Abstract
Abstract. Even though the maximum wind radius (Rmax) is an important parameter in determining the intensity and size of tropical cyclones, it has been overlooked in previous storm surge studies. This study reviews the existing estimation methods for Rmax based on central pressure or maximum wind speed. These over- or underestimate Rmax because of substantial variations in the data, although an average radius can be estimated with moderate accuracy. As an alternative, we propose an Rmax estimation method based on the radius of the 50 kt wind (R50). Data obtained by a meteorological station network in the Japanese archipelago during the passage of strong typhoons, together with the JMA typhoon best track data for 1990–2013, enabled us to derive the following simple equation, Rmax = 0.23 R50. Application to a recent strong typhoon, the 2015 Typhoon Goni, confirms that the equation provides a good estimation of Rmax, particularly when the central pressure became considerably low. Although this new method substantially improves the estimation of Rmax compared to the existing models, estimation errors are unavoidable because of fundamental uncertainties regarding the typhoon's structure or insufficient number of available typhoon data. In fact, a numerical simulation for the 2013 Typhoon Haiyan as well as 2015 Typhoon Goni demonstrates a substantial difference in the storm surge height for different Rmax. Therefore, the variability of Rmax should be taken into account in storm surge simulations (e.g., Rmax = 0.15 R50–0.35 R50), independently of the model used, to minimize the risk of over- or underestimating storm surges. The proposed method is expected to increase the predictability of major storm surges and to contribute to disaster risk management, particularly in the western North Pacific, including countries such as Japan, China, Taiwan, the Philippines, and Vietnam.
Highlights
The maximum wind radius (Rmax) is one of the predominant parameters for the estimation of storm surges and is defined as the distance from the storm center to the region of maximum wind speed
The National Institute for Land and Infrastructure Management (NILIM) and Japan Weather Association (JWA) models slightly over- or underestimated the radii, the lines were present within the entire plots
We propose an Rmax estimation based on the radius of the 50 kt wind (R50): Rmax = 0.23 R50
Summary
The maximum wind radius (Rmax) is one of the predominant parameters for the estimation of storm surges and is defined as the distance from the storm center to the region of maximum wind speed. The storm eye usually decreases in size as it deepens, with the minimum value occurring near the lowest pressure (Jordan, 1961), so that Rmax decreases logarithmically with the central pressure depth (Fujii, 1998). Loder et al (2009) examined various physical factors influencing peak surge elevation for an idealized marsh and demonstrated that a difference in Rmax of 3.7 times caused a difference of 40 % in the simulated surge height. Numerical simulations have often predicted the extent of inundation due to catastrophic storm surges. In the storm surge model of the Japan Meteorological Agency (JMA), two kinds of meteorological forcing fields are used: a simple parametric model of the tropical cyclone (TC) structure and a prediction of the operational non-hydrostatic mesoscale model (JMA, 2009). TC forecasts with a mesoscale model have gradually improved, their mean po-
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