China begins construction of underground lab to research waste disposal

13 April 2021

China is building a massive underground laboratory to research disposal technologies for high-level radioactive waste, China Daily reported on 8 April. This will pave the way for a repository that can handle the disposal of at least a century's worth of such materials for tens of thousands of years, the lab's chief designer, Wang Ju, vice-president of the Beijing Research Institute of Uranium Geology, told China Daily. The lab will be situated in granite up to 560 metres below ground in the Beishan region of Gansu province. The underground lab was listed as one of China's major scientific construction projects in the 13th Five-Year Plan (2016-20).

Its surface facilities will cover 247 hectares, with 2.39 hectares of gross floor space. The underground complex will have a total structural volume of 514,200 square cubic meters, along with 13.4 kilometers of tunnels, Wang noted. The lab is estimated to cost more than CNY2.72 billion ($422 million) and will take seven years to build. It is designed to operate for 50 years, and, if its research proves successful and the site is suitable, a long-term underground repository for high-level waste will be built near the lab by 2050.

Workers began building a water distribution system for the lab in December and roads to it are set to be paved this year, Wang added. "The lab will provide critical support in the safe geological disposal of high-level waste, which is crucial for the sustainable development of nuclear energy in China."

In 1985, the same year that China started building its first nuclear reactor, Chinese scientists had already begun researching how to properly dispose of waste containing harmful substances such as strontium-90, cesium-137and plutonium-239. "As China bolsters its nuclear power capacity, the disposal of high-level waste becomes a critical issue for nuclear safety and environmental protection," Wang said.

According to the 14th Five-Year Plan (2021-25), China seeks to cut carbon emissions by optimising its energy consumption structure and raising its proportion of non-fossil energy to around 20% in the next few years. Nuclear energy currently makes up about 5% of the total energy China produces. As of last year, China had 49 nuclear reactors in operation, making it the world's third-largest nuclear energy producer, behind the USA and France. There are a further16 nuclear reactors under construction.

"We cannot just reap the benefits of nuclear energy and worry about cleaning up its waste later. Development and safety are equally important, and both have always been the two paramount priorities in China's nuclear energy strategy," Wang said.

The international scientific community agrees that a safe and feasible method to dispose of waste is to permanently bury it deep underground in a tomb of concrete and rock, isolated from all biospheres, natural disasters and human activities for millennia, according to the International Atomic Energy Agency (IAEA).

But this requires scientists to comprehensively survey the repository's environment, both on the surface and underground, Wang said. That includes investigating the site's geological conditions, distribution and flow of groundwater, the types, locations and chemistry of rock types and dozens of other factors. The repository must also be far from populated areas and historical or cultural sites, as well as ecological protection zones, yet it also needs access to infrastructure so that personnel and material can be moved in to build the project, he added.

"Searching for candidate sites alone is already a massive scientific undertaking, let alone building the underground repository," Wang said, noting that Sweden, France and Finland have also completed their site selection and are applying for, or are building, repositories for high-level waste.

As for China, it took hundreds of scientists and engineers 35 years of drilling boreholes in isolated areas across the country in order to finally decide on the candidate site for the lab in Gansu province, Wang said. Fruitful exchanges and long-term collaboration between the IAEA and the China Atomic Energy Authority played a constructive role in China's geological disposal of nuclear waste, he said.

"I was a young man when I joined the project in 1993. Now people jokingly call me Uncle Wang, but I prefer the nickname 'the Beishan Ranger'," after the chosen region of Gansu, the 57-year-old engineer said. "Generations of scientists and engineers have been willing to toil and moil in the desert for this project because everyone knows managing nuclear waste is a solemn undertaking that will have a profound effect on people's lives, the environment and the nation's development," Wang said.

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