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Computational study of stalled wind turbine rotor performanceRawlinson-Smith, R. I. January 1991 (has links)
Simplification of the aerodynamic control of large horizontal axis wind turbines (HAWTs) has been identified as an important step towards improved reliability and reduced cost. At present the majority of large HMrrs use active control to regulate power and loads. A simpler strategy is to use the inherent stalling of the rotor blades in high winds to limit power and loads. Unfortunately the performance of stall regulated HAWTs 1S poorly understood; current performance models often fail to correctly predict peak power levels. The benefits of passive control of power and loads cannot be utilised because of this uncertainty. This study examines the possible reasons for the poor performance of current prediction techniques 1n high winds with the objective of fonmulating a new model. The available experimental evidence suggests that rotor stall is caused by turbulent separation at the rear of the blade aerofoil, growing in extent from the root in increasing wind. This 'picture' of the stalling HAW! rotor forms the basis of the approach. The new model consists of a prescribed vortex wake, first order panel method (extended to represent the viscous region of trailing edge separation) and three dimensional integral boundary layer directly coupled in an iterative scheme. A sensitivity study of rotor indicates that the most important performance to wake geometry factor is the rate at which the wake is convected downstream. However, it is found that stalled power levels are insensitive to wake geometry; the study concludes that the problem of poor prediction of high wind performance lies on the rotor blades. Before using the complete code to calculate the performance of a rotor it 1S first tuned for the aerofoils used on the blade. Aerofoil perfonmance characteristics measured in a wind tunnel are synthesised by the model. Ideally these characteristics should include measured pressure profiles below and above stall. Validation of the complete code against detailed measurements taken under controlled conditions on a three metre diameter machine indicates significant differences in the perfonmance of aerofoil sections on a wind turbine blade when compared to the same section when tested in a wind tunnel. Derived lift coefficients show a reduced lift curve slope and more gentle delayed stall. Similar results are found when the code is applied to two Danish stall regulated machines. These two machines although having very similar geometries and using the same family of aerofoils do however show differences in derived post stall drag. This is thought to be due to the different thickness distributions of the two rotors. The validation and applications of the new model show that it can accurately predict the peak power level of stall regulated machines.
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Autonomous photovoltaic and wind hybrid power systems for rural households and communities in KenyaOdote, Jackson M. January 1994 (has links)
No description available.
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Investigation of wind speed - power characteristicsWilson, R. J. K. January 1983 (has links)
No description available.
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An experimental and theoretical investigation of wind turbine wakes in arrays and complex terrainSmith, Donald January 1991 (has links)
No description available.
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A survey of the wind energy resource of Cornwall to examine the influence of settlement patterns and topography on optimum wind turbine size and dispositionWilliams, G. J. January 1989 (has links)
No description available.
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A design study for a windpump system for use in the SudanEisa, E. T. I. January 1981 (has links)
No description available.
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The design of wind turbine rotors in relation to fatigueLack, L. W. January 1986 (has links)
No description available.
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Wind-driven rotodynamic pumps for low-lift applicationsAlam, Muhammad Mahbubul January 1993 (has links)
No description available.
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An assessment of the potential for wind generated electric power on the island of BarbadosLamming, S. D. January 1983 (has links)
No description available.
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The integration of a wind turbine and hydraulic accumulator energy store with a diesel generator to supply electricity in a remote locationSlack, G. January 1985 (has links)
No description available.
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