Home > Science > Energy

U.S. scientists created uranium crystals for safer nuclear fuels

U.S. scientists created uranium crystals  for safer nuclear fuels     Science & Technology World Website

 

Mention the word “crystals” and few people think of nuclear fuel. Unless you are Eric Burgett.

The Idaho State University professor is on a quest to create pure, single crystals of uranium and uranium oxide so researchers at Idaho National Laboratory and elsewhere can better understand the material and design higher performance fuels to power nuclear reactors.

Burgett and his team of graduate students have successfully manufactured cerium oxide crystals as a practice run (cerium can be a nonradioactive surrogate for uranium or plutonium). The team produced its first uranium oxide crystal in June at ISU’s Research in Science and Engineering (RISE) facility in Pocatello.

"A single crystal allows researchers to test and study a material in its simplest form,” said Burgett, who also is a Center for Advanced Energy Studies affiliate.

He grew zinc oxide crystals for use in neutron detectors. From there, he began experimenting with uranium and plutonium oxide crystals.

In Fiscal Year 2010, he was part of a team that won U.S. Department of Energy funding to create single uranium oxide crystals.

Researchers have long studied the physical characteristics of uranium oxide – the primary fuel for the nation’s nuclear reactor fleet.

But they examine uranium oxide fuel pellets, which are composed of multiple crystallites randomly mixed together and whose microstructural makeup can vary from batch to batch. That variance makes studying it and predicting what happens to it in a reactor difficult.

"About 95 percent of the crystals that make up the uranium oxide are randomly oriented. There is no order,” Burgett said. “How can you accurately model and simulate a fuel pellet crystal with randomness? With the crystals we are growing, you can. We will be able to examine a single uranium or uranium oxide crystal and how heat moves through it. That gives us a baseline to understand what happens to the material as it gets more complex and the crystal structure changes.”

To make the crystals, Burgett and his team crush nuclear fuel pellets donated by INL and then heat them in a furnace at the RISE building. Once the crystals grow, they are removed, inspected, and then polished.

The multiday process results in a crystal with atoms precisely aligned. The crystal can be studied to understand how heat moves through it.

"The goal is to build a safer fuel for a safer reactor," Burgett said.

INL researchers are excited about Burgett’s work and are planning to acquire uranium and uranium oxide crystals.

Popular

0411-39731515-8029kfzx@twwtn.com

ICP:09019593 Network Management No:20110200020

Operation license of appreciation telecom service:B-2-4-20100139

Science & Technology World Website has all rights Copyright @ 2010-2016 by www.twwtn.com. all rights reserved