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ABSTRACT

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

As a service to readers, Wind Energy regularly conducts literature surveys and publishes lists of relevant articles drawn from recent issues of a large number of periodicals including Journal of Wind Engineering and Industrial Aerodynamics, International Journal of Energy Research, Renewable Energy, Energy Sources, Journal of Solar Energy Engineering, American Institute of Aeronautics and Astronautics Journal, Electric Power Components and Systems along with a number of periodicals published by the Institute of Electrical and Electronics Engineers, etc. The list is limited exclusively to journals not specifically devoted to wind energy and its applications. To assist the reader, the list is separated into broad categories. Although many papers fit several categories, each paper is listed only once under the category thought most appropriate. Please note that the inclusion in the list is not an endorsement of a paper's quality. Compiled by Lars Christian Henriksen, Department of Wind Energy, Technical University of Denmark, PO 49, DK-4000 Roskilde, Denmark. Please e-mail any suggestions to larh@ dtu.dk. Copyright © 2013 John Wiley & Sons, Ltd.

1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

Ahmed NA. A novel small scale efficient wind turbine for power generation. Renewable Energy 2013; 57: 7985.

Baath LB. Noise spectra from wind turbines. Renewable Energy 2013; 57: 512519.

Bedon G, Castelli MR, Benini E. Optimization of a darrieus vertical-axis wind turbine using blade element momentum theory and evolutionary algorithm. Renewable Energy 2013; 59: 184192.

Branlard E, Dixon K, Gaunaa M. Vortex methods to answer the need for improved understanding and modelling of tip-loss factors. IET Renewable Power Generation 2013; 7: 311320.

Hsiao FB, Bai CJ, Chong WT. The Performance test of three different horizontal axis wind turbine (HAWT) blade shapes using experimental and numerical methods. Energies 2013; 6: 27842803.

Kang C, Yang X, Wang YL. Turbulent flow characteristics and dynamics response of a vertical-axis spiral rotor. Energies 2013; 6: 27412758.

Kardous M, Chaker R, Aloui F, Ben Nasrallah S. On the dependence of an empty flanged diffuser performance on flange height: numerical simulations and PIV visualizations. Renewable Energy 2013; 56: 123128.

Kim D, Gharib M. Efficiency improvement of straight-bladed vertical-axis wind turbines with an upstream deflector. Journal of Wind Engineering and Industrial Aerodynamics 2013; 115: 4852.

Kishore RA, Coudron T, Priya S. Small-scale wind energy portable turbine (SWEPT). Journal of Wind Engineering and Industrial Aerodynamics 2013; 116: 2131.

Kishore RA, Priya S. Design and experimental verification of a high efficiency small wind energy portable turbine (SWEPT). Journal of Wind Engineering and Industrial Aerodynamics 2013; 118: 1219.

Li QS, Chen FB, Li YG, Lee YY. Implementing wind turbines in a tall building for power generation: a study of wind loads and wind speed amplifications. Journal of Wind Engineering and Industrial Aerodynamics 2013; 116: 7082.

Liu XW, Wang L, Tang XZ. Optimized linearization of chord and twist angle profiles for fixed-pitch fixed-speed wind turbine blades. Renewable Energy 2013; 57: 111119.

Mo JO, Choudhry A, Arjomandi M, Kelso R, Lee YH. Effects of wind speed changes on wake instability of a wind turbine in a virtual wind tunnel using large eddy simulation. Journal of Wind Engineering and Industrial Aerodynamics 2013; 117: 3856.

Pope K, Naterer GF. Multiple streamtube approximation of flow-induced forces on a Savonius wind turbine. International Journal of Energy Research 2013; 37: 10791087.

Reiso M, Muskulus M. The simultaneous effect of a fairing tower and increased blade flexibility on a downwind mounted rotor. Journal of Renewable and Sustainable Energy 2013; 5: 033106.

Sen Z. Modified wind power formulation and its comparison with Betz limits. International Journal of Energy Research 2013; 37: 959963.

Shires A. Development and evaluation of an aerodynamic model for a novel vertical axis wind turbine concept. Energies 2013; 6: 25012520.

Yao YX, Tang ZP, Wang XW. Design based on a parametric analysis of a drag driven VAWT with a tower cowling. Journal of Wind Engineering and Industrial Aerodynamics 2013; 116: 3239.

Zanon M, Gros S, Andersson J, Diehl M. Airborne wind energy based on dual airfoils. IEEE Transactions On Control Systems Technology 2013; 21: 12151222.

