PRIMARY HURRICANE VORTEX
; PARAMETRIC REPRESENTATION
; FIELD MODEL
; PRESSURE
; SPEEDS
; RADIUS
; RISK
WOS学科分类:
Nuclear Science & Technology
WOS研究方向:
Nuclear Science & Technology
英文摘要:
Global warming and climate change are increasing the intensity of typhoons and hurricanes and thus increasing the risk effects of typhoon and hurricane hazards on nuclear power plants (NPPs). To reflect these changes, a new NPP should be designed to endure design-basis hurricane wind speeds corresponding to an exceedance frequency of 10(-7)/yr. However, the short typhoon and hurricane observation records and uncertainties included in the inputs for an estimation cause significant uncertainty in the estimated wind speeds for return periods of longer than 100,000 years.
A logic-tree framework is introduced to handle the epistemic uncertainty when estimating wind speeds. Three key parameters of a typhoon wind field model, i.e., the central pressure difference, pressure profile parameter, and radius to maximum wind, are used for constructing logic tree branches. The wind speeds of the simulated typhoons and the probable maximum wind speeds are estimated using Monte Carlo simulations, and wind hazard curves are derived as a function of the annual exceedance probability or return period. A logic tree decreases the epistemic uncertainty included in the wind intensity models and provides reasonably acceptable wind speeds. (C) 2018 Korean Nuclear Society, Published by Elsevier Korea LLC.