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Title: Prognostic model and failure mechanisms of steam generators in Sodium-Cooled fast reactors

Journal Article · · Nuclear Engineering and Design
ORCiD logo [1]; ORCiD logo [2]; ORCiD logo [2];  [3];  [4];  [3];  [1]
  1. Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)
  2. Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
  3. Rensselaer Polytechnic Inst., Troy, NY (United States)
  4. Idaho National Laboratory (INL), Idaho Falls, ID (United States)
+ Show Author Affiliations

This paper presents a prognostic model for sodium-cooled fast reactor (SFR) steam generators (SGs). Here, the purpose of the model is to estimate the remaining useful life of SFR SGs and thus to support the decision-making of autonomous control. SFR SGs are of great interest for plant integrity due to their harsh operation environment. They operate at higher temperatures and higher coolant-to-steam pressure differences than those of current light water reactors (LWR). The severity of the SFR SG failure consequences, which include water-sodium contact, is another reason. Understanding its failure mechanisms is important for the development of its prognostic model. Based on our literature review and physics-based analysis, we concluded that creep would be a dominant degradation mode of SFR SGs due to SFR’s high-temperature and high-pressure environment. Thus, creep is the focus of the prognostic model. Various other failure modes were also investigated in this study. The mechanical fatigue due to flow-induced vibration is usually observed in early developmental phases and would not be an important issue during normal operation. The thermal fatigue due to thermal stripping is occasionally observed in other components in SFRs but does not affect SG integrity. Pure water stress corrosive crack, fretting, and so on are commonly observed in LWR SGs but are significantly less important in SFR SGs because of the high temperatures, high pressure differences, and chemical properties of liquid sodium. Based on these investigations, a prognostic model focusing on creep failures was developed. It estimates the failure probability profile by sampling the Larson-Miller parameter (LMP) and temperature and associated uncertainties through Monte Carlo methods. Two case studies were presented. The first one demonstrated the model’s capability to calculate the failure probability for a new specimen within a given time. If the tube is working under temperatures of 500C ± 3 and pressures of 15.2 MPa, which leads to LMP of 20,100 ± 50, the failure probabilities within 50, 70, and 90 years are approximately 0.1 %, 3.2 %, and 17.5 %. The second demonstrated how adjusting the workload can help to protect the integrity of the component. For an old tube reaching 99 % of its lifespan, continuing to run at temperatures of 500C ± 3 and LMP of 20,100 ± 50 leads to a failure probability of about 29.0 % within a year. If the temperature is reduced by 5C, the failure probability can be reduced to 2.5 %, and, if the pressure is also reduced such that the LMP is increased by 100, the failure probability can further be reduced to 0.12 %.

Research Organization:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE Office of Nuclear Energy (NE), Nuclear Energy Enabling Technologies (NEET)
Grant/Contract Number:
AC05-00OR22725; NE0008873
OSTI ID:
2336684
Alternate ID(s):
OSTI ID: 2335427; OSTI ID: 2348942
Journal Information:
Nuclear Engineering and Design, Journal Name: Nuclear Engineering and Design Vol. 423; ISSN 0029-5493
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (27)

Reliability of Controlled Collapse Interconnections journal May 1969
A robust model for creep-fatigue life assessment journal January 2013
Discussion: “Experimental Support for Generalized Equation Predicting Low Cycle Fatigue” (Tavernelli, J. F., and Coffin, Jr., L. F., 1962, ASME J. Basic Eng., 84, pp. 533–537) journal December 1962
The energy density exhaustion method for assessing the creep-fatigue lives of specimens and components journal September 2013
Normalized creep–fatigue life prediction model based on the energy dissipation during hold time journal July 2007
Fabrication, Construction, and Operation Problems for Grade 91 Fossil Power Components journal November 2004
On-Line Monitoring and Diagnostics of the Integrity of Nuclear Plant Steam Generators and Heat Exchangers, Volumes 1, 2 report June 2005
Austenitic steel grades for boilers in ultra-supercritical power plants book September 2016
Thermomechanical fatigue—damage mechanisms and mechanism-based life prediction methods journal February 2003
Grade 92 creep-strength-enhanced ferritic steel book August 2014
Relationship Between Thermal Fatigue and Low-cycle Fatigue at Elevated Temperature book January 1973
An Explicit Creep-Fatigue Model for Engineering Design Purposes journal October 2018
Continuum Damage Mechanics: Part II—Damage Growth, Crack Initiation, and Crack Growth journal March 1988
Creep Properties of Grade 91 Steel Steam Generator Tube at 923K journal January 2013
An acceleration model for lead-free (SAC) solder joint reliability under thermal cycling conference May 2008
Technical Needs for Prototypic Prognostic Technique Demonstration for Advanced Small Modular Reactor Passive Components report May 2013
Determination of the Creep-Fatigue Interaction Diagram for Alloy 617
  • Wright, J. K.; Carroll, L. J.; Sham, T. -L.
  • ASME 2016 Pressure Vessels and Piping Conference, Volume 5: High-Pressure Technology; Rudy Scavuzzo Student Paper Symposium and 24th Annual Student Paper Competition; ASME Nondestructive Evaluation, Diagnosis and Prognosis Division (NDPD); Electric Power Research Institute (EPRI) Creep Fatigue Workshop https://doi.org/10.1115/PVP2016-63704
conference December 2016
A Novel Creep-Fatigue Life Prediction Model for P92 Steel on the Basis of Cyclic Strain Energy Density journal September 2016
Material Behavior and Performance in Environments of Extreme Pressure and Temperatures book December 2016
Modification of Larson–Miller Parameter Technique for Predicting Creep Life of Materials journal December 2015
Thermal-mechanical fatigue behaviour and life prediction of P92 steel, including average temperature and dwell effects journal January 2020
Flow-induced vibration in LMFBR steam generators: A state-of-the-art review journal February 1977
A lifetime model for creep-fatigue interaction with applications to the creep resistant steel P92 journal September 2021
Final Report for Project 13-4791: New Mechanistic Models of Creep-Fatigue Crack Growth Interactions for Advanced High Temperature Reactor Components report March 2018
Prognostics and Health Management in Nuclear Power Plants: An Updated Method-Centric Review With Special Focus on Data-Driven Methods journal June 2021
The effect of cyclic loading on the creep fatigue life and creep strength of a DS superalloy: Damage mechanism and life modeling journal May 2020
Thermal striping limits for components of sodium cooled fast spectrum reactors journal December 2009

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22 GENERAL STUDIES OF NUCLEAR REACTORS
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steam generator
creep
fatigue
prognostics
autonomous control