Effect of blade pitching on power coefficient of small-scale vertical axis wind turbine at different tip speed ratios

Kavade, Ramesh K.; Ghanegaonkar, P. M.

doi:10.1177/0309524x19849841

Cited by 3 publications

(2 citation statements)

References 30 publications

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“…A standalone application of VAWT to power cellular communication towers and also installed at elevated heights with blade capping is investigated in (Plourde et al, 2011). Analysis of VAWT based on six-blade pitching position is carried out in (Kavade and Ghanegaonkar, 2019) indicates optimized pitch position relatively improves the power produced by VAWT. Aerodynamics analysis of VAWT with pitch control is carried out in (Horb et al, 2018) reveals the power coefficients of VAWT can be increased by as much as 15% using power tracking methods.…”

Section: Literature Surveymentioning

confidence: 99%

Implementation of a highway wind power generation using vertical axis wind turbine to automatically power a street lamp

et al. 2020

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Vision 2030 of the Kingdom of Saudi Arabia envisions a shift towards renewable sources of energy. In accordance with this vision, we have developed an off-grid application using a vertical axis wind turbine (VAWT) to power a street lamp in a highway. VAWT are more suited for this application as they are easy to install than the horizontal axis wind turbine, can function with low-speed blades under varying wind speeds, and can prevail in the harsh weather condition prevailing in the Kingdom. MATLAB is utilized to design the circuit and to analyze the state of charge (SOC) of the battery under no load, varying load, and full load. Arduino based weather station and automatic control of street lamp are implemented to conserve energy. The model was tested in the highway and the test indicates the proposed model is able to harness power from wind to power the street lamp.

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Section: Literature Surveymentioning

confidence: 99%

Implementation of a highway wind power generation using vertical axis wind turbine to automatically power a street lamp

et al. 2020

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“…The applications of the WTPC models are wide and varied. They can be used in the process of assessing wind energy [29,30] or in monitoring and adjusting the operation conditions of a WF [31][32][33]. WTPC models can also be a tool for choosing the proper location and layout of a WF [34,35], for analyzing the influence of external factors [36,37], or for assessing the reliability in power systems [38,39].…”

Section: Introductionmentioning

confidence: 99%

A Review on Wind Turbine Deterministic Power Curve Models

Villanueva

Feijóo

2020

Applied Sciences

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Over the last decades, wind energy has been arising as one of the most promising sources for the future of energy supply, and this trend should be reinforced in the future due to the foreseeable environmental and climatological catastrophe. Therefore, all technologies and issues regarding its development are relevant. Among them, research on wind turbine power curve modeling is of importance for stakeholders and researchers because it allows them to easily obtain information about the amount of power and energy that can be captured from the primary resource, i.e., the wind. The task can be simplified by means of the use of wind turbine power curve models, and many researchers have been presenting their contributions on the topic in parallel with such a development. In this paper, a review on the formulation of wind turbine deterministic power curve models is presented.

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A Prototype Design of a Vertical Axis Wind Turbine as One of the Renewable Energy Sources in Brunei

Mahmood,

Hastuty,

Gołdasz

et al. 2024

intensif

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Background: According to the Asia Wind Energy Association, Brunei can harness the power of wind energy to meet its future demands for a reliable energy source that is both renewable and non-polluting. Objective: A preliminary study to design and manufacture wind turbines needs to be initiated earlier especially in the Brunei with has potential wind energy. Methods: This preliminary study compares several Vertical Axis Wind Turbine (VAWT) types and examines the optimal design in terms of mechanical parts for wind speed characteristics in Brunei. The project focuses on the engineering design stages to obtain a selected design that differs from other available designs. Results: The preliminary study successfully generated a small amount of electricity from the mechanical rotation of the VAWT. Conclusion: Although the preliminary study can generate a small amount of electricity, several design parameters need to be improved in further study. Proper manufacturing technologies are also needed to fabricate a better VAWT.

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Effect of blade pitching on power coefficient of small-scale vertical axis wind turbine at different tip speed ratios

Cited by 3 publications

References 30 publications

Implementation of a highway wind power generation using vertical axis wind turbine to automatically power a street lamp

Implementation of a highway wind power generation using vertical axis wind turbine to automatically power a street lamp

A Review on Wind Turbine Deterministic Power Curve Models

A Prototype Design of a Vertical Axis Wind Turbine as One of the Renewable Energy Sources in Brunei

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