Grossi

The ongoing, tense situation surrounding the Zaporizhzhia nuclear power plant in Ukraine was the subject of a recent interview with International Atomic Energy Agency director general Rafael Mariano Grossi when he appeared on CBS's 60 Minutes program.

The Zaporizhzhia facility is in an area of Ukraine that became occupied by Russian forces in late February 2022. Though Ukrainian staff remain at the now mostly idle plant, artillery shells have repeatedly landed at and near the plant over the past several months, with Ukrainian officials—along with many Western media outlets—blaming Russia, while Russian officials and media blame Ukraine.

Action from the IAEA: Following months of negotiations with both sides, inspectors from the IAEA, led by Grossi, finally visited the site in late August and early September, and the agency has been monitoring the situation since then with an observation mission at the site. In the interview, which aired on November 20, Grossi did not attribute blame for the shelling to either side.

On the eve of the 80th anniversary of the first controlled nuclear chain reaction, Nuclear Newswire is back with the second of three prepared #ThrowbackThursday posts of CP-1 coverage from past issues of Nuclear News.

On November 17, we surveyed the events of 1942 leading up to the construction of Chicago Pile-1, an assemblage of graphite bricks and uranium “pseudospheres” used to achieve and control a self-sustaining fission reaction on December 2, 1942, inside a squash court at the University of Chicago’s Stagg Field.

Today we’ll pick up where we left off, as construction of CP-1 began on November 16, 1942.

At this year’s Winter Meeting in Phoenix, Arizona, American Nuclear Society President Steven Arndt honored four ANS members with Presidential Citations. The president of ANS has the privilege of presenting presidential citations to individuals who, in their opinion, have demonstrated outstanding effort in some manner for the benefit of ANS and/or the nuclear community.

The awards are “highlighted throughout our community as a personal outreach to our recipients to say, ‘well done,’” said Arndt.

Aecon-Wachs, the U.S. division of Aecon Nuclear, has been tapped to support the Department of Energy’s goal of repurposing the unfinished Mixed Oxide Fuel Fabrication Facility at the Savannah River Site (SRS) in South Carolina. Known as Building 226-F, the facility is being transitioned into the Savannah River Plutonium Processing Facility (SRPPF) to produce plutonium pits for the nation’s stockpile of nuclear weapons.

Advancing its efforts to develop the Arctic and establish new energy markets, Russia launched a new nuclear-powered icebreaker, the Yakutia, in St. Petersburg during a November 22 ceremony. At the launching in the northern Russian port city, the Russian flag was raised on another nuclear icebreaker, the Ural. Overseeing the events via video link from the Kremlin, Russian president Vladimir Putin said that the icebreakers “were laid down as part of a large serial project and are part of our large-scale, systematic work to reequip and replenish the domestic icebreaker fleet, to strengthen Russia's status as a great Arctic power.”

Finnish energy companies Fortum and Helen Oy are initiating a study to explore collaboration on nuclear power projects, with particular emphasis on small modular reactors, the firms jointly announced last week, adding the caveat that “any future decisions on cooperation and investments will be made at a later stage.”

Nuclear fusion “might actually be on the cusp of commercial viability” today, says a recent article in Fortune magazine. The article offers a brief review of recent technical and entrepreneurial developments in fusion energy. It also places these developments in perspective regarding the hurdles that remain before commercialization can be realized.

During a recent weeklong trip to Southeast Asia aimed at bolstering U.S. economic and security ties in the region, Vice President Kamala Harris announced the launch of nuclear energy partnerships with Thailand and the Philippines.

Currently, neither country enjoys the benefits of nuclear power. Both rely primarily on some mix of petroleum, natural gas, and coal for their energy needs.

A study recently published in Nature Communications brings a new perspective on how radiation travels through dense plasmas, potentially leading to a better understanding of the evolution of stars and the development of controlled nuclear fusion reactions. researchers led by investigators at the University of Rochester Laboratory for Laser Energetics (LLE) achieved their findings by conducting experiments with LLE’s OMEGA laser system. This extensive system, which is 19 meters tall and 70 meters long, consists of 60 laser beams that can focus as much as 30,000 joules of energy onto a target for the study of nuclear and fluid dynamic events.

Jesus Zamora

Regardless of the specific field you work in or how your daily tasks are performed, digital technology does not go unnoticed, and the environmental remediation field is no exception. Digital technology can be defined as electronic tools, services, or devices that create, store, transmit, and manage data. As technology evolves, so do the ways in which it can be incorporated into remediation activities.

