William A. Wieselquist
Oak Ridge National Laboratory
73 Papers
158 Citations
William A. Wieselquist is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Nuclear data & Computer science. The author has an hindex of 11, co-authored 53 publications. Previous affiliations of William A. Wieselquist include North Carolina State University.
Chat about Author
Papers
VERA Core Simulator Methodology for Pressurized Water Reactor Cycle Depletion
Brendan Kochunas,Benjamin Collins,Shane Stimpson,Robert Salko,Daniel Jabaay,Aaron Graham,Yuxuan Liu,Kang Seog Kim,William A. Wieselquist,Andrew T. Godfrey,Kevin T. Clarno,Scott Palmtag,Thomas J. Downar,Jess C. Gehin +13 more
TL;DR: The Virtual Environment for Reactor Applications Core Simulator (VERA-CS) as discussed by the authors was developed and implemented to perform high-fidelity, pressurized water reactor (PWR), multicycle, core physics calculations.
95
MPACT Theory Manual, Version 2.2.0
Thomas J. Downar,Benjamin Collins,Jess C. Gehin,Andrew T. Godfrey,Daniel Jabaay,Blake W. Kelley,Kevin T. Clarno,Kang Kim,Brendan Kochunas,Edward W. Larsen,Yuxuan Liu,Zhouyu Liu,William R. Martin,Scott Palmtag,Michael Rose,Thomas Saller,Shane Stimpson,Travis J. Trahan,Jipu Wang,William A. Wieselquist,Mitchell Young,Ang Zhu +21 more
- 09 Jun 2016
Nuclide depletion capabilities in the Shift Monte Carlo code
Gregory G. Davidson,Tara M. Pandya,Seth R. Johnson,Thomas M. Evans,A.E. Isotalo,Cole Gentry,William A. Wieselquist +6 more
TL;DR: This paper describes this new depletion capability in the Exnihilo radiation transport code suite and discusses its various features, including a multi-level parallel decomposition, high-order transport-depletion coupling, and energy-integrated power renormalization.
42
POLARIS: A New Two-Dimensional Lattice Physics Analysis Capability for the SCALE Code System
Matthew A. Jessee,William A. Wieselquist,Thomas M. Evans,Steven P. Hamilton,Joshua J Jarrell,Kang Seog Kim,Jordan P Lefebvre,Robert A Lefebvre,Ugur Mertyurek,Adam B. Thompson,Mark L Williams +10 more
- 01 Jan 2014
TL;DR: The Polaris calculation methods are summarized and results are provided for a series of computational benchmarks, which include the implementation of the relatively new resonance self- shielding approach called the embedded self-shielding method, the Implementation of a new 2-D method of-characteristics neutron transport solver, and the integration of the SCALE/ORIGEN depletion and decay solver for depleting material compositions.
31
VERA Benchmarking Results for Watts Bar Nuclear Plant Unit 1 Cycles 1-12
Andrew T. Godfrey,Benjamin Collins,Kang Seog Kim,Jeffrey J. Powers,Robert Salko,Shane Stimpson,William A. Wieselquist,Kevin T. Clarno,Jess C. Gehin,Scott Palmtag,Robert Montgomery,Rosemary Montgomery,Daniel Jabaay,Brendan Kochunas,Thomas J. Downar,Nathan Capps,Jeffrey Robert Secker +16 more
- 01 Jan 2016
30