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If your image of nuclear power is giant, cylindrical concrete cooling towers pouring out steam on a site that takes up hundreds of acres of land, soon there will be an alternative: tiny nuclear reactors that produce only one-hundredth the electricity and can even be delivered on a truck.

Small but meaningful amounts of electricity — nearly enough to run a small campus, a hospital or a military complex, for example — will pulse from a new generation of micronuclear reactors. Now, some universities are taking interest.

“What we see is these advanced reactor technologies having a real future in decarbonizing the energy landscape in the U.S. and around the world,” said Caleb Brooks, a nuclear engineering professor at the University of Illinois at Urbana-Champaign.

The tiny reactors carry some of the same challenges as large-scale nuclear, such as how to dispose of radioactive waste and how to make sure they are secure. Supporters say those issues can be managed and the benefits outweigh any risks.

Universities are interested in the technology not just to power their buildings but to see how far it can go in replacing the coal and gas-fired energy that causes climate change. The University of Illinois hopes to advance the technology as part of a clean energy future, Brooks said. The school plans to apply for a construction permit for a high-temperature, gas-cooled reactor developed by the Ultra Safe Nuclear Corporation, and aims to start operating it by early 2028. Brooks is the project lead.

Microreactors will be “transformative” because they can be built in factories and hooked up on site in a plug-and-play way, said Jacopo Buongiorno, professor of nuclear science and engineering at the Massachusetts Institute of Technology. Buongiorno studies the role of nuclear energy in a clean energy world.

“That’s what we want to see, nuclear energy on demand as a product, not as a big mega project,” he said.

Both Buongiorno and Marc Nichol, senior director for new reactors at the Nuclear Energy Institute, view the interest by schools as the start of a trend.

Last year, Penn State University signed a memorandum of understanding with Westinghouse to collaborate on microreactor technology. Mike Shaqqo, the company’s senior vice president for advanced reactor programs, said universities are going to be “one of our key early adopters for this technology.”

Penn State wants to prove the technology so that Appalachian industries, such as steel and cement manufacturers, may be able to use it, said Professor Jean Paul Allain, head of the nuclear engineering department. Those two industries tend to burn dirty fuels and have very high emissions. Using a microreactor also could be one of several options to help the university use less natural gas and achieve its long-term carbon emissions goals, he said.

“I do feel that microreactors can be a game-changer and revolutionize the way we think about energy,” Allain said.

For Allain, microreactors can complement renewable energy by providing a large amount of power without taking up much land. A 10-megawatt microreactor could go on less than an acre, whereas windmills or a solar farm would need far more space to produce 10 megawatts, he added. The goal is to have one at Penn State by the end of the decade.

Purdue University in Indiana is working with Duke Energy on the feasibility of using advanced nuclear energy to meet its long-term energy needs.

Nuclear reactors that are used for research are nothing new on campus. About two dozen U.S. universities have them. But using them as an energy source is new.

Back at the University of Illinois, Brooks explains the microreactor would generate heat to make steam. While the excess heat from burning coal and gas to make electricity is often wasted, Brooks sees the steam production from the nuclear microreactor as a plus, because it’s a carbon-free way to deliver steam through the campus district heating system to radiators in buildings, a common heating method for large facilities in the Midwest and Northeast. The campus has hundreds of buildings.

The 10-megawatt microreactor wouldn’t meet all of the demand, but it would serve to demonstrate the technology, as other communities and campuses look to transition away from fossil fuels, Brooks said.

One company that is building microreactors that the public can get a look at today is Last Energy, based in Washington, D.C. It built a model reactor in Brookshire, Texas that’s housed in an edgy cube covered in reflective metal.

Now it’s taking that apart to test how to transport the unit. A caravan of trucks is taking it to Austin, where company founder Bret Kugelmass is scheduled to speak at the South by Southwest conference and festival.

Kugelmass, a technology entrepreneur and mechanical engineer, is talking with some universities, but his primary focus is on industrial customers. He’s working with licensing authorities in the United Kingdom, Poland and Romania to try to get his first reactor running in Europe in 2025.

The urgency of the climate crisis means zero-carbon nuclear energy must be scaled up soon, he said.

“It has to be a small, manufactured product as opposed to a large, bespoke construction project,” he said.

Traditional nuclear power costs billions of dollars. An example is two additional reactors at a plant in Georgia that will end up costing more than $30 billion.

The total cost of Last Energy’s microreactor, including module fabrication, assembly and site prep work, is under $100 million, the company says.

