Using GeoMelt ICV technology to treat and immobilize problematic low-level wastes at INL and WCS.
A sample of GeoMelt glass. (Photos: Veolia)
When it comes to managing nuclear waste, technology is transforming the way some of the most problematic waste is handled. The idea to transform nuclear waste into glass was developed back in the 1970s as a way to lock away the waste’s radioactive elements and prevent them from escaping. For more than 40 years, vitrification has been used for the immobilization of high-level radioactive waste in many countries around the world, including the United States.
The NS Savannah—the first merchant ship powered by a nuclear reactor.
The American Bureau of Shipping (ABS) has announced the launch of a research project that will look into barriers to the adoption of advanced nuclear propulsion for commercial vessels.
The $794,000 project, awarded to ABS last year by the Department of Energy’s Office of Nuclear Energy, is now being formally contracted through the DOE’s U.S. Industry Opportunities for Advanced Nuclear Technology Development funding opportunity, according to ABS’s August 17 announcement. Support is to be provided by Idaho National Laboratory’s National Reactor Innovation Center (NRIC).
John Wagner, director of Idaho National Laboratory and president of Batelle Energy Alliance, delivered the keynote address at the 26th Annual Nuclear Generator & Supplier Executive Summit. (Photo: USA)
The 26th Annual Nuclear Generator and Supplier Executive Summit, hosted by Utilities Service Alliance (USA), was held at the Coeur d’Alene Golf and Spa Resort in Idaho from June 28 through July 1. About 375 attendees were present for this year’s meeting, themed “Nuclear’s Next Wave” which featured presentations and discussions on emerging nuclear technologies and designs, as well as an integrated tradeshow with about 50 industry suppliers exhibiting products, services, and ideas.
Idaho National Laboratory nuclear engineer Yasir Arafat (Photo: INL)
From refugee in Bangladesh to top nuclear engineer at Idaho National Laboratory, ANS member Yasir Arafat has led quite an interesting life, as described in a recent online profile written by Donna Kemp Spangler for the INL website. Arafat is leading the development of the Department of Energy’s Microreactor Applications Research Validation and EvaLuation (MARVEL) project at INL. The profile notes that MARVEL, which Arafat envisioned soon after joining INL in 2019, is scheduled to be “built and demonstrated at INL’s Transient Reactor Test Facility and connected to the world’s first nuclear microgrid within two years.”
Annie Caputo (left) and Bradley R. Crowell
October 8, 2021, 3:31PMUpdated December 31, 2021, 4:16PMNuclear NewsJoseph Campbell; Photos by Joseph Campbell and Peter Ritchie, INL The first of three phases of the Advanced Test Reactor’s sixth core overhaul culminated with the removal of the 31-ton stainless steel vessel top head on July 1, for the first time since 2004. The vessel and top head underwent extensive inspection, laser scanning, and upgrade as part of the overhaul. (Photo: JC)
As 2021 closes, Nuclear News is taking a look back at some of the feature articles published each month in the magazine. The October issue focused on plant maintenance and outage management with multiple articles looking at efficient ways to deal with plant maintenance. The article below looks at the herculean effort by INL to lead a full overhaul of the Advanced Test Reactor--a task that happens about every 10 years.
Out of the frenzy of nuclear technology and engineering development at the height of the Atomic Age, a few designs stand out above the rest—designs so innovative that they would not be surpassed for years, or even decades. An example of this unsurpassed design brilliance exists in the form of Idaho National Laboratory’s Advanced Test Reactor.
“ATR is really a beautiful machine,” said Sean O’Kelly, associate lab director for the ATR Complex. “The elegant cloverleaf core and control systems were a stroke of genius that solved just about every key problem of test reactor design. The designers’ solutions to those problems give us a testing capacity and flexibility that have yet to be matched.”
From left, Shannon Bragg-Sitton, Paul Chodak, and Michael J. Guastella appear before the Senate Committee on Energy and Natural Resources on November 4.
As Congress awaited key votes yesterday on spending bills that include production tax credits for at-risk plants and a new amendment adding $500 million in supplemental funding over five years to increase the availability of high-assay low-enriched uranium (HALEU), the U.S. Senate Energy and Natural Resources Committee held a Full Committee Hearing On Potential Non-Electric Applications Of Civilian Nuclear Energy. Sen. Joe Manchin (D., W.V.), chairman of the committee, emphasized that “advanced nuclear reactors hold enormous potential to provide opportunity to communities across the country with zero-emission baseload power” and made it clear he expects new reactors to replace retiring coal plants in his home state of West Virginia.
Speaking before the committee were Shannon Bragg-Sitton of Idaho National Laboratory, Paul Chodak III of American Electric Power, and Michael J. Guastella of the Council of Radionuclides and Radiopharmaceuticals.