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Milestone: First full-scale simulation of an operating nuclear reactor

By R&D Editors | July 11, 2013

This CASL visualization shows the thermal distribution of neutrons in Watts Bar Unit 1 Cycle 1 reactor core at initial criticality, as calculated by the VERA program. Image: Oak Ridge National LaboratoryThe Consortium for Advanced Simulation of Light Water Reactors (CASL) announced that its scientists have successfully completed the first full-scale simulation of an operating nuclear reactor. CASL is modeling nuclear reactors on supercomputers to help researchers better understand reactor performance with much higher reliability than previously available methods, with the goal of ultimately increasing power output, extending reactor life and reducing waste.

Simulation results from the Virtual Environment for Reactor Applications (VERA) program, developed by CASL, were compared with actual data provided by the Tennessee Valley Authority’s (TVA) Watts Bar Nuclear Plant in Tennessee, which confirmed its accuracy.

“VERA’s capabilities range from simulating single fuel pins to modeling an entire operational reactor core,” said Jess Gehin of Oak Ridge National Laboratory’s Reactor and Nuclear Systems Div. “It addresses operational challenges and supports increased power generation by exploring greater efficiency and life extensions.”

During cycle startup of commercial nuclear power reactors, technicians perform a series of tests to confirm the reactor is operating as expected. For CASL, results of previous tests are useful for demonstrating the accuracy of the VERA software. As a CASL partner, TVA provided detailed historical information and measured operational data from the Watts Bar plant to allow comparisons of the VERA simulation.

The simulations of the reactor startup tests are just a first step in the demonstration of VERA. CASL is extending the program’s capability to simulate full power operation of the TVA reactor, which will require further VERA development to integrate the nuclear and thermal hydraulic physics. These additional capabilities will allow researchers to pursue breakthroughs in understanding key phenomena in the operating reactors.

Source: Oak Ridge National Laboratory

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