![]() ![]() "There was already some controversy about pebble-bed HTGRs, but my impression was that many problems of them were not sufficiently published and thus not known to some of my colleagues," says Moormann. They also recommend investigating more secure long-term storage options for the fuel waste, which currently will be stored in aboveground canisters potentially vulnerable to environmental stresses and terrorism. "HTGR designs with what's known as a prismatic core seem to be less problematic than the pebble-bed one, so development work should concentrate on that," he says.īut to reduce risk, he and his colleagues advocate for several precautionary steps, including rigorous, continuous monitoring, the installation of containment and cooling systems, and an extended startup phase to allow the reactor to be observed and monitored as it comes to temperature. Moormann acknowledges the potential of HTGRs and supports further research into them. The pebble-bed design also produces a larger volume of radioactive waste, which is challenging to store or treat. ![]() And prototype HTGRs have surprised their operators in the past by forming localized hot spots in the core and unexpectedly high levels of radioactive dust. He and his coauthors, Scott Kemp and Ju Li of the Massachusetts Institute of Technology, argue that with new technology, there is always a higher chance of user error. The absence of core meltdown accidents does not mean that a dangerous event is not possible," Moormann says. It also does not have a redundant active cooling system. What this means in practice, however, is that the soon-to-be-operational HTR-PM has been built without the safeguards that nuclear reactors in operation today are usually equipped with: it does not have a high-pressure, leak-tight containment structure to serve as a backup in case of an accidental release of radioactive material. "Pebble-bed reactors have been described by their supporters as 'free from catastrophes' and 'walk away safe,'" he says. They use graphite- and ceramic-coated grains of uranium fuel that can withstand the core's very high temperatures and passive cooling systems, which together should eliminate the possibility of a core meltdown. In addition to generating electrical power more efficiently, pebble-bed HTGRs such as HTR-PM avoid some of the safety challenges that earlier reactor designs faced. "A realistic understanding of those risks is essential, especially for operators, and so we urge caution and a spirit of scientific inquiry in the operation of HTR-PM." "There is no reason for any kind of panic, but nuclear technology has risk in any case," says first author Rainer Moormann, a nuclear safety researcher based in Germany. ![]()
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