Westinghouse, which has been a mainstay of the nuclear industry for over 70 years, is developing its “eVinci” microreactor, Shaqqo said, and is aiming to get the technology licensed by 2027.

The Department of Defense is working on a microreactor too. Project Pele is a DOD prototype mobile nuclear reactor under design at the Idaho National Laboratory.

Abilene Christian University in Texas is leading a group of three other universities with the company Natura Resources to design and build a research microreactor cooled by molten salt to allow for high temperature operations at low pressure, in part to help train the next generation nuclear workforce.

But not everyone shares the enthusiasm. Edwin Lyman, director of nuclear power safety at the Union of Concerned Scientists, called it “completely unjustified.”

Microreactors in general will require much more uranium to be mined and enriched per unit of electricity generated than conventional reactors do, he said. He said he also expects fuel costs to be substantially higher and that more depleted uranium waste could be generated compared to conventional reactors.

“I think those who are hoping that microreactors are going to be the silver bullet for solving the climate change crisis are simply betting on the wrong horse,” he said.

Lyman also said he fears microreactors could be targeted for a terrorist attack, and some designs would use fuels that could be attractive to terrorists seeking to build crude nuclear weapons. The UCS does not oppose using nuclear power, but wants to make sure it’s safe.

The United States does not have a national storage facility for storing spent nuclear fuel and it’s piling up. Microreactors would only compound the problem and spread the radioactive waste around, Lyman said.

A 2022 Stanford-led study found that smaller modular reactors — the next size up from micro — will generate more waste than conventional reactors. Lead author Lindsay Krall said this week that the design of microreactors would make them subject to the same issue.

Kugelmass sees only promise. Nuclear, he said, has been “totally misunderstood and under leveraged.” It will be “the key pillar of our energy transformation moving forward.”
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Australia’s Defense Department will remove surveillance cameras made by Chinese Communist Party-linked companies from its buildings, the government said Thursday after the U.S. and Britain made similar moves.

The Australian newspaper reported Thursday that at least 913 cameras, intercoms, electronic entry systems and video recorders developed and manufactured by Chinese companies Hikvision and Dahua are in Australian government and agency offices, including the Defense Department and the Department of Foreign Affairs and Trade.

Hikvision and Dahua are partly owned by China’s Communist Party-ruled government.

Australian Defense Minister Richard Marles said his department is assessing all its surveillance technology.

“Where those particular cameras are found, they’re going to be removed,” Marles told Australian Broadcasting Corp. “There is an issue here and we’re going to deal with it.”

Asked about Australia’s decision, Chinese Foreign Ministry spokesperson Mao Ning criticized what she called “wrongful practices that overstretch the concept of national security and abuse state power to suppress and discriminate against Chinese enterprises.”

Without mentioning Australia by name, Mao said the Chinese government has “always encouraged Chinese enterprises to carry out foreign investment and cooperation in accordance with market principles and international rules, and on the basis of compliance with local laws.”

“We hope Australia will provide a fair and non-discriminatory environment for the normal operation of Chinese enterprises and do more things that are conducive to mutual trust and cooperation between the two sides,” she told reporters at a daily briefing.

The U.S. government said in November it was banning telecommunications and video surveillance equipment from several prominent Chinese brands including Hikvision and Dahua in an effort to protect the nation’s communications network.

Security cameras made by Hikvision were also banned from British government buildings in November.

An audit in Australia found that Hikvision and Dahua cameras and security equipment were found in almost every department except the Agriculture Department and the Department of Prime Minister and Cabinet.

The Australian War Memorial and National Disability Insurance Agency have said they will remove the Chinese cameras found at their sites, the ABC reported.

Opposition cybersecurity spokesperson James Paterson said he had prompted the audit by asking questions over six months of each federal agency, after the Home Affairs Department was unable to say how many of the cameras, access control systems and intercoms were installed in government buildings.

“We urgently need a plan from the … government to rip every one of these devices out of Australian government departments and agencies,” Paterson said.

Both companies are subject to China’s National Intelligence Law which requires them to cooperate with Chinese intelligence agencies, he said.

“We would have no way of knowing if the sensitive information, images and audio collected by these devices are secretly being sent back to China against the interests of Australian citizens,” Paterson said.
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The Australian government will examine surveillance technology used in offices of the defense department, Defense Minister Richard Marles said Thursday, amid reports the Chinese-made cameras installed there raised security risks.

The move comes after Britain in November asked its departments to stop installing Chinese-linked surveillance cameras at sensitive buildings. Some U.S. states have banned vendors and products from several Chinese technology companies.

