Chang, C.-H.; Rahmad, R.; Wu, S.-J.; Hsu, C.-T. Spatial Frequency Analysis by Adopting Regional Analysis with Radar Rainfall in Taiwan. Water2022, 14, 2710.
Chang, C.-H.; Rahmad, R.; Wu, S.-J.; Hsu, C.-T. Spatial Frequency Analysis by Adopting Regional Analysis with Radar Rainfall in Taiwan. Water 2022, 14, 2710.
Chang, C.-H.; Rahmad, R.; Wu, S.-J.; Hsu, C.-T. Spatial Frequency Analysis by Adopting Regional Analysis with Radar Rainfall in Taiwan. Water2022, 14, 2710.
Chang, C.-H.; Rahmad, R.; Wu, S.-J.; Hsu, C.-T. Spatial Frequency Analysis by Adopting Regional Analysis with Radar Rainfall in Taiwan. Water 2022, 14, 2710.
Abstract
This study proposed a spatially and temporally improving methodology adopting the Regional Frequency Analysis with L-moments approach to estimate rainfall quantiles from 22787 grids of radar rainfall in Taiwan for a 24-hour duration. Due to limited radar coverage in the eastern region, significant discordant grids were found in the coastal area of the eastern region. A K-means cluster analysis using scaled at-site characteristics was used to group the QPESUMS grids in Taiwan into 22 clusters/sub-regions based on their characteristics. Spatially, homogeneous subregions with QPESUMS data produce more detailed homogeneous subregions with clear and continuous boundaries, especially in the mountain range area where the number of rain stations is still very limited. According to the results of z-values and L-moment ratio diagrams, the Wakeby (WAK), Generalized Extreme Value (GEV), and Generalized Pareto (GPA) distributions of rainfall extremes fitted well for the majority of subregions. The Wakeby distribution was the dominant best-fitted distribution, especially in the central and eastern regions. The east of the northern part and southern part of Taiwan had the highest extreme rainfall for each return period. Both areas were frequently struck by typhoons. By using grid-based (at-site) as the basis for assessing regional frequency analysis, the results show that the regional approach in determining extreme rainfall is very suitable for large-scale applications and even better for smaller scales such as watershed areas. The spatial investigation was performed by establishing regions of interest in small subregions across the northern part. It showed that regionalization was correct and consistent.
Keywords
Rainfall; QPESUMS; Regional Frequency Analysis; L-moments; Taiwan
Subject
Environmental and Earth Sciences, Atmospheric Science and Meteorology
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
