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Sensitivity analysis for reliable design verification of nuclear turbosets
Authors:Irmela Zentner  Stefano TarantolaE. de Rocquigny
Affiliation:a Lamsid—Laboratory for Mechanics of Aging Industrial Structures, UMR CNRS/EDF, 1, avenue Du Général de Gaulle, 92141 Clamart, France
b EDF R&D—Structural Mechanics and Acoustics Department, 1, avenue Du Général de Gaulle, 92141 Clamart, France
c Joint Research Centre of the European Commission—Institute for Protection and Security of the Citizen, T.P. 361, 21027 Ispra, Italy
d Ecole Centrale Paris—Applied Mathematics & Systems Department (MAS), Grande Voie des Vignes, 92 295 Châtenay-Malabry, France
Abstract:In this paper, we present an application of sensitivity analysis for design verification of nuclear turbosets. Before the acquisition of a turbogenerator, energy power operators perform independent design assessment in order to assure safe operating conditions of the new machine in its environment. Variables of interest are related to the vibration behaviour of the machine: its eigenfrequencies and dynamic sensitivity to unbalance. In the framework of design verification, epistemic uncertainties are preponderant. This lack of knowledge is due to inexistent or imprecise information about the design as well as to interaction of the rotating machinery with supporting and sub-structures. Sensitivity analysis enables the analyst to rank sources of uncertainty with respect to their importance and, possibly, to screen out insignificant sources of uncertainty. Further studies, if necessary, can then focus on predominant parameters. In particular, the constructor can be asked for detailed information only about the most significant parameters.
Keywords:Sensitivity analysis   Epistemic uncertainty   Turboset   Design verification
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