This Science News Wire page contains a press release issued by an organization and is provided to you "as is" with little or no review from Science X staff.

'Dream Team' chosen to study basic science of nuclear waste

July 19th, 2016

A more thorough understanding of the chemistry of radioactive waste is key to treating this unwanted byproduct of winning World War II and the Cold War.

To accelerate the scientific breakthroughs needed to support the Department of Energy's cleanup mission, four new Energy Frontier Research Centers have been formed. Energy Secretary Moniz announced Monday that up to $40 million dollars will go to fund the four centers for up to four years.

DOE's Pacific Northwest National Laboratory will lead one center called IDREAM, which stands for Interfacial Dynamics in Radioactive Environments and Materials.

Approximately 300 million liters of highly radioactive wastes are stored in hundreds of underground tanks at the Hanford Site in Washington and the Savannah River Site in South Carolina. These wastes are extremely complicated mixtures of salts and sludges that have been exposed to ionizing radiation for decades. Their chemistry is dominated by interactions at solid-liquid interfaces that are poorly understood. A more detailed understanding of the interfacial processes in radiation environments is needed to support innovation in the processing of these materials for disposal.

"We defined the science questions that need to be answered first and then brought the right people together who can help answer those questions, so it really is a dream team," said Sue Clark who will lead the Energy Frontier Research Center. Clark is a Battelle fellow at PNNL and a regents professor of chemistry at Washington State University in Pullman.

The team is made up of researchers from PNNL, Washington State University, University of Washington, Georgia Institute of Technology, University of Notre Dame, City College of New York and Oak Ridge National Laboratory.

The team has expertise in chemistry, chemical engineering, materials science, microscopy and computational modeling. Ultimately, the goal is to understand the impact of radiation on the various materials and constituents in waste tanks and how they age.

"If we can understand that aging process, we can possibly reduce the time and expense of characterizing the waste and accelerate its processing for disposal," said Clark.

"Science underpins every mission of the Department of Energy. These new Energy Frontier Research Centers will provide a foundation of basic science for a top priority of DOE—tackling environmental cleanup of hazardous waste from nuclear weapons research and production," said Cherry Murray, director of DOE's Office of Science. "These projects bring together talent and leadership from top scientists to solve problems through scientific discovery."

The centers were competitively selected based on a comprehensive merit review process and are expected to begin work in October.

"Beyond the important scientific advancements we will make, I am very excited about training the next generation of scientists who will continue tackling these issues over the next 30 to 40 years," said Clark. "In particular, WSU has world-class academic programs in radiochemistry and materials science. PNNL's joint appointment program for faculty and staff will facilitate our collaboration on this important societal challenge."

Provided by Pacific Northwest National Laboratory

Citation: 'Dream Team' chosen to study basic science of nuclear waste (2016, July 19) retrieved 30 September 2025 from https://sciencex.com/wire-news/230377049/dream-team-chosen-to-study-basic-science-of-nuclear-waste.html

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.