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High level seismic/vibrational tests at the HDR: An overview

Conference ·
OSTI ID:10117958
; ;  [1]; ;  [2];  [3];  [4]
  1. Argonne National Lab., IL (United States)
  2. Kernforschungszentrum Karlsruhe GmbH (Germany)
  3. Fachhochschule Giessen-Friedberg, Giessen (Germany)
  4. Nuclear Regulatory Commission, Washington, DC (United States). Office of Nuclear Regulatory Research
+ Show Author Affiliations

As part of the Phase II testing at the HDR Test Facility in Kahl/Main, FRG, two series of high-level seismic/vibrational experiments were performed. In the first of these (SHAG) a coast-down shaker, mounted on the reactor operating floor and capable of generating 1000 tonnes of force, was used to investigate full-scale structural response, soil-structure interaction (SSI), and piping/equipment response at load levels equivalent to those of a design basis earthquake. The HDR soil/structure system was tested to incipient failure exhibiting highly nonlinear response. In the load transmission from structure to piping/equipment significant response amplifications and shifts to higher frequencies occurred. The performance of various pipe support configurations was evaluated. This latter effort was continued in the second series of tests (SHAM), in which an in-plant piping system was investigated at simulated seismic loads (generated by two servo-hydraulic actuators each capable of generating 40 tonnes of force), that exceeded design levels manifold and resulted in considerable pipe plastification and failure of some supports (snubbers). The evaluation of six different support configurations demonstrated that proper system design (for a given spectrum) rather than number of supports or system stiffness is essential to limiting pipe stresses. Pipe strains at loads exceeding the design level eightfold were still tolerable, indicating that pipe failure even under extreme seismic loads is unlikely inspite of multiple support failures. Conservatively, an excess capacity (margin) of at least four was estimated for the piping system, and the pipe damping was found to be 4%. Comparisons of linear and nonlinear computational results with measurements showed that analytical predictions have wide scatter and do not necessarily yield conservative responses, underpredicting, in particular, peak support forces.

Research Organization:
Argonne National Lab., IL (United States)
Sponsoring Organization:
USDOE, Washington, DC (United States)
DOE Contract Number:
W-31109-ENG-38
OSTI ID:
10117958
Report Number(s):
ANL/CP--73755; CONF-911079--22; ON: DE92006977
Country of Publication:
United States
Language:
English

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Related Subjects

21 SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS
210100
22 GENERAL STUDIES OF NUCLEAR REACTORS
220900
BUILDINGS
DAMPING
DYNAMIC LOADS
EARTHQUAKES
HDR REACTOR
PIPES
POWER REACTORS
NONBREEDING
LIGHT-WATER MODERATED
BOILING WATER COOLED
REACTOR SAFETY
RESPONSE FUNCTIONS
SEISMIC EFFECTS
SOIL-STRUCTURE INTERACTIONS
STRAINS
STRESS ANALYSIS
SUPPORTS
TESTING