Idaho National Laboratory (INL) recently released footage of a new experiment that simulates what happens to a nuclear fuel pin when it starts to overheat. The new series of tests will ultimately help researchers better understand the safety limits of nuclear fuel.
INL conducted the experiments at its Transient Reactor Test Facility (TREAT) using a first-of-a-kind device that can detect and study the critical heat flux of a nuclear fuel rod. Critical heat flux is the physical phenomenon that occurs when a fuel rod first begins to overheat and can no longer transfer additional heat to the water. This leads to excessive boiling around the surface of the pin and could potentially cause excessive fuel damage.
A Unique Look
The slow-motion video by INL shows the progression of boiling leading up to the point where critical heat flux is reached, when large quantities of water vapor bubbles touch the surface of the fuel rod. The experiment was conducted outside of the test reactor in a specially-designed water-filled capsule that used an electrically heated fuel pin to simulate the conditions. The entire experiment lasted one second, but provided unique insights into this phenomenon.
“Critical heat flux is an important parameter that regulators use to determine the safety limits of nuclear fuel,” said Dr. Colby Jensen, the Transient Testing Technical Leader. “These experiments will help us better understand fuel behavior and to demonstrate how robust safety features of advanced fuel designs will allow more efficient use of those designs.”