Effect of Wind Tunnel Blockage on the Performance of a Horizontal AxisWind Turbine with Different Blade Number
Energies • 2019
معلومات البحث
المؤلفون
A Eltayesh, M Bassily Hanna, F Castellani, A.S Huzayyin, H M El-Batsh, M Burlando, M Becchetti
الكلمات المفتاحية
wind tunnel blockage; small-size wind turbines; wind tunnel tests; CFD simulations
المجلة العلمية
Energies
الناشر
Not Available
المجلد
Not Available
العدد
Not Available
الصفحات
Not Available
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Blockage corrections for the experimental results obtained for a small-scale wind turbine
in a wind tunnel are required in order to estimate how the same turbine would perform in real
conditions. The tunnel blockage is defined as the ratio of the wind turbine swept area to the wind
tunnel cross-section area. Experimental measurements of the power coefficient were performed
on a horizontal-axis wind turbine with two rotors of diameter equal to 2 m and different numbers
of blades, namely three and five. Measurements were carried out for different tip speed ratios in
the closed circuit open test section wind tunnel of the University of Perugia (Italy). The obtained
experimental results were compared with the numerical ones carried out in free conditions by using a
CFD approach based on the steady-RANS method with the SST k-w turbulence model, adopting the
multiple reference frame (MRF) strategy to reduce the computational effort. The comparison showed
that the maximum value of blockage, which is reached in the asymptotic limit at very large tip speed
ratio (TSR) values, does not depend appreciably on the number of blades. A higher number of blades,
however, makes the occurrence of the maximum blockage come earlier at lower TSRs.
in a wind tunnel are required in order to estimate how the same turbine would perform in real
conditions. The tunnel blockage is defined as the ratio of the wind turbine swept area to the wind
tunnel cross-section area. Experimental measurements of the power coefficient were performed
on a horizontal-axis wind turbine with two rotors of diameter equal to 2 m and different numbers
of blades, namely three and five. Measurements were carried out for different tip speed ratios in
the closed circuit open test section wind tunnel of the University of Perugia (Italy). The obtained
experimental results were compared with the numerical ones carried out in free conditions by using a
CFD approach based on the steady-RANS method with the SST k-w turbulence model, adopting the
multiple reference frame (MRF) strategy to reduce the computational effort. The comparison showed
that the maximum value of blockage, which is reached in the asymptotic limit at very large tip speed
ratio (TSR) values, does not depend appreciably on the number of blades. A higher number of blades,
however, makes the occurrence of the maximum blockage come earlier at lower TSRs.
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