2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

Cheng L, Tian GY. Transient thermal behavior of eddy-current pulsed thermography for nondestructive evaluation of composites. IEEE Transactions On Instrumentation and Measurement 2013; 62: 12151222.

Coulling AJ, Goupee AJ, Robertson AN, Jonkman JM, Dagher HJ. Validation of a FAST semi-submersible floating wind turbine numerical model with DeepCwind test data. Journal of Renewable and Sustainable Energy 2013; 5: 023116.

DeValve C, Pitchumani R. A numerical analysis of carbon nanotube-based damping in rotating composite structures. Composite Structures 2013; 103: 1826.

Devriendt C, Jordaens PJ, De Sitter G, Guillaume P. Damping estimation of an offshore wind turbine on a monopile foundation. IET Renewable Power Generation 2013; 7: 401412.

Ding J, Chen XZ. Assessing small failure probability by importance splitting method and its application to wind turbine extreme response prediction. Engineering Structures 2013; 54: 180191.

Goyal A, Dorfel MR, Simeon B, Vuong AV. Isogeometric shell discretizations for flexible multibody dynamics. Multibody System Dynamics 2013; 30: 139151.

Jeong MS, Lee I, Yoo SJ, Park KC. Torsional stiffness effects on the dynamic stability of a horizontal axis wind turbine blade. Energies 2013; 6: 22422261.

Kim T, Hansen AM, Branner K. Development of an anisotropic beam finite element for composite wind turbine blades in multibody system. Renewable Energy 2013; 59: 172183.

Kimiaeifar A, Lund E, Thomsen OT, Sorensen JD. Asymptotic sampling for reliability analysis of adhesive bonded stepped lap composite joints. Engineering Structures 2013; 49: 655663.

LaCava W, Xing YH, Marks C, Guo Y, Moan T. Three-dimensional bearing load share behaviour in the planetary stage of a wind turbine gearbox. IET Renewable Power Generation 2013; 7: 359369.

Lago LI, Ponta FL, Otero AD. Analysis of alternative adaptive geometrical configurations for the NREL-5 MW wind turbine blade. Renewable Energy 2013; 59: 1322.

Mardfekri M, Gardoni P. Probabilistic demand models and fragility estimates for offshore wind turbine support structures. Engineering Structures 2013; 52: 478487.

Pan XP, Ju P, Wu F, Jin YQ. Parameter estimation of drive system in a fixed-speed wind turbine by utilising turbulence excitations. IET Generation Transmission & Distribution 2013; 7: 665673.

Pratumnopharat P, Leung PS, Court RS. Extracting fatigue damage parts from the stress-time history of horizontal axis wind turbine blades. Renewable Energy 2013; 58: 115126.

Shi W, Park H, Han J, Na S, Kim C. A study on the effect of different modeling parameters on the dynamic response of a jacket-type offshore wind turbine in the Korean southwest Sea. Renewable Energy 2013; 58: 5059.

Stewart G, Lackner M. Offshore wind turbine load reduction employing optimal passive tuned mass damping systems. IEEE Transactions On Control Systems Technology 2013; 21: 10901104.

Wang YG, Xia YQ, Liu XJ. Establishing robust short-term distributions of load extremes of offshore wind turbines. Renewable Energy 2013; 57: 606619.

Zhang MX, Liao ZY, Farooq K. Cleanliness control and management of gearbox lubrication system in wind turbine generator. Journal of Renewable and Sustainable Energy 2013; 5: 021419.

3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

Bataineh KM, Dalalah D. Assessment of wind energy potential for selected areas in Jordan. Renewable Energy 2013; 59: 7581.

Damgaard M, Ibsen LB, Andersen LV, Andersen JKF. Cross-wind modal properties of offshore wind turbines identified by full scale testing. Journal of Wind Engineering and Industrial Aerodynamics 2013; 116: 94108.

Diebold M, Higgins C, Fang JN, Bechmann A, Parlange MB. Flow over hills: a large-eddy simulation of the Bolund case. Boundary-layer Meteorology 2013; 148: 177194.

Drew DR, Barlow JF, Cockerill TT. Estimating the potential yield of small wind turbines in urban areas: a case study for Greater London, UK. Journal of Wind Engineering and Industrial Aerodynamics 2013; 115: 104111.

Goude A, Bulow F. Robust VAWT control system evaluation by coupled aerodynamic and electrical simulations. Renewable Energy 2013; 59: 193201.

Karagali I, Badger M, Hahmann AN, Pena A, Hasager CB, Sempreviva AM. Spatial and temporal variability of winds in the northern European seas. Renewable Energy 2013; 57: 200210.

