Search results for "Tip-speed ratio"

showing 3 items of 3 documents

Slotted Blades Savonius Wind Turbine Analysis by CFD

2013

In this paper a new bucket configuration for a Savonius wind generator is proposed. Numerical analyses are performed to estimate the performances of the proposed configuration by means of the commercial code COMSOL Multiphysics® with respect to Savonius wind turbine with overlap only. Parametric analyses are performed, for a fixed overlap ratio, by varying the slot position; the results show that for slot positioned near the blade root, the Savonius rotor improves performances at low tip speed ratio, evidencing a better starting torque. This circumstance is confirmed by static analyses performed on the slotted blades in order to investigate the starting characteristic of the proposed Savoni…

EngineeringControl and OptimizationWind generatorWind generator systems Computational fluid dynamicEnergy Engineering and Power TechnologyComputational fluid dynamicslcsh:Technologylaw.inventionslotted bladesjel:Q40wind turbineSlotted bladeSavoniuslawPosition (vector)jel:Qjel:Q43jel:Q42jel:Q41jel:Q48Torquejel:Q47Static analysis Wind turbinesSavoniuSavonius wind turbineCFD analysiElectrical and Electronic EngineeringSettore ING-IND/04 - Costruzioni E Strutture AerospazialiEngineering (miscellaneous)Low tip speed ratiojel:Q49Parametric statisticsTip-speed ratioStarting characteristicRenewable Energy Sustainability and the EnvironmentRotor (electric)business.industrylcsh:Tjel:Q0Structural engineeringjel:Q4wind turbine; Savonius; CFD analysis; slotted bladesSavonius wind turbineParametric -analysibusinessCFD analysisEnergy (miscellaneous)Energies; Volume 6; Issue 12; Pages: 6335-6351
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On the Effect of Slotted Blades on Savonius Wind Generator Performances by CFD Analysis

2012

In this paper a new bucket configuration for Savonius wind generator is proposed. With the aim to increase the effect of the overlap ratio RS on the wind turbine performances and to increase the amount of lift force able to produce torque and power, slotted blades are investigated by means of the Computational Fluid Dynamics analysis. The numerical analyses are performed by Comsol Multiphysics® and the results obtained for a Savonius wind turbine with overlap only are compared to numerical and experimental benchmarks. Parametric analyses are performed, for fixed overlap ratio, by varying the slot angle β and the results show that for low angle β the Savonius rotor exploits improved performa…

Tip-speed ratioEngineeringWind generator Savonius CFD Analysis Slotted blades Wind turbine Finite Element Analysis.business.industryRotor (electric)General EngineeringStructural engineeringComputational fluid dynamicsTurbinePower (physics)law.inventionSavonius wind turbinelawTorqueSettore ING-IND/04 - Costruzioni E Strutture AerospazialibusinessParametric statisticsAdvanced Materials Research
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Estimation of annual energy output of a wind turbine using wind speed probability distribution

2016

In this work, annual energy output of a variable speed wind turbine is analyzed using annual Weibull wind speed probability distribution function. The power coefficient variation with tip speed ratio in torque control region as well as pitch angle variation for maximum power output from wind turbine are analyzed for identifying control system parameters. The wind turbine power output and variation of power coefficient with tip speed ratio as well as pitch angle are examined / reported using annual Weibull distribution function. Finally the variation of the estimated annual energy output of the given wind turbine with the mean wind speed is presented.

Tip-speed ratioEngineeringWind gradientWind powerMeteorologybusiness.industry020209 energy02 engineering and technologyWind speedVariable speed wind turbineRoughness lengthWind profile power lawLog wind profileControl theoryPhysics::Space Physics0202 electrical engineering electronic engineering information engineeringbusinessPhysics::Atmospheric and Oceanic Physics2016 3rd International Conference on Electrical Energy Systems (ICEES)
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