Hydro-abrasive erosion in Pelton turbines: Comprehensive review and future outlook

Hydro-abrasive erosion in Pelton turbines: Comprehensive review and future outlook

Hydropower is an important step towards a low-carbon society; however, its global potential is challenged by high sediment content in streams. In Pelton turbines, which are installed in high-head hydropower plants (HPPs), even fine particles cause substantial damage leading to reduced turbine effici...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews Vol. 207; p. 114957
Main Authors: Shrivastava, Navam, Rai, Anant Kumar
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2025
Subjects:
Erosion model
Hydro-abrasive erosion
Hydropower
Pelton turbine
Renewable energy
Sediment
Hydropower
Hydro-abrasive erosion
Sediment
Renewable energy
Erosion model
Pelton turbine
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Summary:Hydropower is an important step towards a low-carbon society; however, its global potential is challenged by high sediment content in streams. In Pelton turbines, which are installed in high-head hydropower plants (HPPs), even fine particles cause substantial damage leading to reduced turbine efficiency and increased maintenance cost. This study reviews the complex problem of hydro-abrasive erosion in Pelton turbines, particularly advances in prediction of erosion and associated efficiency reduction, abrasive potential at a potential site, and mechanism of progressive erosion. For this purpose, the hydro-abrasive erosion in buckets and injectors of the Pelton turbines covering a wide range of design heads, capacities, sediment and operating conditions obtained from reported works were analysed. In the bucket, the cut-out, splitter and brim region are found severely affected due to erosion; while, nozzle outlet and needle tip region are majorly affected. The erosion in cut-out, widening of splitter, and distortion of jet from injector erosion are major reasons for Pelton turbine efficiency reduction. The synergic effects of erosion and cavitation is also presented. A modification in the erosion model for initial assessment of erosion potential at a site is proposed and its use for mitigation of erosion at untapped hydropower projects is also discussed. Finally, the optimization steps related to erosion at a site for both upcoming projects and operational HPPs are addressed in detail. In view of the projected increase in sediment yield from catchments due to climate change, this study provides insights into mitigating erosion in HPPs located in erosion-prone regions. [Display omitted] •A review of Pelton turbine components prone to erosion and underlying mechanisms.•Data of hydropower plants in erosion-prone locations around the world are analysed.•Estimation of erosion potential for both proposed and operating HPP is discussed.•Reduction in Pelton turbine efficiency as a consequence of erosion is discussed.•Research scope and mitigation steps for erosion in Pelton turbine are discussed.
ISSN:1364-0321
DOI:10.1016/j.rser.2024.114957