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Title: Transformational challenge reactor analysis to inform preconceptual core design decisions: Sensitivity study of transient analysis in a hydride-moderated microreactor

Journal Article · · Nuclear Engineering and Design
 [1]; ORCiD logo [2]; ORCiD logo [2]; ORCiD logo [3]
  1. Univ. of Tennessee, Knoxville, TN (United States); Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
  2. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
  3. Univ. of Tennessee, Knoxville, TN (United States)
+ Show Author Affiliations

The Transformational Challenge Reactor (TCR) program aims to demonstrate a revolutionary design approach enabled by advanced manufacturing and data analytics in the design of nuclear reactors. This article discusses scoping analyses of preconceptual designs to inform TCR design decisions and the evaluation of sensitivities and uncertainties on postulated transient scenarios. The applicability of the systems codes TRACE and RELAP5-3D to TCR transient analysis are examined, and RELAP5-3D models are used to examine the transient response of two candidate core designs at multiple power levels. Then, the uncertainty quantification code RAVEN is used to quantify the effect of several design parameters on reactivity-initiated accident (RIA) progression at hot zero power (HZP) and hot full power (HFP) as well as to assess the impact of uncertainties in transient parameters for the pressurized loss of forced cooling (PLOFC).When results were compared, TRACE and RELAP5-3D showed good agreement in their ability to predict system behavior, but RELAP5-3D calculations were closer to analytical predictions for the RIA. Furthermore, models for a PLOFC accident in two designs (a UO2 and TRISO core) at multiple power levels showed greater temperature margins for the TRISO core at all power levels. Using this information, along with other scoping analyses and constraints, the TCR design team selected a power level of 3 MWth and a TRISO-based core design. For this design RAVEN was applied to vary RIA parameters in RELAP5-3D models at HZP and HFP to understand the effect on figures of merit such as peak power, fuel and coolant temperature, and energy deposition. This sensitivity study found that the inserted reactivity worth was the most important parameter controlling all figures of merit, but for insertion up to 1.5$ no failure of TCR fuel is anticipated. For constant reactivity insertions, the magnitude of the fuel temperature coefficient was found to have the greatest effect on all figures of merit under most circumstances. These results not only demonstrate the anticipated robust safety of the proposed TCR fuel form but also provide a reference for future metal-hydride moderated systems to understand RIA behavior. In the PLOFC, the impact of heat transfer enhancement due to wavy flow channel effects dominated the variance in peak temperatures, and variations in heat exchanger elevation provided the greatest control on natural circulation flow rate. Additionally, no fuel particle failure is anticipated in the PLOFC.

Research Organization:
Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC05-00OR22725
OSTI ID:
1782064
Alternate ID(s):
OSTI ID: 1781888
Journal Information:
Nuclear Engineering and Design, Vol. 376, Issue 1; ISSN 0029-5493
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (30)

The potential impact of enhanced accident tolerant cladding materials on reactivity initiated accidents in light water reactors journal January 2017
Handbook of SiC properties for fuel performance modeling journal September 2007
Reactor performance and safety characteristics of two-phase composite moderator concepts for modular high temperature gas cooled reactors journal November 2020
Modular high temperature gas reactor core modeling with RELAP5-3D/PHISICS – Optimization schemes for load following journal June 2020
Comparison of the PHISICS/RELAP5-3D Ring and Block Model Results for Phase I of the OECD/NEA MHTGR-350 Benchmark journal January 2016
The challenges associated with high burnup, high temperature and accelerated irradiation for TRISO-coated particle fuel journal September 2007
Uranium nitride tristructural-isotropic fuel particle journal April 2020
Fabrication of yttrium hydride for high-temperature moderator application journal October 2020
Microencapsulated fuel technology for commercial light water and advanced reactor application journal August 2012
Coated particle fuel: Historical perspectives and current progress journal March 2019
Modeling reactivity insertion experiments of TRISO particles in NSRR using BISON journal March 2020
Material property correlations for uranium mononitride journal May 1990
Neutronic evaluation of a PWR with fully ceramic microencapsulated fuel. Part II: Nodal core calculations and preliminary study of thermal hydraulic feedback journal December 2013
Transformational Challenge Reactor preconceptual core design studies journal October 2020
Material property correlations for uranium mononitride journal May 1990
The IAEA CRP on HTGR uncertainties: Sensitivity study of PHISICS/RELAP5-3D MHTGR-350 core calculations using various SCALE/NEWT cross-section sets for Ex. II-1a journal April 2018
Fluid flow and heat transfer in wavy microchannels journal June 2010
Validation of the DALTON-THERMIX Code System with Transient Analyses of the HTR-10 and Application to the PBMR journal May 2010
Testing of HTR UO2 TRISO fuels in AVR and in material test reactors journal October 2013
Fully ceramic microencapsulated fuel in prismatic high-temperature gas-cooled reactors: Design basis accidents and fuel cycle cost journal June 2019
Heat transfer and pressure drop in corrugated channels journal January 2010
Spontaneous stabilization of HTGRs without reactor scram and core cooling—Safety demonstration tests using the HTTR: Loss of reactivity control and core cooling journal May 2014
Behavior of Coated Fuel Particle of High-Temperature Gas-Cooled Reactor under Reactivity-Initiated Accident Conditions journal November 2010
Validation of the nuclear design code system for the HTTR using the criticality assembly VHTRC journal October 2004
Transient tests on blower trip and rod removal at the HTR-10 journal March 2006
Fully Ceramic Microencapsulated fuel in prismatic high-temperature gas-cooled reactors: Sensitivity of reactor behavior during design basis accidents to fuel properties and the potential impact of the SiC defect annealing process journal April 2019
3D printing of high‐purity silicon carbide journal October 2019
RCCS Experiments and Validation for High-Temperature Gas-Cooled Reactor journal July 2009
A review of the thermophysical properties of MOX and UO2 fuels journal December 2001
Fully ceramic microencapsulated fuel in prismatic high temperature gas-cooled reactors: Analysis of reactor performance and safety characteristics journal April 2018

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