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Surrogate modelling for high-lift multi-element hydrofoil shape optimization of a hydrokinetic turbine blade
(Elsevier BV, 2020)
The hydrodynamic shape of a blade is one of the most
important factors in the design process of a horizontal axis
hydrokinetic turbine that influences its performance. The
present work is focused on the design and ...
Shape optimization of a multi-element hydrofoil for hydrokinetic turbines using response surface methodology
(Elsevier BV, 2019)
This paper describes the optimization procedure of
a two-dimensional multi-element hydrofoil shape during its
design for small horizontal axis hydrokinetic turbines using
response surface methodology. JavaFoil software ...
Numerical and experimental study of hydrofoil-flap arrangements for hydrokinetic turbine applications
(Amsterdam: Elsevier, 2021)
In this work, the efficiency of two horizontal-axis hydrokinetic turbines, whose blades were designed
with and without multi-element hydrofoil cross-sections, has been numerical and experimentally inves-
tigated for tip ...
Analysis of a lift augmented hydrofoil for hydrokinetic turbines
(Elsevier BV, 2019)
In the last years, increased attention has been
given to hydrokinetic energy technologies due to these turbines
represent an attractive technology for the harnessing of a huge
untapped renewable energy potential in ...
Design and Optimization of a Multi-Element Hydrofoil for a Horizontal-Axis Hydrokinetic Turbine
(MDPI, 2019)
Hydrokinetic turbines are devices that harness the power from moving water of rivers,
canals, and artificial currents without the construction of a dam. The design optimization of the
rotor is the most important stage ...