New Estimates of 24-Hour Probable Maximum Precipitation (PMP) for the British Isles
New Estimates of 24-Hour Probable Maximum Precipitation (PMP) for the British Isles作者机构:Charldon Hill Research Station The Batch Shute Lane Bruton Somerset UK Laxfield House Cundy’s Lane Brent Eleigh Suffolk UK
出 版 物:《Journal of Geoscience and Environment Protection》 (地球科学和环境保护期刊(英文))
年 卷 期:2021年第9卷第7期
页 面:209-228页
主 题:Probable Maximum Precipitation Moisture Maximisation Modified Gumbel Reduced Variate
摘 要:Estimates of PMP are needed in order to estimate the spillway design flood for dams which must be capable of safely passing the probable maximum flood (PMF). For over forty years the standard estimates of the Flood Studies Report (FSR) have almost always been used. However, since then several studies have shown that these values are too low, and new estimates for South West England and then Britain were published. This paper extends these studies to include the whole of the British Isles. The study uses 6570 station years’ data in a new method of frequency analysis that identifies part of the data which represents the long term situation. Further analyses to support the results of this approach have been produced from the in situ maximisation of 12 historic storms using World Meteorological Organisation methods. The results are broadly consistent with those obtained from frequency analysis. Values of 24 hour PMP in Britain range from 600 mm in upland areas of the Lake District, to 400 mm in parts of East Anglia. This range of values is present in Wales and parts of South West England. For Ireland the highest values are over the upland areas, such as in the Wicklow Mountains (550 mm) and SW Ireland (600 mm), while in the lowlands values around 350 mm can be expected. The question of uncertainty in estimating PMP is considered, most of which is due to the temporal and spatial shortcomings of the data. The implications for the probable maximum flood (PMF) and spillway design flood mean that widespread reassessment of dam safety should be carried out at once.
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