Kubik ML, Brayshaw DJ, Coker PJ, Barlow JF. Exploring the role of reanalysis data in simulating regional wind generation variability over Northern Ireland. Renewable Energy 2013; 57: 558561.

Leer D, Chang B, Chen G, Carr D, Starcher K, Issa R. Windtane contour map of the state of Texas. Renewable Energy 2013; 58: 140150.

Li XM, Lehner S. Observation of TerraSAR-X for studies on offshore wind turbine wake in near and far fields. IEEE Journal of Selected Topics In Applied Earth Observations and Remote Sensing 2013; 6: 17571768.

4 CONTROL AND CONDITION MONITORING

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

Barton JP, Watson SJ. Analysis of electrical power data for condition monitoring of a small wind turbine. IET Renewable Power Generation 2013; 7: 341349.

Bossanyi E. Un-freezing the turbulence: application to LiDAR-assisted wind turbine control. IET Renewable Power Generation 2013; 7: 321329.

Bossanyi EA, Fleming PA, Wright AD. Validation of individual pitch control by field tests on two- and three-bladed wind turbines. IEEE Transactions On Control Systems Technology 2013; 21: 10671078.

Castaignet D, Couchman I, Poulsen NK, Buhl T, Wedel-Heinen JJ. Frequency-weighted model predictive control of trailing edge flaps on a wind turbine blade. IEEE Transactions On Control Systems Technology 2013; 21: 11051116.

Chen J, Chen JW, Gong CY. Constant-bandwidth maximum power point tracking strategy for variable-speed wind turbines and its design details. IEEE Transactions On Industrial Electronics 2013; 60: 50505058.

Cirrincione M, Pucci M, Vitale G. Neural MPPT of variable-pitch wind generators with induction machines in a wide wind speed range. IEEE Transactions On Industry Applications 2013; 49: 942953.

Corradini ML, Ippoliti G, Orlando G. Robust control of variable-speed wind turbines based on an aerodynamic torque observer. IEEE Transactions On Control Systems Technology 2013; 21: 11991206.

Dong YL, Fang F, Gu YJ. Dynamic evaluation of wind turbine health condition based on Gaussian mixture model and evidential reasoning. Journal of Renewable and Sustainable Energy 2013; 5: 033117.

Fagiano L, Morari M, Rotea M, Stewart G. To tame the wind: advanced control applications in wind energy. IEEE Transactions On Control Systems Technology 2013; 21: 10451048.

Farh HM, Eltamaly AM. Fuzzy logic control of wind energy conversion system. Journal of Renewable and Sustainable Energy 2013; 5: 023125.

Fischer B. Reducing rotor speed variations of floating wind turbines by compensation of non-minimum phase zeros. IET Renewable Power Generation 2013; 7: 413419.

Gebraad PMO, van Wingerden JW, Fleming PA, Wright AD. LPV Identification of wind turbine rotor vibrational dynamics using periodic disturbance basis functions. IEEE Transactions On Control Systems Technology 2013; 21: 11831190.

Gong X, Qiao W. Bearing fault diagnosis for direct-drive wind turbines via current-demodulated signals. IEEE Transactions On Industrial Electronics 2013; 60: 34193428.

Houtzager I, van Wingerden JW, Verhaegen M. Rejection of periodic wind disturbances on a smart rotor test section using lifted repetitive control. IEEE Transactions On Control Systems Technology 2013; 21: 347359.

Howlader AM, Urasaki N, Yona A, Senjyu T, Saber AY. Design and implement a digital H-infinity robust controller for a MW-class PMSG-based grid-interactive wind energy conversion system. Energies 2013; 6: 20842109.

Kamal E, Aitouche A. Robust fault tolerant control of DFIG wind energy systems with unknown inputs. Renewable Energy 2013; 56: 215.

Kim KH, Van TL, Lee DC, Song SH, Kim EH. Maximum output power tracking control in variable-speed wind turbine systems considering rotor inertial power. IEEE Transactions On Industrial Electronics 2013; 60: 32073217.

Koerber A, King R. Combined feedback-feedforward control of wind turbines using state-constrained model predictive control. IEEE Transactions On Control Systems Technology 2013; 21: 11171128.

Kristalny M, Madjidian D, Knudsen T. On Using Wind Speed Preview to Reduce Wind Turbine Tower Oscillations. IEEE Transactions On Control Systems Technology 2013; 21: 11911198.

Licari J, Ugalde-Loo CE, Ekanayake JB, Jenkins N. Damping of torsional vibrations in a variable-speed wind turbine. IEEE Transactions On Energy Conversion 2013; 28: 172180.

