[13] the Russian research institutes and design bureaus developed a successor for the 1970s Arktika-class nuclear-powered icebreakers as part of a wider icebreaker fleet renewal program initiated shortly after the dissolution of the Soviet Union.[14] The new 60-megawatt icebreaker, referred to using a type size series designation LK-60Ya,[note 1] would feature a so-called dual-draft functionality which would allow the vessel to operate in shallow coastal areas after de-ballasting.[15] Although the preliminary designs had been developed almost two decades earlier, the LK-60Ya design was finalized in 2009 as Project 22220 by Central Design Bureau "Iceberg"[16] and the construction of the first vessel was awarded to Saint Petersburg-based Baltic Shipyard in August 2012.[17] Three additional contracts in May 2014, August 2019 and February 2023 have increased the number of Project 22220 icebreakers under construction or on order to seven.[18][19][20]
On 23 August 2019, FSUE Atomflot signed a contract worth over 100 billion rubles (about US$1.5 billion) for the construction of two additional Project 22220 icebreakers with Baltic Shipyard.[1] As before, the Saint Petersburg-based shipyard was the only bidder for the construction of the nuclear-powered icebreakers.[21]
The keel of the fifth Project 22220 icebreaker was laid on 16 December 2020 and the hull was launched on 6 November 2024.[3][4] The vessel, named Chukotka (Russian: Чукотка) after the Chukotka Autonomous Okrug, is scheduled to be delivered by December 2026.[6]
Chukotka is 173.3 metres (569 ft) long overall and has a maximum beam of 34 metres (112 ft). Designed to operate efficiently both in shallow Arctic river estuaries as well as along the Northern Sea Route, the draught of the vessel can be varied between about 9 and 10.5 metres (30 and 34 ft) by taking in and discharging ballast water, corresponding to a displacement between 25,540 and 33,530 tonnes (25,140 and 33,000 long tons).[8][9][11]
Chukotka has a nuclear-turbo-electric powertrain. The onboard nuclear power plant consists of two 175MWt RITM-200pressurized water reactors fueled by up to 20% enrichedUranium-235[22] and two 36MWe turbogenerators.[23][24][25] The propulsion system follows the classic polar icebreaker pattern with three 6.2-metre (20 ft) four-bladed propellers driven by 20-megawatt (27,000 hp) electric motors.[26][27] With a total propulsion power of 60 megawatts (80,000 hp), Chukotka is designed to be capable of breaking 2.8 metres (9 ft) thick level ice at a continuous speed of 1.5–2 knots (2.8–3.7 km/h; 1.7–2.3 mph) at full power when operating in deep water at design draught.[9]
^Tsoy, L.G. (2012), "Не разучились ли наши судостроители проектировать ледоколы?", Морской флот (in Russian) (5)
^Tsoy, L.G.; Stoyanov, I.A.; Mikhailichenko, V.V.; Livshits, S.G. (1995), "Perspective types of Arctic icebreakers and their principal characteristics"(PDF), Proceedings of the 13th International Conference on Port and Ocean Engineering under Arctic Conditions, 1995 (POAC'95), vol. 1, pp. 13–26, archived(PDF) from the original on 30 July 2021, retrieved 19 November 2022
^Tsoy, L.G. (1994), "New generation Arktika class nuclear icebreaker feasibility study", Proceedings of the Fifth International Conference on Ships and Marine Structures in Cold Regions, 1994 (ICETECH'95), pp. P1–P8