Influence of Landscape and Climate Changes on the Maximum Discharge of Small Catchment Areas

The safety of hydraulic structures in small catchment areas is addressed. A procedure for assessing the influence of climate and landscape changes on the maximum discharge that determines the sizes of structure elements is developed. The data from a network weather station and the landscape characte...

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Veröffentlicht in:	Power technology and engineering 2023, Vol.56 (5), p.635-638
Hauptverfasser:	Ilinich, V. V., Perminov, A. V., Naumova, A. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Discharge Electrical Machines and Networks Energy Energy Systems Foundations Geoengineering Hydraulic structures Hydraulics Power Electronics Probability theory Renewable and Green Energy Statistical analysis Statistical methods Weather stations
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description	The safety of hydraulic structures in small catchment areas is addressed. A procedure for assessing the influence of climate and landscape changes on the maximum discharge that determines the sizes of structure elements is developed. The data from a network weather station and the landscape characteristics of the catchment area were analyzed using statistical methods and geoinformation technologies. The main results are the increase in the maximum daily precipitation and landscape changes over the past decades and their influence on the maximum discharge obtained using probability theory and runoff theory.
doi_str_mv	10.1007/s10749-023-01565-1
format	Article
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subjects	Discharge Electrical Machines and Networks Energy Energy Systems Foundations Geoengineering Hydraulic structures Hydraulics Power Electronics Probability theory Renewable and Green Energy Statistical analysis Statistical methods Weather stations
title	Influence of Landscape and Climate Changes on the Maximum Discharge of Small Catchment Areas
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