论文信息 - Development of an ASME-NH program for nuclear component design at elevated temperatures

Development of an ASME-NH program for nuclear component design at elevated temperatures

Abstract In this paper, we discuss an ASME-NH program that has been developed to overcome the complexity and costs arising from the real application of the ASME-NH rules by hand calculations for class 1 nuclear facility component design for elevated temperature operations. A computerized program is described for implementing all the assessment procedures such as the time-dependent primary stress limits, total accumulated creep-ratcheting strain limits, and the creep–fatigue damage limits by the elastic and inelastic analysis methods complying with the ASME-NH rules. As an example application, a preliminary structural integrity evaluation for a high-temperature reactor vessel design of a typical lead-cooled reactor is described.

Jae-Han Lee | Gyeong-Hoi Koo | Jae-Han Lee | G. Koo

[1] Jae-Han Lee,et al. Design of LMR reactor structures in the vicinity of hot pool free surface regions subjected to moving elevated temperature cycles , 2002 .

[2] B. Yoo,et al. Elevated Temperature Design of KALIMER Reactor Internals Accounting for Creep and Stress-Rupture Effects , 2000 .

[3] Robert Hill,et al. An advanced modular HLMC reactor concept featuring economy, safety, and proliferation resistance. , 2000 .

[4] Bong Yoo,et al. Evaluation of Creep-Fatigue Damage of KALIMER Reactor Internals Using the Elastic Analysis Method in RCC-MR , 2001 .

[5] J. Bree. Elastic-plastic behaviour of thin tubes subjected to internal pressure and intermittent high-heat fluxes with application to fast-nuclear-reactor fuel elements , 1967 .