J
James J. Sienicki
Researcher at Argonne National Laboratory
Publications - 78
Citations - 1183
James J. Sienicki is an academic researcher from Argonne National Laboratory. The author has contributed to research in topics: Brayton cycle & Natural circulation. The author has an hindex of 14, co-authored 77 publications receiving 1004 citations.
Papers
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The Long-Life Core Encapsulated Nuclear Heat Source (ENHS) Generation IV Reactor
Ehud Greenspan,A. Barak,D. Saphier,J. Buongiorno,N. W. Brown,Q. Hossain,Carelli,Lawrence E. Conway,Milorad B. Dzodzo,E. Feldman,James J. Sienicki,Tanju Sofu,D.C. Wade,Ser Gi Hong,Y.I. Kim +14 more
TL;DR: In this article, the long-life core for the Encapsulated Nuclear Heat Source (ENHS) reactor has been redesigned so as to provide for fuel rod clad integrity up to the discharge burnup design goal.
Journal Article
The MELTSPREAD-1 computer code for the analysis of transient spreading in containments
TL;DR: The MELTSPREAD-1 code as mentioned in this paper contains new models for phenomena that were ignored in the earlier code, and provides benchmarking calculations of the relocation model against an analytical solution as well as simulant spreading data.
ReportDOI
Advanced Fast Reactor - 100 (AFR-100) Report for the Technical Review Panel
Christopher Grandy,James J. Sienicki,Anton Moisseytsev,L. Krajtl,Mitchell T. Farmer,T. K. Kim,B. Middleton +6 more
TL;DR: An overview of the Advanced Fast Reactor-100 in the requested format for a DOE technical review panel is provided in this paper, with information that is responsive to the DOE Request for Information, DE-SOL-0003674 Advanced Reactor Concepts, dated February 27, 2012.
ReportDOI
Regulatory Technology Development Plan Sodium Fast Reactor. Mechanistic Source Term Development
SUPERSTAR: an improved natural circulation, lead-cooled, small modular fast reactor for international deployment
TL;DR: An improved 120 MWe (300 MWt) Secure Transportable Autonomous Reactor (STAR) lead-cooled, pool-type, small modular fast reactor named the Sustainable Proliferation-resistance Enhanced Refined Secure Transformer (SUPERSTAR) is being developed at Argonne National Laboratory for international or remote deployment on growing electrical grids integrating lessons learned, innovations, and best features from the previous STAR-LM, SSTAR, and ELSY concepts as discussed by the authors.