“The New Space Race is Going Nuclear” was the title of an hour webinar last week presented by the American Nuclear Society. The U.S. government is pouring money into the development of space nuclear power—for commercial, exploratory and military purposes—as described in the panel discussion featuring five very enthusiastic advocates of using atomic energy in space.
“So, it’s really an exciting time,” said the moderator for the American Nuclear Society, Jeffrey King, a professor of nuclear engineering and director of the Nuclear Science and Engineering Center at the Colorado School of Mines, and also past chair of the society’s Aerospace Nuclear Science and Technology Division.
“It’s actually a time I didn’t expect that we’d end up seeing in my lifetime,” King said. “But we have now multiple companies—everything from government to the large contractors, small companies to start-up companies all interested in space nuclear power and different aspects of space nuclear power. It’s truly an exciting renaissance time for the field.”
The panelists spoke of programs now proceeding or planned to place nuclear reactors on the Moon and Mars and the use of nuclear energy to power rockets.
As to the impacts of using nuclear power in space, comments made 44 minutes into the webinar were telling. King said “several people asked about,” in questions they sent in, “if anyone could comment on decommissioning plan or briefly what the plan is when we are done with these.”
Brad Rearden, director of the Government R&D Division of x-Energy, a company based in Maryland and, previously, for 20 years, with the Reactor and Nuclear Systems Division at Oak Ridge National Laboratory, said: “So, at this point, I mean, you’re going to have a reactor that’s potentially stationed on the moon and operating for a decade. You know there’s no repository in America. There’s also no repository on the moon. And, so, it’s certainly a policy that needs to be examined. There’s always the possibility of removing it from the Moon at some point for disposal and disposing of it or doing some sort of disposal in place. So, I think it’s a really relevant question and something that certainly needs to be decided on the policy level. We can provide technical answers for that.”
Moderator King followed declaring: “Certainly in lunar you don’t have water, you don’t have wind. You don’t have anything that drives the motion of material and you don’t have an ecosystem that we have to worry about protecting but it is going to be a long-term concern.”
Asked by me in a question about that statement, King wrote back: “Specifically, the moon does not have an ecosystem. While there are what we might consider concerns is terms of leaving things pristine and or long-term human habitat, the moon is sterile and the worry about damaging in ecosystem is largely non-existent.”
And, Sebastian Corbisiero, senior technical advisor in the Nuclear Science and Technology Directorate at Idaho National Laboratory and the leader in the laboratory’s “Fission Surface Power” program, added in the webinar: “I don’t think anything has been officially decided on that. However, I will say that having a reactor on the Moon is less risky than having spent fuel in the vicinity of large population.”
About the webinar, Bruce Gagnon, coordinator of the Global Network Against Weapons & Nuclear Power in Space, said: “I am reminded by the agents of nuclear power in space how the aerospace industry has viewed outer space during the 40 years I have been organizing on these issues. They’ve maintained that space is vast and limitless and has no real ecosystem or environment that we should be concerned about. So, their philosophy has essentially been ‘full speed ahead’.”
“Now today,” Gagnon said, “NASA, the military, and some in the aerospace industry, are worriedly tracking the growing amount of space debris orbiting the Earth. They are beginning to talk about the ‘Kessler syndrome’ that predicts cascading collisions due to increasingly crowded orbits which could at some point make getting a rocket through the debris field encircling our planet nearly impossible.”
“So as the nuclear industry cavalierly undertakes their plan for nuclear-powered mining colonies on the Moon, Mars and other planetary bodies they easily brush off any concerns about impacts,” said Gagnon. “As they make plans to test nuclear reactor rocket engines just over our heads in Lower Earth Orbits (LEO) they discount any concerns of environmental impacts if the tests go wrong. They never talk about the Department of Energy laboratories where these nuclear devices are fabricated with a long history of radioactive contamination of workers, local water tables and air contamination.”
“The space nuclear industry is flying blind—blinded by its devotion to profit and power,” Gagnon declared. “Their hard hearts have no concern about the negative impacts they might create on Earth, to the people and environment, nor any long-term impacts their high-tech nuclear power ‘visions’ might have in space. Their vision is so myopic, so limited, so tunnel like, because their minds are closed to the idea that space is alive and is an environment that we humans who are on this tiny spinning orb called Earth live in. They are colonizers, much like the long-history of earth-bound colonizers, who have raped and pillaged our lovely planet home.”
The Global Network Against Weapons & Nuclear Power in Space (www.spaceforpeace.org) founded 30 years ago, in 1992, at a conference in Washington, D.C. is the leading organization internationally challenging the weaponization and use of nuclear power in space.
In its description of the August 4th webinar, the American Nuclear Society asserts: “For decades, nuclear energy has played a role, sometimes minor and sometimes major, in humanity’s exploration and research of outer space. Many space experts, scientists, astronauts, and researchers believe that nuclear energy can fundamentally change how we live and work in extraterrestrial environments and that some missions, projects, and endeavors are nearly impossible without the involvement of nuclear technologies. As federal funding is being applied to nuclear projects for various space-based applications and opportunities, an expert panel will discuss how nuclear companies and researchers are poised to capitalize.”
A video recording of the webinar can also be viewed at https://www.ans.org/webinars/view-space2022/
Also on the panel was Michael Anness who, as biographies on the webinar website describes, “leads the development new nuclear fuel products and services at Westinghouse Electric Company.” He has been a licensed nuclear reactor operator, it says.
Also on it was Kate Kelly, director for Space and Emerging programs at Virginia-based BWXT Advanced Technologies and, previously, at BWX was “the Advanced Nuclear Systems Program Manager focused on the development of nuclear project to promote the company’s R&D interests in advanced manufacturing and nuclear thermal propulsion technologies.”
The sixth panelist was Alex Gilbert who has “expertise in space mining, nuclear innovation, energy markets and climate policy,” says his biography on the webinar website. “As Director of Space & Planetary Regulation at Zeno Power, Alex oversees regulatory approvals for space launch, maritime, and terrestrial applications of radioisotope power systems…He was lead author of the U.S. Advanced Nuclear Energy Strategy, which outlined how government and industry can establish U.S. leadership in next generation nuclear reactor markets.”
The American Nuclear Society describes itself as comprised of “10,000 members dedicated to advancing nuclear science and technology.”
King recounted that “I’ve been in and around the space nuclear community for quite a while, ever since 1997, for about 25 years. I remember it was space nuclear that got me into nuclear,” and being told by a nuclear engineer advisor that “space nuclear is going to be the future.”