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http://dx.doi.org/10.3741/JKWRA.2008.41.4.379

Impact Assessment of Climate Change on Extreme Rainfall and I-D-F Analysis  

Kim, Byung-Sik (Water Resources Research Div, Korea Institute of Construction Technology)
Kim, Bo-Kyung (Water Resources Research Div., Korea Institute of Construction Technology)
Kyung, Min-Soo (Dept. of Civil Engrg., Inha Univ.)
Kim, Hung-Soo (Dept. of Civil Engrg., Inha Univ.)
Publication Information
Journal of Korea Water Resources Association / v.41, no.4, 2008 , pp. 379-394 More about this Journal
Abstract
Recently, extreme precipitation events beyond design capacity of hydraulic system have been occurred and this is the causes of failure of hydraulic structure for flood prevention and of severe flood damage. Therefore it is very important to understand temporal and spatial characteristics of extreme precipitation events as well as expected changes in extreme precipitation events and distributional characteristics during design period under future climate change. In this paper, climate change scenarios were used to assess the impacts of future climate change on extreme precipitation. Furthermore, analysis of future extreme precipitation characteristics and I-D-F analysis were carried out. This study used SRES B2 greenhouse gas scenario and YONU CGCM to simulate climatic conditions from 2031 to 2050 and statistical downscaling method was applied to establish weather data from each of observation sites operated by the Korean Meteorological Administration. Then quantile mapping of bias correction methods was carried out by comparing the simulated data with observations for bias correction. In addition Modified Bartlett Lewis Rectangular Pulse(MBLRP) model (Onof and Wheater, 1993; Onof 2000) and adjust method were applied to transform daily precipitation time series data into hourly time series data. Finally, rainfall intensity, duration, and frequency were calculated to draw I-D-F curve. Although there are 66 observation sites in Korea, we consider here the results from only Seoul, Daegu, Jeonju, and Gwangju sites in this paper. From the results we found that the rainfall intensity will be increased and the bigger intensity will be occurred for longer rainfall duration when we compare the climate conditions of 2030s with present conditions.
Keywords
Climate Change; YONU CGCM; Downscaling; Quantile Mapping; MBLRP; I-D-F curve;
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