Odgaard PF, Stoustrup J, Kinnaert M. Fault-tolerant control of wind turbines: a benchmark model. IEEE Transactions On Control Systems Technology 2013; 21: 11681182.

Ozdemir AA, Seiler P, Balas GJ. Design tradeoffs of wind turbine preview control. IEEE Transactions On Control Systems Technology 2013; 21: 11431154.

Schuler S, Schlipf D, Cheng PW, Allgower F. l(1)-optimal control of large wind turbines. IEEE Transactions On Control Systems Technology 2013; 21: 10791089.

Soltani MN, Knudsen T, Svenstrup M, Wisniewski R, Brath P, Ortega R, Johnson K. Estimation of rotor effective wind speed: a comparison. IEEE Transactions On Control Systems Technology 2013; 21: 11551167.

Spruce CJ, Turner JK. Tower vibration control of active stall wind turbines. IEEE Transactions On Control Systems Technology 2013; 21: 10491066.

van der Veen G, van Wingerden JW, Verhaegen M. Global identification of wind turbines using a Hammerstein identification method. IEEE Transactions On Control Systems Technology 2013; 21: 14711478.

Wang N, Johnson KE, Wright AD. Comparison of strategies for enhancing energy capture and reducing loads using LIDAR and feedforward control. IEEE Transactions On Control Systems Technology 2013; 21: 11291142.

Wang Y, Infield D. Supervisory control and data acquisition data-based non-linear state estimation technique for wind turbine gearbox condition monitoring. IET Renewable Power Generation 2013; 7: 350358.

Zhang YQ, Chen Z, Cheng M. Proportional resonant individual pitch control for mitigation of wind turbines loads. IET Renewable Power Generation 2013; 7: 191200.

Zou Y, Elbuluk ME, Sozer Y. Stability analysis of maximum power point tracking (MPPT) method in wind power systems. IEEE Transactions On Industry Applications 2013; 49: 11291136.

5 GRID CONNECTION AND ELECTRICAL COMPONENTS

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

Alizadeh O, Yazdani A. A Strategy for real power control in a direct-drive PMSG-based wind energy conversion system. IEEE Transactions On Power Delivery 2013; 28: 12971305.

Ammar M, Joos G. Impact of distributed wind generators reactive power behavior on flicker severity. IEEE Transactions On Energy Conversion 2013; 28: 425433.

Anantavanich K, Pietsch GJ, Uzelac N, Milovac P, Wang B. Effect of arc energy absorber in a wind turbine switch unit. IEEE Transactions On Power Delivery 2013; 28: 549556.

Arifujjaman M. Reliability comparison of power electronic converters for grid-connected 1.5kW wind energy conversion system. Renewable Energy 2013; 57: 348357.

Baruschka L, Mertens A. A new three-phase AC/AC modular multilevel converter with Six branches in hexagonal configuration. IEEE Transactions On Industry Applications 2013; 49: 14001410.

Bongiorno M, Thiringer T. A generic DFIG model for voltage dip ride-through analysis. IEEE Transactions On Energy Conversion 2013; 28: 7685.

Bu SQQ, Du WJ, Wang HFF, Gao S. Power angle control of grid-connected doubly fed induction generator wind turbines for fault ride-through. IET Renewable Power Generation 2013; 7: 1827.

Cheng YZ, Sahni M, Muthumuni D, Badrzadeh B. Reactance scan crossover-based approach for investigating SSCI concerns for DFIG-based wind turbines. IEEE Transactions On Power Delivery 2013; 28: 742751.

Diaz G, Gonzalez-Moran C, Viescas C. State-space representation of DFIG-based wind power plants. IET Renewable Power Generation 2013; 7: 254264.

Elkington K, Ghandhari M. Non-linear power oscillation damping controllers for doubly fed induction generators in wind farms. IET Renewable Power Generation 2013; 7: 172179.

Elshiekh ME, Mansour DEA, Azmy AM. Improving fault ride-through capability of DFIG-based wind turbine using superconducting fault current limiter. IEEE Transactions On Applied Superconductivity 2013; 23: 5601204.

Fan SX, Ma WW, Lim TC, Williams BW. Design and control of a wind energy conversion system based on a resonant dc/dc converter. IET Renewable Power Generation 2013; 7: 265274.

Firouzi M, Gharehpetian GB. Improving Fault Ride-Through Capability of Fixed-Speed Wind Turbine by Using Bridge-Type Fault Current Limiter. IEEE Transactions On Energy Conversion 2013; 28: 361369.

Freire NMA, Estima JO, Cardoso AJM. Open-circuit fault diagnosis in PMSG drives for wind turbine applications. IEEE Transactions On Industrial Electronics 2013; 60: 39573967.

