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@ -3655,6 +3655,17 @@ Artificial Intelligence Program.pdf}
file = {/home/danesabo/Zotero/storage/H2IWZM6I/Ellison et al. - Extending AADL for Security Design Assurance of Cy.pdf} file = {/home/danesabo/Zotero/storage/H2IWZM6I/Ellison et al. - Extending AADL for Security Design Assurance of Cy.pdf}
} }
@online{energySMAHTRConceptSmall2010,
title = {{{SMAHTR}} - {{A Concept}} for a {{Small}}, {{Modular Advanced High Temperature Reactor}} | {{ORNL}}},
author = {family=Energy, given=UT-Battelle LLC for the US Department, prefix=of, useprefix=false},
date = {2010-10-01},
url = {https://www.ornl.gov/publication/smahtr-concept-small-modular-advanced-high-temperature-reactor},
urldate = {2025-01-29},
abstract = {Several new high temperature reactor concepts, referred to as Fluoride Salt Cooled High Temperature Reactors (FHRs), have been developed over the past decade. These FHRs use a liquid salt coolant combined with high temperature gas-cooled reactor fuels (TRISO) and graphite structural materials to provide a reactor that operates at very high temperatures and is scalable to large sizes perhaps exceeding 2400 MWt. This paper presents a new small FHR the Small Modular Advanced High Temperature Reactor or “SmAHTR”.},
langid = {english},
file = {/home/danesabo/Zotero/storage/H3YE9BZL/smahtr-concept-small-modular-advanced-high-temperature-reactor.html}
}
@online{ENGR2100Module, @online{ENGR2100Module,
title = {{{ENGR}} 2100 {{Module}} 7.1 - {{Point Kinetics}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, title = {{{ENGR}} 2100 {{Module}} 7.1 - {{Point Kinetics}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}},
url = {https://canvas.pitt.edu/courses/280885/files/17486309?module_item_id=5008204}, url = {https://canvas.pitt.edu/courses/280885/files/17486309?module_item_id=5008204},
@ -5105,6 +5116,20 @@ Artificial Intelligence Program.pdf}
pages = {776--793} pages = {776--793}
} }
@report{greenePreConceptualDesignFluorideSaltCooled2011,
title = {Pre-{{Conceptual Design}} of a {{Fluoride-Salt-Cooled Small Modular Advanced High Temperature Reactor}} ({{SmAHTR}})},
author = {Greene, Sherrell R. and Gehin, Jess C. and Holcomb, David Eugene and Carbajo, Juan J. and Ilas, Dan and Cisneros, Anselmo T. and Varma, Venugopal Koikal and Corwin, William R. and Wilson, Dane F. and Yoder, Jr and Qualls, A. L. and Peretz, Fred J. and Flanagan, George F. and Clayton, Dwight A. and Bradley, Eric Craig and Bell, Gary L. and Hunn, John D. and Pappano, Peter J. and Cetiner, Sacit M.},
date = {2011-02-01},
number = {ORNL/TM-2010/199},
institution = {Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)},
doi = {10.2172/1008830},
url = {https://www.osti.gov/biblio/1008830},
urldate = {2025-01-29},
abstract = {This document presents the results of a study conducted at Oak Ridge National Laboratory during 2010 to explore the feasibility of small modular fluoride salt-cooled high temperature reactors (FHRs). A preliminary reactor system concept, SmATHR (for Small modular Advanced High Temperature Reactor) is described, along with an integrated high-temperature thermal energy storage or salt vault system. The SmAHTR is a 125 MWt, integral primary, liquid salt cooled, coated particle-graphite fueled, low-pressure system operating at 700 C. The system employs passive decay heat removal and two-out-of-three , 50\% capacity, subsystem redundancy for critical functions. The reactor vessel is sufficiently small to be transportable on standard commercial tractor-trailer transport vehicles. Initial transient analyses indicated the transition from normal reactor operations to passive decay heat removal is accomplished in a manner that preserves robust safety margins at all times during the transient. Numerous trade studies and trade-space considerations are discussed, along with the resultant initial system concept. The current concept is not optimized. Work remains to more completely define the overall system with particular emphasis on refining the final fuel/core configuration, salt vault configuration, and integrated system dynamics and safety behavior.},
langid = {english},
file = {/home/danesabo/Zotero/storage/HXHQI3IJ/Greene et al. - 2011 - Pre-Conceptual Design of a Fluoride-Salt-Cooled Small Modular Advanced High Temperature Reactor (SmA.pdf}
}
@book{greenLinearRobustControl1995, @book{greenLinearRobustControl1995,
title = {Linear Robust Control}, title = {Linear Robust Control},
author = {Green, Michael}, author = {Green, Michael},