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Project Summary

Gaining physics understanding and predictive capabilities to describe the evolution of plasma facing components (PFC) requires simultaneously addressing complex and diverse physics occurring over a wide range of length and time scales, as well as integrating extensive physical processes across the plasma - surface - bulk materials boundaries. This requires development not only of detailed physics models and computational strategies at each of these scales, but computer science algorithms and methods to strongly couple them in a way that can be robustly validated through comparisons against available data and new experiments. Therefore, the objective of this project is to develop robust, high-fidelity simulation tools capable of predicting the PFC operating lifetime and the PFC impact on plasma contamination, recycling of hydrogenic species, and tritium retention in future magnetic fusion devices, with a focus on tungsten based material systems. Deploying these tools requires the development of a leadershipscale computational code, as well as a host of simulations that span the multiple scales needed to address complex physical and computational issues at the plasma - surface interface and the transition below the surface where neutron damage processes in the bulk material dominate behavior in multiple-component materials systems. Successful development will enable improved prediction of PFC performance needed to ensure magnetic fusion energy development beyond ITER.

Team

 InstitutionPrincipal InvestigatorAdditional Participants
ANL

Barry Smith (bsmith@mcs.anl.gov)

Vijay Mahadevan

Alumni: Milad Fatenejad (U Chicago), Jungho Lee, Tim Tautges

GA/DIII-DVincent Chan (chanv@fusion.gat.com)Adam McLean (LLNL on assignment at DIII-D)
LANLXianzhu Tang (xtang@lanl.gov)Jim Ahrens, David Higdon, Li-Ta "Ollie" Lo, Danny Perez, Luis Sandoval, Arthur Voter, Blas Uberuaga
ORNL*Brian D. Wirth* (wirthbd@ornl.gov)

Alexander "Sasha" Barashev, David E. Bernholdt, Jay Jay Billings, Sophie Blondel, John Canik, Crystal Jernigan, Jeremy Meredith, Philip C. Roth, Roger Stoller

Alumni: Stanislav Golubov

PNNLRick Kurtz (rj.kurtz@pnnl.gov)Howard Heinisch, Giridhar Nandipati, Kenny Roche, Wahyu Setyawan
UCSDSergei Krasheninnikov (skrash@mae.ucsd.edu)Roman Smrinov
UIUCDavid Ruzic (druzic@uiuc.edu)

Davide Curreli, Kishor Kalathiparambil, Kyle Lindquist, Ivan Shchelkanov

UMassDimitrios Maroudas (maroudas@ecs.umass.edu)Lin Hu

* Lead Institution and Lead Principal Investigator

Sponsor

This project is part of the Scientific Discovery through Advanced Computing (SciDAC) program, and is jointly sponsored by the Fusion Energy Sciences (FES) and Advanced Scientific Computing Research (ASCR) programs within the U.S. Department of Energy Office of Science.

Key Partners

Program or SponsorProjectPSI Point(s) of ContactPartner Point(s) of Contact
SciDAC InstitutesFASTMath – Frameworks, Algorithms, and Scalable Technologies for MathematicsBarry Smith (ANL), Tim Tautges (ANL) 
 QUEST – Quantification of Uncertainty in Extreme Scale ComputationsDavid Higdon (LANL)Omar Knio (Duke), Habib Najm (SNL)
 SUPER – Institute for Sustained Performance, Energy and ResiliencePhil Roth (ORNL) 
 SDAV—Scalable Data Management, Analysis and VisualizationJim Ahrens (LANL), Jeremy Meredith (ORNL) 
DOE Fusion Energy SciencesPlasma Surface Interactions (PSI) Science CenterBrian Wirth (ORNL/UTK)

Thibault Faney, Karl Hammond, Niklas Juslin, Faiza Sefta, Donghua Xu

International Atomic Energy Agency

IAEA Coordinated Research Program on Plasma-Wall Interactions with Irradiated Tungsten and Tungsten Alloys in Fusion Devices, 2013-2017Brian Wirth (ORNL/UTK)B.J. Braams (IAEA)

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