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NPRE 596 Graduate Seminar Series - Benjamin Spencer

Event Type
Seminar/Symposium
Topics
academic, engineering, graduate
Sponsor
NPRE 596 Graduate Seminar Series
Location
103 Talbot Laboratory, 104 S. Wright St., Urbana, IL
Date
Feb 1, 2022   4:00 - 4:50 pm  
Speaker
Benjamin Spencer, Technical Staff, Idaho National Laboratory
Cost
Free and Open to the Public
E-Mail
nuclear@illinois.edu
Phone
217-333-2295
Views
21
Originating Calendar
NPRE seminars

Multiphysics and Fracture Mechanics for Nuclear Power Applications 

 

Simulations of many problems of interest for nuclear energy require the use of multiphysics and fracture mechanics methods. The MOOSE framework is a readily extensible computational platform that is amenable to modeling a wide variety of multiphysics problems. Notable applications of MOOSE include nuclear fuel performance and structural component simulations, using the BISON and Grizzly codes, respectively. In many of these problems, fracture also plays an important role. For example, light water reactor fuel fractures extensively during normal operations, which has important operational and safety ramifications. Fracture also plays an important role in safety of key nuclear power plant structures such as reactor pressure vessels, containment structures, and core internal structures.

A number of methods for modeling fracture in MOOSE or MOOSE-based codes have been developed and are being continuously improved to meet the diverse needs of these applications. For some of these applications, linear elastic fracture mechanics analysis of a single crack are sufficient, while others require the ability to model propagation of multiple interacting cracks and fragmentation. Methods provided by MOOSE include the extended finite element method (XFEM), smeared cracking, peridynamics, and phase field methods. In addition, application-specific reduced order models for linear elastic fracture mechanics are provided by Grizzly. This presentation gives a high-level overview of these methods with example applications to problems of interest for nuclear energy.

Bio: Benjamin Spencer is a computational scientist in the Computational Mechanics and Materials department at Idaho National Laboratory (INL), where he has worked since 2011. In this role, he actively contributes to development of the BISON fuel performance code and the MOOSE framework, and leads the development of the Grizzly structural component aging code. He also leads the Structural Materials and Chemistry technical area in the Department of Energy’s Nuclear Energy Advanced Modeling and Simulation Program.  Prior to coming to INL, he worked for 9 years at Sandia National Laboratories developing and applying computational mechanics codes to a variety of applications. He holds an MS and a PhD in Civil Engineering from the University of Colorado, and a BS in Civil Engineering from Brigham Young University. 

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