“This is an issue and … we’re doing an assessment of all the technology for surveillance within the defense (department) and where those particular cameras are found, they are going to be removed,” Marles told ABC Radio in an interview.

Opposition lawmaker James Paterson said Thursday his own audit revealed almost 1,000 units of equipment by Hangzhou Hikvision Digital Technology and Dahua Technology, two partly state-owned Chinese firms, were installed across more than 250 Australian government offices.

Paterson, the shadow minister for cybersecurity and countering foreign interference, urged the government to urgently come up with a plan to remove all such cameras.

Marles said the issue was significant but “I don’t think we should overstate it.”

Australian media reported on Wednesday that the national war memorial in Canberra would remove several Chinese-made security cameras installed on the premises over concerns of spying.

Hikvision and Dahua Technology did not immediately respond to requests seeking comment.

Australia and China have been looking to mend diplomatic ties, which soured after Canberra in 2018 banned Huawei from its 5G broadband network. That cooled further after Australia called for an independent investigation into the origins of COVID-19.

China responded with tariffs on several Australian commodities.

Prime Minister Anthony Albanese said he was not concerned about how Beijing might react to the removal of cameras.

“We act in accordance with Australia’s national interest. We do so transparently and that’s what we will continue to do,” Albanese told reporters.
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Last November, Northeastern University student Andre Neto Caetano watched the live, late-night launch of NASA’s Artemis 1 from Kennedy Space Center in Florida on a cellphone placed on top of a piano in the lobby of the hotel where he was staying in California.

“I had, not a flashback, but a flash-forward of seeing maybe Artemis 4 or something, and COBRA, as part of the payload, and it is on the moon doing what it was meant to do,” Caetano told VOA during a recent Skype interview.

Artemis 1 launched the night before Caetano and his team of scholars presented their Crater Observing Bio-inspired Rolling Articulator (COBRA) rover project at NASA’s Breakthrough, Innovative, and Game Changing (BIG) Idea Challenge. The team hoped to impress judges assembled in the remote California desert.

“They were skeptical that the mobility solutions that we were proposing would actually work,” he said.

That skepticism, said Caetano, came from the simplicity of their design.

“It’s a robot that moves like a snake, and then the head and the tail connect, and then it rolls,” he said.

NASA’s BIG Idea Challenge prompted teams of college students to compete to develop solutions for the agency’s ambitious goals in the upcoming Artemis missions to the moon, which Caetano explains are “extreme lunar terrain mobility.”

Northeastern’s COBRA is designed to move through the fine dust, or regolith, of the lunar surface to probe the landscape for interesting features, including ice and water, hidden in the shadows of deep craters.

“They never could … deploy a robot or a ground vehicle that can sort of negotiate the environment and get to the bottom of these craters and look for ice water content,” said professor Alireza Ramezani, who advises the COBRA team and has worked with robotic designs that mimic the movements of real organisms, something Caetano said formed a baseline for their research.

“With him building a robot dog and robot bat, we knew we wanted to have some ‘bioinspiration’ in our project,” Caetano said.

Using biology as the driving force behind COBRA’s design was also something Ramezani hoped would win over judges in NASA’s competition.

“Our robot sort of tumbled 80 to 90 feet (24-27 meters) down this hill and that … impressed the judges,” he told VOA. “We did this with minimum energy consumption and within, like, 10 or 15 seconds.”

Caetano said COBRA weighs about 7 kilograms, “so the fact that COBRA is super light brings a benefit to it, as well.”

Ramezani added that COBRA is also cost-effective.

“If you want to have a space-worthy platform, it’s going to be in the order of $100,000 to $200,000. You can have many of these systems tumbling down these craters,” he said.

The Northeastern team’s successful COBRA test put to rest any lingering skepticism, sending them to the top of NASA’s 2022 BIG Idea competition and hopefully — in the not-too-distant future — to the top of NASA’s Space Launch System on its way to the moon.

“I’m not saying this, our judges said this. It’s potentially going to transform the way future space exploration systems look like,” said Ramezani. “They are even talking to some of our partners to see if we can increase technology readiness of the system, make it space worthy, and deploy it to the moon.”

Which is why, despite his impending graduation later this year, Caetano plans to continue developing COBRA alongside his teammates.

“Because we brought it to life together, the idea of just fully abandoning it at graduation probably doesn’t appeal to most of us,” Caetano said. “In some way or another, we still want to be involved in the project, in making sure that … we are still the ones who put it on the moon at some point.”

That could happen as soon as 2025, the year NASA hopes to return astronauts to the lunar surface in the Artemis program.
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