Computer Simulation Playing Big Role in DOE-funded Project

1/8/2014 Michael Koon, College of Engineering at Illinois Marketing & Communications Coordinator

Written by Michael Koon, College of Engineering at Illinois Marketing & Communications Coordinator

Computer Simulation Playing Big Role in DOE-funded Project

 

NPRE Prof. Brent Heuser
NPRE Prof. Brent Heuser

A group NPRE Prof. Brent Heuser leads is nearing the end of its first year of research to develop improved cladding for nuclear fuel rods. The $3.5 million U.S. Department of Energy-funded project is in response to the 2011 nuclear disaster at the Fukushima site in Japan. Although the accident scenario that occurred in Japan is extremely unlikely in the United States, a proactive response to develop improved nuclear fuel is considered prudent within the worldwide nuclear industry.

 

Computer simulation NPRE Assistant Prof. Tomasz Kozlowski directs is supporting research on the experimental side. Kozlowski is one of a growing number of researchers taking advantage of high-performance computers such as the Illinois Campus Cluster to predict optimal outcomes prior to experiments and in some cases to explain the outcomes afterward.

The current standard in cladding is Zircaloy, a zirconium-based alloy. Zircaloy reacts with steam at high temperature. The resulted zirconium oxide liberates hydrogen, which is a flammable gas.

NPRE Assistant Prof. Tomasz Kozlowski
NPRE Assistant Prof. Tomasz Kozlowski

 

“All my research is computational,” Kozlowski explains. “I am able to simulate nuclear accidents by projecting the deterioration of reactor conditions due to age or fuel degradation.That involves heavy simulation of fluid flow, neutron transport and material performance.”

“High-performance computers have become essential to research in many disciplines across the Illinois campus, from Big Data applications, to astronomy, biology, and chemistry on through the alphabet to zoology,” explained Chuck Thompson, assistant dean and chief information officer for the College of Engineering. “The Illinois Campus Cluster program is a campus-wide resource that helps meet this need for research computing cycles.”

Kozlowski solves special differential equations for neutron transport using the Monte Carlo method.

“That is theoretically a very accurate method, but because it’s computational intensive, it can be very slow. The Campus Cluster allows me to quickly calculate the neutron and power distribution inside the reactor, which is almost as good as an experiment.”

That team consists of researchers from Illinois, University of Michigan, University of Florida and the Idaho National Laboratory with manufacturer ATI Wah Chang from Albany, Ore., assigned to help produce new materials. The United Kingdom has kicked in another $1.5 million to the effort by joining the American partners with some principal investigators from the University of Manchester.

The goal of the current grant is to propose another material that could be a replacement for Zircaloy or a coating that that would prevent water from coming into contact with the Zircaloy.

Kozlowski indicates that convincing industry to replace anything that it is currently using will be difficult, but not impossible. The U.S. DOE philosophy is to develop new or modified fuel materials to be deployed in existing reactors.

“Changing the cladding material would take around 15-20 years,” Heuser indicated. “We’re hopeful that if we can find a coating that works, that the time frame would be much shorter. The goal would then be deployment on a shorter time scale.”

In his computer modeling, Kozlowski is testing the response of the reactor when factoring in other variables such as a change in temperature.

“Many of the possible candidates for coatings may have negative effects on reactivity, and required fuel rod replacement more often or increasing the amount of fissle material required for the reactor to become critical,” Kozlowski said.

“In envisioning ways to make nuclear fuel safer, the biggest problem is the cladding, which is the first line of defense” Heuser concluded. “From that standpoint, computation is proving very important. We want to take an intelligent approach to performing calculations that will guide us.”

 


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This story was published January 8, 2014.