Chernobyl: How scientists are keeping the radiation contained

Chernobyl: How scientists are keeping the radiation contained

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The new sarcophagus under construction to cover the destroyed Chernobyl Reactor No. 4.
Photo: Tribune News Service

Engineers at Chernobyl, Ukraine, are close to finishing a new state-of-the-art protective shelter over the remains of reactor no. 4, the site of the worst nuclear power plant accident in history.

The New Safe Confinement, a 30,000-tonne structure that resembles a hangar the size of the Notre Dame cathedral in Paris, is the largest movable structure built. It will serve two purposes.

First, it will replace the "sarcophagus", the temporary, steel-and-concrete shelter hastily assembled by an army of 600,000 Soviet workers in 1986.

Built in just six months, it was a herculean and heroic effort that largely managed to contain the radiation which hadn't been immediately released in the accident. It was also costly in human life, as many of the workers - known as "liquidators" - did not have proper safety equipment.

The Chernobyl Nuclear Power Plant sarcophagus is a massive steel and concrete structure covering the nuclear reactor No. 4 building of the Plant.
Photo: Agence France Presse

In an interview with media, one man who helped build the sarcophagus said he had had eight heart and kidney operations because of complications from the radiation.

The shelter was not meant to last longer than 20 to 30 years, and the structure has visibly broken up with time. Engineers, concerned that a collapse of the sarcophagus could lead to a new release of radioactive dust into the environment, began plans in 1997 for the New Safe Confinement. The project is led by the European Bank for Reconstruction and Development.

Next year, the New Safe Confinement will be wheeled into place over the sarcophagus and sealed, providing a new shelter. Then, heavy-duty cranes inside the New Safe Confinement will take apart the sarcophagus.


Chernobyl by the numbers


The second task is waste management. According to the EBRD, there are more than 200 tonnes of uranium mixed with sand, lead and boric acid in a "lava like mass" in the reactor.

The mixture is the "most significant radiological hazard at the site". Levels of radioactivity are particularly high directly over the reactor. Rather than place workers there to build the roof of the New Safe Confinement, engineers decided to build a structure that could be wheeled into place instead.

There are other sources of radioactive waste, too, including fuel assemblies from reactors 1 to 3 of Chernobyl, the last of which stopped working in 2000.

Various sites for waste disposal are being built under the Shelter Implementation Plan, the 2.1 billion-euro (US$2.36 billion) road map to making the accident site safe.

Liquid radioactive waste will be mixed with cement at a special plant to bring it to a solid state. A storage facility built with international financial support will hold spent fuel collected from the reactor site.

One of the main questions for the future is cost. International donors, particularly the EBRD, the European Commission and the United States gave most of the funding for the Shelter Implementation Plan.

But as of next year, the Ukrainian government, which has faced severe strain because of politics and a bad economy, will be expected to manage the waste disposal process largely on its own.

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