A screen capture from the DOE's West Valley video. (Image: DOE)
A new animated video from the Department of Energy's Office of Environmental Management (EM) shows how cleanup contractor CH2M HILL BWXT West Valley (CHBWV) will take down the main plant process building at the West Valley Demonstration Project (WVDP).
The EM team at West Valley wanted to convey the project to the public, and they believe the animation accomplishes that goal, according to Stephen Bousquet, EM WVDP federal project director for the Main Plant Deconstruction Project.
Click here to watch the video.
Researchers are looking for the ideal characteristics of molten salt, which can serve as both coolant and fuel in advanced nuclear reactors. (Photo: Argonne National Laboratory)
Scientists are searching for new materials to advance the next generation of nuclear power plants. In a recent study, researchers at the Department of Energy’s Argonne National Laboratory showed how artificial intelligence could help pinpoint the right types of molten salts, a key component for advanced nuclear reactors.
The Human Systems Simulation Laboratory at INL allows researchers to simulate industrial control rooms to improve performance. (Photo: INL)
In the 1960s, nuclear energy established itself as a mainstay of the electrical grid for its ability to produce carbon-free, safe, and reliable power. Indeed, nuclear energy currently provides about 50 percent of carbon-free electricity in the United States, but a major challenge is its cost.
A color-enhanced image of the inside of a NIF preamplifier support structure. (Image: LLNL/Damien Jemison)
On December 5, researchers at the National Ignition Facility (NIF) at Lawrence Livermore National Laboratory achieved fusion energy breakeven. It was a gain for stockpile stewardship that also—as headlines gushed prior to the Department of Energy’s December 13 announcement—boosted the prospects of inertial fusion energy (IFE). The timing of the landmark achievement may have been especially welcome to private fusion companies with inertial or hybrid magneto-inertial confinement concepts, because it occurred as the DOE was getting ready to consider applications for $50 million in funding for fusion pilot plant design work.
An aerial view of Hanford’s Plutonium Uranium Extraction plant, showing the main facility (at center), the 211-A chemical storage area, and (in foreground) the 203-A acid storage area. (Photo: DOE)
Work crews at the Department of Energy’s Hanford Site in Washington state are performing risk-reduction activities at the Plutonium Uranium Extraction (PUREX) plant to prepare it for eventual disposition.
“It will be a yearslong effort to get this large facility ready for disposition, and I’m encouraged by the progress to safely and efficiently advance this work,” said Andy Wiborg, the DOE’s Projects and Facilities Division team lead for Hanford’s Central Plateau cleanup project.
A radiological control technician checks radiation readings on waste containers at WIPP. (Photo: WIPP)
The New Mexico Environment Department (NMED) is adding several conditions to the operating permit for the Department of Energy’s Waste Isolation Pilot Plant (WIPP) near Carlsbad, N.M. The permit changes, which would prioritize the disposal of transuranic (TRU) waste generated in the state and limit the repository’s capacity, are contained in a fact sheet the NMED.
The target chamber of LLNL’s NIF, where 192 laser beams delivered more than 2 million joules of ultraviolet energy to a tiny fuel pellet to create fusion ignition on December 5, 2022.
It’s official: Early in the morning on December 5 at Lawrence Livermore National Laboratory’s National Ignition Facility (NIF), the laser-triggered implosion of a meticulously engineered capsule of deuterium and tritium about the size of a peppercorn yielded, for the first time on Earth, more energy from a fusion reaction than was delivered to the capsule. The input of 2.05 megajoules (MJ) to the target heated the diamond-shelled, spherical capsule to over 3 million degrees Celsius and yielded 3.15 MJ of fusion energy output. The achievement was announced earlier today by officials and scientists representing the Department of Energy and its National Nuclear Security Administration, the White House, and LLNL during a livestreamed event.
A tanker holding 6200 gallons of leachate unloads at a backup load-in station at the Hanford Site’s ETF. (Photo: DOE)
Construction of a backup load-in station has been completed at the Hanford Site’s Effluent Treatment Facility (ETF) in Washington state.
“We broke ground on the backup facility about a year ago,” said Rob Wood, project manager for Washington River Protection Solutions, the Department of Energy’s tank operations contractor at the site. “I am proud of the team for completing this portion of the load-in expansion project and doing it safely. In phase two, expansion of the main load-in station will prepare us for 24/7 operations on the Hanford Site.”
Watch a time-lapse video of the backup load-in station construction here.