Discover - June 2010

Micro nukes are more reliable than
wind power, cheaper than solar,
and much easier to operate than
conventional nuclear plants.

tion seems like the sort of thing you would expect to ;nd at the back of a small brewpub. But the device runs like a top, sending a copious river of steam into the air above the building. (Reyes nixed a student scheme to dye the steam green and hook it up to a train whistle.)

NuScale plans to submit its design to the U.S. Nuclear Regulatory Commission in early 2012. The NRC is expected to take at least three years to approve it, due to a backlog of applications at the agency and to the newness of micro nuke designs. Still, that is probably a few years sooner than most other micro nukes can expect to get the nod; the NuScale reactor’s light-water technology is quite similar to the industry-standard approach with which the NRC is intimately familiar. To speed things up further, NuScale is initially marketing its micro nukes in bundles of 12 set up to replace existing nuclear power plants—which means that the company will not have to wait for approval of speci;c sites, since the go-ahead will already be in place. Having an installed base of safely operating reactors should make it easier to win approval for selling the units individually or in smaller bundles later on, Reyes contends. “We’ll learn a huge amount about building and running the reactors every time we produce a batch of 12,” he says. NuScale is in active discussions with several utility customers.

Sticking with proven light-water technology has some downsides, Reyes acknowledges. To keep the water from boiling and losing its heat-transferring properties, light-water reactors cannot run at the high temperatures that are most ef;cient for producing power. And even at lower temperatures, preventing boiling requires high pressure. In the unlikely event that an overheating core causes a reactor breach, the pressure could potentially cause an explosive venting of radioactive gases into the environment.

TO GET AROUND these problems, Japan’s Toshiba nd Hyperion Power Generation of Santa Fe, New Mexico, are pushing rival micro reactors. Their ver- sions, which have been in development for more than a decade, use circulating molten metal—sodium and lead bismuth, respectively—as coolants and heat conduits instead of water. Without the risk of water boiling, the reactors can run at higher temperatures, producing enough heat to extract hydrogen from water for use in fuel cells. And if one of these reactors melted open, there would be no venting, just a well-contained hot mess underground.

Toshiba’s 10-megawatt reactor design promises to be a marvel of low maintenance. It is intended to be sealed and run for up to 30 years without refueling, relying on uranium enriched to nearly 20 percent uranium-235.

(Typical reactors use a mix that is only about 5 percent energy-rich uranium-235; the rest is more common uranium-238.) Hyperion’s 25-megawatt prototype, which is based on technology developed at nearby Los Alamos National Laboratory and is similar to reactors long used on Russian submarines, gets by with more conventional levels of uranium enrichment but could still run 8 to 10 years without refueling. One big disadvantage to the liquid-metal reactors: Their novel design could require more study by the NRC, potentially adding two or more years to the approval process.

Micro nukes cannot match the cost of electricity from natural gas or coal in areas where these fuels are cheap. But their economics would really shine for isolated towns whose lack of access to central power grids has forced them to rely on dirty and costly-to-run diesel generators. In the United States that especially means Alaska: The town of Galena has a loose agreement with Toshiba to become an early customer, and both Hyperion and NuScale say they, too, have been speaking to communities in the state.

As pressure mounts to cut fossil fuel consumption, and as punitive taxes on non-green power kick in over the next several years, micro nukes could reach a wider market.

They are more reliable than wind power and cheaper than solar. They would be much easier to plan, site, set up, and operate than conventional nuclear plants, which currently are hard-pressed to attract investor support in this country. And micro nukes could appeal to companies—computer data centers, factories, ;nancial institutions, hospitals, and the like—that now spend millions of dollars on diesel generators and banks of batteries as back-up to avoid a disastrous loss of power. These bene;ts take on extra weight in much of Europe, Asia, and other parts of the world where fossil fuels are far costlier than in the United States.

For all their appeal, micro nukes carry some of the same drawbacks that have paralyzed the nuclear power industry in this country. For one thing, a bundle of micro nukes would collectively produce just as much nuclear waste as a conventional plant generating the same amount of power. “They produce less waste per plant but not less waste per unit of energy produced, so it’s not necessarily an advantage,” Corradini says. And no nuclear reactor can ever be 100 percent safe. The NRC currently requires only that the builder prove that the chance of a meltdown for a given reactor in a given year is less than 1 in 10,000.

Then again, nuclear advocates point out that there are plenty of problems associated with fossil fuel emissions —and not just from carbon dioxide. A widely cited Clean Air Task Force report found that power-plant pollution cuts short the lives of 24,000 Americans per year. U.S. Energy Secretary Steven Chu has come out in favor of government backing of small nuclear plants. Tiny nukes could particularly improve the quality of life in impoverished regions that otherwise would not have clean, affordable options for electricity. Hyperion CEO John Deal insists that micro nukes will drastically reduce misery, disease, and poverty throughout the developing world by powering water-treatment systems (as well as lights, sewing machines, and everything else electrical) at less cost than a diesel generator.