Hydrology, Free Full-Text
Por um escritor misterioso
Descrição
Estimating intensity−duration−frequency (IDF) curves requires local historical information of precipitation intensity. When such information is unavailable, as in areas without rain gauges, it is necessary to consider other methods to estimate curve parameters. In this study, three methods were explored to estimate IDF curves in ungauged areas: Kriging (KG), Inverse Distance Weighting (IDW), and Storm Index (SI). To test the viability of these methods, historical data collected from 31 rain gauges distributed in central Chile, 35° S to 38° S, are used. As a result of the reduced number of rain gauges to evaluate the performance of each method, we used LOOCV (Leaving One Out Cross Validation). The results indicate that KG was limited due to the sparse distribution of rain gauges in central Chile. SI (a linear scaling method) showed the smallest prediction error in all of the ungauged locations, and outperformed both KG and IDW. However, the SI method does not provide estimates of uncertainty, as is possible with KG. The simplicity of SI renders it a viable method for extrapolating IDF curves to locations without data in the central zone of Chile.
Hydrology, Free Full-Text
Hydrology Concept Stock Illustrations – 138 Hydrology Concept
Full article: Twenty-three unsolved problems in hydrology (UPH
Surface Water Hydrology – Hydro School
Young Hydrologic Society A Network for Young Hydrologists
Hydrology Concept Stock Illustrations – 138 Hydrology Concept
Introduction to Hydrology (5th Edition) Chapter 9
SOLUTION: Losses from precipitation engineerin hydrology - Studypool
Hydrology Higher Education from Cambridge
Carlson Civil Suite 2022 (Civil, Survey, Hydrology, GIS
Hydrology for Engineers (McGraw-Hill by Linsley, Ray K.
Hydrological Processes, Hydrology Journal
GMD - DRYP 1.0: a parsimonious hydrological model of DRYland
de
por adulto (o preço varia de acordo com o tamanho do grupo)