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1 11 A review of wind energy technologies part two. Adviser : Dr. Yuan-Kang Wu Student : Po-Kai Lin Date : 2013.06.25
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Outline Ⅰ.Wind turbine technology 1.Design 2.Loads 3.Blade 4.Gearbox 5.Generator 6.Transformer Ⅱ.Grid connection Ⅲ.Control system Ⅳ.Economics of turbine system Ⅴ.Application of wind turbine converters Ⅵ.Conclusion
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1.Wind turbine Design (a.)system design, selection of wind farm site and wind electric (b.) horizontal axis wind turbine(HAWT) vertical axis wind turbine (VAWT) (c.) system design, selection of wind farm site and wind electric generator based on technical and economical analysis (d.) large mass design of wind turbines would drive up cost
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2.Wind turbine Loads (a.) analyzed for aerodynamic loads,gravitational loads, inertia loads and operational loads it will experience during its design life. (b.) developed various mathematical models for the calculation of structural loads and material stresses (c.) regulator reduced gyroscopic loads was easy to be adjustd and (d.)regulator could be manufactured in smaller sizes
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3.Wind turbine Blades (a.) Many researchers had developed different techniques for design, testing, fatigue strength analysis of wind turbine blades (b.) single-axis test and two-axis test (c.) single-axis blades more easily damaged than the two-axis blades (d.) calculate the stress spectrum and fatigue strength in the blade (e.) blade designs on the basis of power performance, weight, static strength in flap-wise bending, fatigue life in edgewise bending, and tip deflection (f.) investigated the influence of wind shear, wind speed, turbulence intensity, and rotor position and tower oscillation (g.) gravity loads, atmospheric gradient wind, tower shadow, moderate deflections, constant-power mode of operation and off-design operation
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4.Wind turbine Gearbox (a.) The gearbox was a source of failures and defects in many wind turbines (b.) Tooth bending failure at the root is a major concern in gear design. (c.) bending stress exceeds the fatigue strength, the gear tooth has a high probability of failure
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5.Wind turbine Generator (a.) The electrical system of the wind turbine includes all components for converting mechanical energy into electrical power (b.) damping resistors across series capacitors to damp out the starting transients and for the stable operation (c.) No load loss greatly increases under the condition of harmonic distortion
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6.Wind turbine Transformer (a.) Transformer is an integrated part in the power system (b.) transformer is used to interlink the turbine generator and the utility grid
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Ⅱ.Wind turbine Grid Connection (a.) main problems at grid disturbance are risks of over currents in the generators and the converter, and over voltage in the DC-link (b.) the grid short circuit power and the X/R ratio of the grid have a great influence on the power quality impact from wind turbine (c.)Variable speed improves the dynamic behavior of the turbine, thereby alleviating the stresses on the mechanical construction (d.) A major drawback when using grid-connected VSCs is their sensitiveness to grid disturbances
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Ⅲ.Control system (a.) The controller is provided with display unit for the display of instantaneous position of generation, different temperature of generator, rotor rpm and generator rpm (b.) different grid parameters active and reactive consumption, etc. It also has data storage capacity and memory to keep records of different faults
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Ⅳ.Economics of turbine system (a.) Wind generator costs are heavily linked to the characteristics of a wind resources in a specific location (b.) Cost effectiveness of future wind turbines depend more on having dynamic and compliant design than on increased size
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Ⅴ.Application of wind turbine converters (a.) rotational energy produced by the rotation of blades to operate a mechanical device such as a water pump or to produce electricity by means of generator (b.)The electrical energy may be stored in a battery system and used to drive the motor of an electric vehicle (or) hybrid electric vehicle
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Ⅵ.Conclusion (a.) The factors such as selection of site, height, choice of wind generators, wind velocity, wind power potential have been considered (b.) Experimental and theoretical methods are used to analyze vibration problems of wind turbines (c.) Aeroaccoustic tests are used to find noise in the aerofoil (d.) Static reactive power compensator is used to improve stability of large wind farms (e.) Wind field modeling is an important part of a structural analysis of wind turbines
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14 THE END Thanks for Your Attention
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