Investigation of an Innovative Rotor Modification for a Small-Scale Horizontal Axis Wind Turbine

Bugała, Artur; Roszyk, Olga

doi:10.3390/en13102649

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…The authors showed a broad review of using spatial analysis and multi-criteria spatial decision support system to backing the renewable energy sector. However, there are few works of literature that mention the possibility to use Small Wind Turbines (SWTs) [12] for supporting onshore oil production.…”

Section: Introductionmentioning

confidence: 99%

Systematic Investigation of Integrating Small Wind Turbines into Power Supply for Hydrocarbon Production

2020

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In this paper, the technical and economic feasibility of integrating SWTs (Small Wind Turbines) into remote oil production sites are investigated. Compared to large turbines in onshore and offshore wind farms, SWTs are more suitable for individual power generations. A comprehensive approach based on wind energy assessment, wind power prediction, and economic analysis is then recommended, to evaluate how, where, and when small wind production recovery is achievable in oilfields. Firstly, wind resource in oilfields is critically assessed based on recorded meteorological data. Then, the wind power potential is numerically tested using specified wind turbines with density-corrected power curves. Later, estimations of annual costs and energy-saving are carried out before and after the installation of SWT via the LCOE (Levelized Cost of Electricity) and the EROI (Energy Return on Investment). The proposed methodology was tested against the Daqing oilfield, which is the largest onshore oilfield in China. The results suggested that over 80% of the original annual costs in oil production could be saved through the integrations between wind energy and oil production.

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Section: Introductionmentioning

confidence: 99%

Systematic Investigation of Integrating Small Wind Turbines into Power Supply for Hydrocarbon Production

2020

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Airfoil type and blade size effects on the aerodynamic performance of small-scale wind turbines: Computational fluid dynamics investigation

Yossri

Ayed

Abdelkefi

2021

Energy

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High-Fidelity Modeling and Investigation on Blade Shape and Twist Angle Effects on the Efficiency of Small-Scale Wind Turbines

2023

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A high-fidelity analysis is carried out in order to evaluate the effects of blade shape, airfoil cross-section. as well as twist angle distribution on the yielded torque and generated power of a horizontal axis Small-Scale Wind Turbine (SSWT). A computational modeling and an effective design for a small turbine with a blade length of 25 cm subject to a 4 m/s freestream velocity are presented, in which a segregated RANS solver is utilized. Four airfoil profiles are assessed, namely NACA0012, NACA0015, NACA4412, and NACA4415, and two blade shape configurations, rectangular and tapered, are evaluated. The flow around the rotating turbines is investigated along with blade stresses and performance output for each configuration. Subsequently, the impact of various linear and nonlinear twist distributions on SSWT efficiency is also examined. Results show that for the studied operating conditions corresponding to low-speed flows, the rectangular blade configuration outperforms the tapered blade shape from the generated torque and power perspectives, while the tapered shape configuration represents an attractive design choice from the yielded stresses point of view. Additionally, while the nonlinear twist configuration results in the best performance among the configurations studied, an SSWT blade design implementing a linear twist distribution can be highly competitive provided that a good slope is carefully selected.

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Investigation of an Innovative Rotor Modification for a Small-Scale Horizontal Axis Wind Turbine

Cited by 3 publications

References 22 publications

Systematic Investigation of Integrating Small Wind Turbines into Power Supply for Hydrocarbon Production

Systematic Investigation of Integrating Small Wind Turbines into Power Supply for Hydrocarbon Production

Airfoil type and blade size effects on the aerodynamic performance of small-scale wind turbines: Computational fluid dynamics investigation

High-Fidelity Modeling and Investigation on Blade Shape and Twist Angle Effects on the Efficiency of Small-Scale Wind Turbines

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