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Title: Assessing hydraulic conditions through Francis turbines using an autonomous sensor device

Journal Article · · Renewable Energy
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Downstream migratory fish, including some endangered species, can be injured or killed during turbine passage. In this study an autonomous Sensor Fish device was deployed at Arrowrock Dam, Cougar Dam, and Detroit Dam to evaluate the hydraulic conditions and physical stresses that fish experienced when passing through these Francis turbines. Pressure data was used to identify the location of the Sensor Fish and to calculate the nadir pressure and the magnitude and the rate of change in pressure during turbine passage. Acceleration data was used to identify events (collisions or shear) Sensor Fish experienced and to categorize the severity level (severe, medium, and slight) of each event. The results showed that Sensor Fish experienced severe events mostly in the stay vane/wicket gate region and the runner region. In the stay vane/wicket gate region, almost all severe events were collisions. In the runner region, Sensor fish experienced both severe collisions and severe shear events. Sensor Fish data at three wicket gate opening treatments at Cougar Dam indicated that the wicket gate opening of the Francis turbine can affect the hydraulic conditions in the turbine runner region. Fewer Sensor Fish experienced severe collisions in the turbine runner region at the peak efficiency than at the minimum opening and the maximum opening treatments. Comparisons between the Francis turbines at the three dams and the AHT Kaplan turbine at Wanapum Dam showed that higher percentage of Sensor Fish experienced severe events in the runner region when passing through Francis turbines than the AHT Kaplan turbine. The nadir pressures of the Francis turbines were lower than those of the AHT Kaplan turbine at Wanapum Dam. Both the magnitude and the rate of change in pressure were higher in Francis turbines than in the AHT Kaplan turbine at Wanapum Dam in the runner region. This study can be used to guide future laboratory studies of fish passing through Francis turbine and help the design of more fish-friendly turbines for new hydroelectric dams or the rehabilitations of existing dams.

Research Organization:
Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC05-76RL01830
OSTI ID:
1299440
Alternate ID(s):
OSTI ID: 1314408
Report Number(s):
PNNL-SA-113347; S0960148116307303; PII: S0960148116307303
Journal Information:
Renewable Energy, Journal Name: Renewable Energy Vol. 99 Journal Issue: C; ISSN 0960-1481
Publisher:
ElsevierCopyright Statement
Country of Publication:
United Kingdom
Language:
English
Citation Metrics:
Cited by: 40 works
Citation information provided by
Web of Science

Cited By (10)

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How and where to pass? Atlantic salmon smolt's behaviour at a hydropower station offering multiple migration routes journal November 2019
Vibrations of a hydropower plant under operational loads journal November 2019
American eel state of buoyancy and barotrauma susceptibility associated with hydroturbine passage journal January 2019
Physical and hydraulic forces experienced by fish passing through three different low-head hydropower turbines journal January 2018
Predicting hydraulic structure-induced barotrauma in Australian fish species journal January 2018
Fish-Net: Probabilistic models for fishway planning, design and monitoring to support environmentally sustainable hydropower journal April 2018
A Hydropower Biological Evaluation Toolset (HBET) for Characterizing Hydraulic Conditions and Impacts of Hydro-Structures on Fish journal April 2018
State-of-the Art-Powerhouse, Dam Structure, and Turbine Operation and Vibrations journal February 2020
Experimental Observation of Inertial Particles through Idealized Hydroturbine Distributor Geometry journal March 2019

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Related Subjects

33 ADVANCED PROPULSION SYSTEMS
47 OTHER INSTRUMENTATION
Francis turbine
sensor fish
turbine evaluation
fish-friendly turbine
turbine passage
turbine operations