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    Estimation of probable maximum precipitation in the context of climate change

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    Estimation of Probable Maximum Precipitation in the Context of Climate.pdf (958.4Kb)
    Date
    2023-09
    Author
    Gunathilaka, KMSS
    Fernando, WCDK
    Wickramasuriya, SS
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    Abstract
    Probable Maximum Precipitation (PMP) estimates are essential when designing hydraulic structures, especially since the risk of the failure of such structures is high. The impact on climate change with PMP has been crucial at present although the concept does not incorporate climate change. Although there are two widely used methods to estimate PMP, this research focused on the statistical method, covering 16 stations of the Kelani River catchment. The daily precipitation records for 57 years were collected, and the annual maximum daily rainfall series was prepared for all 16 stations. The study was conducted using five scenarios (S1- S5). The results from Hershfield PMP (S1) emphasize that the Hershfield enveloping curve has a very high value of frequency factor (K) in low annual average maximum daily precipitation. Thus, the need to modify the curve has arisen as a major objective of this research. As a result, Modified Hershfield PMP (S2) and Modified PMP in the context of Sri Lanka (S3) are considered. Outlier detection (S4) manifests that, there may be one or more or devoid of outliers deviating from the original concepts of Hershfield. Split sampling (S5) concludes that Standard Deviation (SD) is the most influential factor for PMP, which shows the effect of climate change. PMP maps are developed to observe the spatial temporal variation of PMP, which is the first version in the context of Sri Lanka.
    URI
    http://ir.kdu.ac.lk/handle/345/7472
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    • Engineering [37]

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