论文信息 - Improving Nuclear Power Plant Safety with FeCrAl Alloy Fuel Cladding

Improving Nuclear Power Plant Safety with FeCrAl Alloy Fuel Cladding

The US Department of Energy (DOE) is partnering with fuel vendors to develop enhanced accident tolerant nuclear fuels for Generation III water cooled reactors. In comparison with the standard current uranium dioxide and zirconium alloy system UO2-Zr), the proposed alternative accident tolerant fuel (ATF) should better tolerate loss of cooling in the core for a considerably longer time while maintaining or improving the fuel performance during normal operation conditions. General Electric, Oak Ridge National Laboratory and their partners have proposed to replace zirconium based alloy cladding in current commercial power reactors with an iron-chromium-aluminum (FeCrAl) alloy cladding such as APMT. The use of FeCrAl alloys will greatly reduce the risk of operating the power reactors to produce electricity.

K. Terrani | R. Rebak | John B. Williams | W. Gassmann | Kevin L. Ledford

[1] Y. J. Kim,et al. Hydrogen Diffusion in FeCrAl Alloys for Light Water Reactors Cladding Applications , 2016 .

[2] M. Todosow,et al. Metrics for the Technical Performance Evaluation of Light Water Reactor Accident-Tolerant Fuel , 2016 .

[3] R. Rebak,et al. Passivation Characteristics of Ferritic Stainless Materials in Simulated Reactor Environments , 2016 .

[4] R. Rebak. Alloy Selection for Accident Tolerant Fuel Cladding in Commercial Light Water Reactors , 2015 .

[5] Shenyang Huang,et al. Anticipated Improved Performance of Advanced Steel Cladding Under Long Term Dry Storage of Spent Fuel , 2015 .

[6] Nathan M George,et al. Neutronic analysis of candidate accident-tolerant cladding concepts in pressurized water reactors , 2015 .

[7] Kevin R Robb,et al. Analysis of the FeCrAl Accident Tolerant Fuel Concept Benefits during BWR Station Blackout Accidents , 2015 .

[8] R. Rebak. Nuclear Applications of Oxide Dispersion Strengthened and Nano-Featured Alloys: An Introduction , 2014 .

[9] Steven J. Zinkle,et al. Accident tolerant fuels for LWRs: A perspective , 2014 .