Wind-lens turbine design for low wind speed

Mohamed M. Takeyeldein; I. S. Ishak; Tholudin M. Lazim

doi:10.12989/was.2022.35.3.147

Wind-lens turbine design for low wind speed

Mohamed M. Takeyeldein
, I. S. Ishak^*
, Tholudin M. Lazim

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

This research proposes a wind-lens turbine design that can startup and operate at a low wind speed (< 5m/s). The performance of the wind-lens turbine was investigated using CFD and wind tunnel testing. The wind-lens turbine consists of a 3-bladed horizontal axis wind turbine with a diameter of 0.6m and a diffuser-shaped shroud that uses the suction side of the thin airfoil SD2030 as a cross-section profile. The performance of the 3-bladed wind-lens turbine was then compared to the two-bladed rotor configuration while keeping the blade geometry the same. The 3-bladed wind-lens turbine successfully startup at 1m/s and produced a torque of 66% higher than the bare turbine, while the two-bladed wind-lens turbine startup at less than 4m/s and produced a torque of 186 % higher than the two-bladed bare turbine at the design point. Findings testify that adding the wind-lens could improve the bare turbine's performance at low wind speed.

Original language	English
Pages (from-to)	147-155
Number of pages	9
Journal	Wind and Structures, An International Journal
Volume	35
Issue number	3
DOIs	https://doi.org/10.12989/was.2022.35.3.147
State	Published - Aug 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2022 Techno-Press, Ltd.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

CFD
shrouded turbines
wind energy
wind tunnel testing
wind turbine aerodynamics
wind-lens turbine

ASJC Scopus subject areas

Civil and Structural Engineering
Modeling and Simulation
Building and Construction

Access to Document

10.12989/was.2022.35.3.147

Cite this

@article{49328575768b499aa49ccb156de341da,

title = "Wind-lens turbine design for low wind speed",

abstract = "This research proposes a wind-lens turbine design that can startup and operate at a low wind speed (< 5m/s). The performance of the wind-lens turbine was investigated using CFD and wind tunnel testing. The wind-lens turbine consists of a 3-bladed horizontal axis wind turbine with a diameter of 0.6m and a diffuser-shaped shroud that uses the suction side of the thin airfoil SD2030 as a cross-section profile. The performance of the 3-bladed wind-lens turbine was then compared to the two-bladed rotor configuration while keeping the blade geometry the same. The 3-bladed wind-lens turbine successfully startup at 1m/s and produced a torque of 66\% higher than the bare turbine, while the two-bladed wind-lens turbine startup at less than 4m/s and produced a torque of 186 \% higher than the two-bladed bare turbine at the design point. Findings testify that adding the wind-lens could improve the bare turbine's performance at low wind speed.",

keywords = "CFD, shrouded turbines, wind energy, wind tunnel testing, wind turbine aerodynamics, wind-lens turbine",

author = "Takeyeldein, \{Mohamed M.\} and Ishak, \{I. S.\} and Lazim, \{Tholudin M.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 Techno-Press, Ltd.",

year = "2022",

month = aug,

doi = "10.12989/was.2022.35.3.147",

language = "English",

volume = "35",

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journal = "Wind and Structures, An International Journal",

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T1 - Wind-lens turbine design for low wind speed

AU - Takeyeldein, Mohamed M.

AU - Ishak, I. S.

AU - Lazim, Tholudin M.

PY - 2022/8

Y1 - 2022/8

N2 - This research proposes a wind-lens turbine design that can startup and operate at a low wind speed (< 5m/s). The performance of the wind-lens turbine was investigated using CFD and wind tunnel testing. The wind-lens turbine consists of a 3-bladed horizontal axis wind turbine with a diameter of 0.6m and a diffuser-shaped shroud that uses the suction side of the thin airfoil SD2030 as a cross-section profile. The performance of the 3-bladed wind-lens turbine was then compared to the two-bladed rotor configuration while keeping the blade geometry the same. The 3-bladed wind-lens turbine successfully startup at 1m/s and produced a torque of 66% higher than the bare turbine, while the two-bladed wind-lens turbine startup at less than 4m/s and produced a torque of 186 % higher than the two-bladed bare turbine at the design point. Findings testify that adding the wind-lens could improve the bare turbine's performance at low wind speed.

AB - This research proposes a wind-lens turbine design that can startup and operate at a low wind speed (< 5m/s). The performance of the wind-lens turbine was investigated using CFD and wind tunnel testing. The wind-lens turbine consists of a 3-bladed horizontal axis wind turbine with a diameter of 0.6m and a diffuser-shaped shroud that uses the suction side of the thin airfoil SD2030 as a cross-section profile. The performance of the 3-bladed wind-lens turbine was then compared to the two-bladed rotor configuration while keeping the blade geometry the same. The 3-bladed wind-lens turbine successfully startup at 1m/s and produced a torque of 66% higher than the bare turbine, while the two-bladed wind-lens turbine startup at less than 4m/s and produced a torque of 186 % higher than the two-bladed bare turbine at the design point. Findings testify that adding the wind-lens could improve the bare turbine's performance at low wind speed.

KW - CFD

KW - shrouded turbines

KW - wind energy

KW - wind tunnel testing

KW - wind turbine aerodynamics

KW - wind-lens turbine

UR - https://www.scopus.com/pages/publications/85142325146

U2 - 10.12989/was.2022.35.3.147

DO - 10.12989/was.2022.35.3.147

M3 - Article

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SN - 1226-6116

VL - 35

SP - 147

EP - 155

JO - Wind and Structures, An International Journal

JF - Wind and Structures, An International Journal

IS - 3

ER -

Wind-lens turbine design for low wind speed

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this