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Long-Term Aging of Chernobyl Fuel Debris: Corium and “Lava”

Bella Zubekhina / Boris Burakov / Ekaterina Silanteva / Yuri Petrov / Vasiliy Yapaskurt / Dmitry Danilovich

Samples of Chernobyl fuel debris, including massive corium and “lava” were collected inside the Chernobyl “Sarcophagus” or “Shelter” in 1990, transported to Leningrad (St. Petersburg) and stored under laboratory conditions for many years. In 2011 aged samples were visually re-examined and it was confirmed that most of them remained intact, although some evidence of self-destruction and chemical alteration were clearly observed. Selected samples of corium and “lava” were affected by static leaching at temperatures of 25, 90 and 150 °C in distilled water. A normalized Pu mass loss (NL_Pu) from corium samples after 140 days was noted to be 0.5 g/m² at 25 °C and 1.1 g/m² at 90 °C. For “lava” samples NL_Pu was 2.2–2.3 g/m² at 90 °C for 140 days. The formation of secondary uranyl phases on the surface of corium and “lava” samples altered at 150 °C was confirmed. The results obtained are considered as an important basis for the simulation of fuel debris aging at Fukushima Daiichi nuclear power plant (NPP).

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Long-Term Aging of Chernobyl Fuel Debris: Corium and “Lava”

Bella Zubekhina / Boris Burakov / Ekaterina Silanteva / Yuri Petrov / Vasiliy Yapaskurt / Dmitry Danilovich

Samples of Chernobyl fuel debris, including massive corium and “lava” were collected inside the Chernobyl “Sarcophagus” or “Shelter” in 1990, transported to Leningrad (St. Petersburg) and stored under laboratory conditions for many years. In 2011 aged samples were visually re-examined and it was confirmed that most of them remained intact, although some evidence of self-destruction and chemical alteration were clearly observed. Selected samples of corium and “lava” were affected by static leaching at temperatures of 25, 90 and 150 °C in distilled water. A normalized Pu mass loss (NL_Pu) from corium samples after 140 days was noted to be 0.5 g/m² at 25 °C and 1.1 g/m² at 90 °C. For “lava” samples NL_Pu was 2.2–2.3 g/m² at 90 °C for 140 days. The formation of secondary uranyl phases on the surface of corium and “lava” samples altered at 150 °C was confirmed. The results obtained are considered as an important basis for the simulation of fuel debris aging at Fukushima Daiichi nuclear power plant (NPP).

Long-Term Aging of Chernobyl Fuel Debris: Corium and “Lava”

Bella Zubekhina / Boris Burakov / Ekaterina Silanteva / Yuri Petrov / Vasiliy Yapaskurt / Dmitry Danilovich

Samples of Chernobyl fuel debris, including massive corium and “lava” were collected inside the Chernobyl “Sarcophagus” or “Shelter” in 1990, transported to Leningrad (St. Petersburg) and stored under laboratory conditions for many years. In 2011 aged samples were visually re-examined and it was confirmed that most of them remained intact, although some evidence of self-destruction and chemical alteration were clearly observed. Selected samples of corium and “lava” were affected by static leaching at temperatures of 25, 90 and 150 °C in distilled water. A normalized Pu mass loss (NL_Pu) from corium samples after 140 days was noted to be 0.5 g/m² at 25 °C and 1.1 g/m² at 90 °C. For “lava” samples NL_Pu was 2.2–2.3 g/m² at 90 °C for 140 days. The formation of secondary uranyl phases on the surface of corium and “lava” samples altered at 150 °C was confirmed. The results obtained are considered as an important basis for the simulation of fuel debris aging at Fukushima Daiichi nuclear power plant (NPP).

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Title:

Long-Term Aging of Chernobyl Fuel Debris: Corium and “Lava”

Contributors:

Bella Zubekhina (author) / Boris Burakov (author) / Ekaterina Silanteva (author) / Yuri Petrov (author) / Vasiliy Yapaskurt (author) / Dmitry Danilovich (author)

Published in:

Sustainability, Vol 13, Iss 3, p 1073 (2021)

Publication date:

2021

ISSN:

DOI:

https://doi.org/10.3390/su13031073

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

leaching , chemical alteration , Chernobyl “lava”, corium , fuel debris , Fukushima Daiichi NPP , plutonium , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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