Adequate incorporation of these technologies can greatly improve both workflow and productivity while enhancing the quality and maintaining the integrity of data. My team and I have been able to connect radiological instruments to computers wirelessly, collect millions of radiological measurements, track the approximate location of these measurements, save measurements automatically in a database, and access them at will.

Lester

As part of the Purdue University–Duke Energy Understanding Tomorrow’s Nuclear Energy Lecture Series, Richard K. Lester of the Massachusetts Institute of Technology, will give a speech on Wednesday, November 30, from 3:30 to 5:00 p.m. EST. Lester, associate provost and a professor of nuclear science and engineering at MIT, was previously head of the university’s Department of Nuclear Science and Engineering. The event will also feature a panel discussion with Lester, Lefteri H. Tsoukalas, and Morgan Smith.

Register now: The lecture, “Tough Tech for Climate: Innovation Challenges, University Responsibilities, and Some Comments on the Nuclear Role,” can be attended in person at Eliza Fowler Hall, in the Stewart Center of Purdue University in West Lafayette, Indiana. The talk will also be available to watch on YouTube, where it will be live streamed. Advance registration is required. Following registration, individuals will receive a confirmation email containing information about joining the meeting.

Nuclear power plant cooling towers are easily recognizable for their familiar hyperboloid shape. But an art exhibit running at the Illinois Institute of Technology in Chicago aims to give visitors a different perspective.

The Art of the Reactor, an exhibit by the National Museum of Nuclear Science and History and hosted by IIT’s Lewis College of Science and Letters, opened on November 4 and runs until Sunday, December 4 at Hermann Hall on the IIT campus.

Westinghouse Electric Company and Finnish energy company Fortum have jointly announced the signing of a long-term partnership to develop, license, and supply VVER-440 fuel to Finland’s two-unit Loviisa nuclear power plant.

Experimentation on the world’s first molten salt reactor to potentially power aircraft was already underway in November 1954, being carried out by the U.S. Air Force. Oak Ridge National Laboratory was the scene for the power-dense, high-temperature reactor experiment known as the Aircraft Reactor Experiment (ARE).

The Japan Nuclear Safety Institute (JANSI) marked its 10th anniversary on November 15 by publishing a letter that highlighted some of the organization’s greatest accomplishments of the past decade. In the letter, William Edward Webster Jr., chairman of the JANSI board of directors, and Hiromi Yamazaki, JANSI president and chief executive officer, expressed their “sincere gratitude to all our members and other stakeholders who have provided support and guidance over the past 10 years.”

The scale and duration of a national campaign to transport spent nuclear fuel (SNF) from commercial nuclear power plants around the United States would be unprecedented. A meticulous level of planning that considers many elements is needed to inspire public confidence and support.

The Nuclear Regulatory Commission has conducted a special inspection at the University of Texas’s TRIGA Mark II nuclear research reactor in Austin to evaluate the use of improper fuel. The inspection was ordered following a notification from the University of Texas—Austin to the NRC that the research reactor had been operating for several months with two fuel elements that were not licensed for the reactor.

Hunt

U.K. chancellor of the exchequer Jeremy Hunt last week assuaged any concerns that Britain’s nuclear energy advocates might have been harboring regarding the new government’s support for the proposed Sizewell C plant. (The United Kingdom is on its third prime minister since July, when Boris Johnson’s government granted EDF Energy its long-awaited development consent order for the new nuclear build project.)

What he said: In his November 17 Autumn Statement, while noting the United Kingdom’s status as “a global leader in renewable energy,” Hunt added, “We need to go further, with a major acceleration of home-grown technologies like offshore wind, carbon capture, and storage, and, above all, nuclear. This will deliver new jobs, industries, and export opportunities and secure the clean, affordable energy we need to power our future economy and reach net zero."

Advanced reactors and small modular reactors with strikingly different coolants and sizes offer an array of different benefits, but when it comes to fuel cycle issues, including spent fuel and waste, they have a lot in common with conventional light water reactors. Two reports released within the last week—a National Academies of Sciences, Engineering, and Mathematics (NASEM) consensus committee report two years in the making and a Department of Energy study released by Argonne National Laboratory—address the timely topic of advanced reactor fuel cycle issues. While the NASEM committee ventured to define research and infrastructure needs to support the entire nuclear power fuel cycle, inclusive of new technologies, for decades to come, the DOE report compares the front- and back-end fuel cycle metrics of three reactor designs (from NuScale Power, TerraPower, and X-energy) that have been selected for DOE cost-share–funded demonstrations within this decade. Together, these reports provide assurance that the fuel cycle needs of a fleet of new reactors can be met and point to near-term research and planning needs.