Chernobyl Reactors 5 and 6

Chernobyl Nuclear Power Plant, Reactors 5 and 6
Incomplete reactors No. 5 and No. 6.
Official name	SSE Chernobyl Nuclear Power Plant, Reactors 5 and 6
Country	Ukraine
Location	near Pripyat, Kyiv Oblast
Coordinates	51°23′21″N 30°05′58″E / 51.38917°N 30.09944°E / 51.38917; 30.09944
Status	Construction halted
Construction began	1 July 1981 (Reactor 5) 1 July 1983 (Reactor 6)
Nuclear power station
Reactors	2 (incomplete)
Reactor type	RBMK-1000
Thermal capacity	2 × 3,200 MWt
Power generation
Nameplate capacity	2,000 MW (planned)
External links
Website	chnpp.gov.ua
[edit on Wikidata]

Chernobyl, Reactors 5 and 6

Date	Closed 15 December 2000; 23 years ago (2000-12-15)
Location	Chernobyl Nuclear Power Plant, Pripyat, Chernobyl Raion, Kiev Oblast,Vyshhorod Raion, Kyiv Oblast, Ukraine
Type	RBMK-1000, Chernobyl Disaster
Cause	Reactor 4 Chernobyl meltdown makes reactor 5, and 6 shutdowned , and suspended/abandoned.
Outcome	INES Level 1–2 (Anomaly-incident)
Deaths	None (31 death form Chernobyl Reactor 4 disaster)

Chernobyl Reactors 5 and 6 are unbuilt reactors apart of Chernobyl Nuclear Power Plant's third generation phase.

Chernobyl Nuclear Power Plant's original Soviet plan consisted of 12 units, and that units 5 and 6 were phase three of the plan. At the time, only two phases were complete, reactors 1, 2, 3 and 4. Both units were intended to be RBMK-1000 and would generate approximately 1,000 megawatts each, and also supported by two cooling towers located south-east from the reactors. They were side by side in the same way as reactors 3–4 were built. They also shared a water chemistry, a gas circuit plant, and an engine hall.^[1][2]

On 1 July 1981, construction on the fifth unit begun with an estimated cost of 500 million Soviet rubles. Russian hydrotechnical design firm, Hydroproject (Gidroproject) was in charge of the construction of both units. Unit 6 also shortly begun on 1 July 1983. Unit 5 was scheduled to become operational on 7 November 1986, and reactor 6 in 1994 inside a new block of buildings.^[3] The two RBMK-1000 units measured 11.8m tall and 7m in diameter, and were installed with two large portal cranes.^[4]

The cooling pond used by units 1 to 4 was not big enough, and engineers saw that it was not possible to expand the pond. It was decided that constructing two cooling towers would be less costly and more efficient.^[5]

In May 1984, there was criticism from the responsible fire department of Kyiv Oblast regarding fire safety in the two units, which was not planned according to regulatory standards. While corresponding adjustments were mandated, the deficiencies were not addressed by the designer, Gidroproject.^[6] In February 1985, an accident occurred at Block 5 when a 24x21 meter and two-meter thick roof slab weighing 49 tons came loose from its anchorage and fell. This was due to a miscalculation, and the repair of the slab costed 7300 rubles.^[7]

At 8 am of the Chernobyl Nuclear Disaster, 286 construction workers continued construction work, unaware of the disaster as the glow of fire wasn't visible. Construction work soon stopped, only to resume on 10 October 1986, however six months later on 24 April 1987, constructed work was halted again.^[8] During an unprecedented public hearing in April 1987, over 60 experts and scientists from the Ukrainian Academy of Science signed a petition opposing the completion of units 5 and 6 to the Ministry of Atomic Energy. They opposed the construction as it took place on environmental grounds, and feared that radiation could spread even more.^[9] Finally on 23 May 1989, a decision was made to discontinue the construction of both reactors, writing off 500 million rubles. At the time, reactor 5 was approximately 70% completed, while reactor 6 was only 20% completed. The dismantling of both units was rushed, as radiation levels were increasing, and no record has been made if the holding pools in unit 5 ever received the depleted uranium fuel bars.^[10][11]

In 2021, a research team dispatched a drone from Flyability named Elios 2 equipped with thermal cameras and a bright LED camera. The Chernobyl Decommissioning Team needed to know if there was any leftover uranium, making the purpose to investigate if there was any uranium leaks ever since its last inspection in 1986.^[12] Inspections made by foot was made unfeasible, as all points of entries were high off of the ground to where the holding pools were located. Elios 2 successfully completed the survey, and found no leftover uranium waste in the pools. These findings were found to be significant, and the Chernobyl Decommissioning Team submitted the video recording to international authorities regarding the reactor's status.^[11]

A Swiss-made drone, Elios 2, was recently used for a pioneering inspection inside Chernobyl's incomplete unit 5. Designed for extreme environments, Elios 2 explored tight, high-radiation spaces without risking human life, using advanced imaging to assess conditions. No uranium leakage was detected, providing reassurance about containment integrity. This was the first inspection of Reactor 5's interior since the 1986 accident.^[10][11]

Following the disaster, both units were mothballed, and unit 6 only had a flooded foundation with lower levels already built at the time. Many portal cranes and dock cranes were left in place since 1989.^[1]

Chernobyl Reactor 5 was initially abandoned after the 1986 disaster, but final decisions to halt work occurred in 1989 as safety and cost concerns grew. The Ukrainian government fully decommissioned the Chernobyl Nuclear Power Plant in 2000, closing down operations of the remaining active reactors and stopping any possible revival of Reactors 5 and 6.^[1]

During the 30th anniversary of the Chernobyl disaster, Australian artist Guido van Helten painted a photograph taken in 1986 by photojournalist Igor Kostin of the reactor onto the side of the coolant tower.^[13]