Gonzalez A, Hernandez C, Arjona MA. Two-dimensional finite element magnetostatic model of a permanent magnet synchronous generator for predicting its steady-state performance under different loading conditions. IET Electric Power Applications 2013; 7: 207213.

Gorginpour H, Jandaghi B, Oraee H. A novel rotor configuration for brushless doubly-fed induction generators. IET Electric Power Applications 2013; 7: 106115.

Han Y, Kim S, Ha JI, Lee WJ. A doubly fed induction generator controlled in single-sided grid connection for wind turbines. IEEE Transactions On Energy Conversion 2013; 28: 413424.

Hojabri H, Mokhtari H, Chang LC. Reactive power control of permanent-magnet synchronous wind generator with matrix converter. IEEE Transactions On Power Delivery 2013; 28: 575584.

Hsieh MF, Lin CK, Lin IH. Design and analysis of high temperature superconducting generator for offshore wind turbines. IEEE Transactions On Magnetics 2013; 49: 18811884.

Hsieh MF, Yeh YH. Rotor eccentricity effect on cogging torque of PM generators for small wind turbines. IEEE Transactions On Magnetics 2013; 49: 18971900.

Huang HZ, Chung CY. Adaptive neuro-fuzzy controller for static VAR compensator to damp out wind energy conversion system oscillation. IET Generation Transmission & Distribution 2013; 7: 200207.

Huang PH, El Moursi MS, Xiao WD, Kirtley JL. Novel fault ride-through configuration and transient management scheme for doubly fed induction generator. IEEE Transactions On Energy Conversion 2013; 28: 8694.

Hwang JS, Khan UA, Shin WJ, Seong JK, Lee JG, Kim YH, Lee BW. Validity analysis on the positioning of superconducting fault current limiter in neighboring AC and DC microgrid. IEEE Transactions On Applied Superconductivity 2013; 23: 5600204.

Jafarian M, Ranjbar AM. Interaction of the dynamics of doubly fed wind generators with power system electromechanical oscillations. IET Renewable Power Generation 2013; 7: 8997.

Jayasinghe SDG, Vilathgamuwa DM, Madawala UK. A dual inverter-based supercapacitor direct integration scheme for wind energy conversion systems. IEEE Transactions On Industry Applications 2013; 49: 10231030.

Jensen BB, Mijatovic N, Abrahamsen AB. Development of superconducting wind turbine generators. Journal of Renewable and Sustainable Energy 2013; 5: 023137.

Jiang JL, Chang HC, Kuo CC, Huang CK. Transient overvoltage phenomena on the control system of wind turbines due to lightning strike. Renewable Energy 2013; 57: 181189.

Jimenez F, Gomez-Lazaro E, Fuentes JA, Molina-Garcia A, Vigueras-Rodriguez A. Validation of a DFIG wind turbine model submitted to two-phase voltage dips following the Spanish grid code. Renewable Energy 2013; 57: 2734.

Jung SJ, Kim GH, Sung HJ, Kim K, Park M, Yu IK, Kim KL, Lee H, Kim AR. Stator winding fault influence on the field coil of a 10 MW superconducting synchronous generator. IEEE Transactions On Applied Superconductivity 2013; 23: 5200104.

Kim GH, Kim KM, Jung SJ, Sung HJ, Park H, Kim S, Park M, Yu IK, Lee S, Kim AR, Park TJ. Design and characteristic analysis of a 10 kW superconducting synchronous generator for wind turbines. IEEE Transactions On Applied Superconductivity 2013; 23: 5202405.

Lei T, Barnes M, Ozakturk M. Doubly-fed induction generator wind turbine modelling for detailed electromagnetic system studies. IET Renewable Power Generation 2013; 7: 180189.

Leon AE, Mauricio JM, Solsona JA. Subsynchronous resonance mitigation using variable-speed wind energy conversion systems. IET Generation Transmission & Distribution 2013; 7: 511525.

Li SH. Reliability models for DFIGs considering topology change under different control strategies and components data change under adverse operation environments. Renewable Energy 2013; 57: 144150.

Liang JQ, Howard DF, Restrepo JA, Harley RG. Feedforward transient compensation control for DFIG wind turbines during both balanced and unbalanced grid disturbances. IEEE Transactions On Industry Applications 2013; 49: 14521463.

Ma K, Blaabjerg F, Liserre M. Thermal analysis of multilevel grid-side converters for 10-MW wind turbines under Low-voltage ride through. IEEE Transactions On Industry Applications 2013; 49: 909921.

Ma K, Liserre M, Blaabjerg F. Reactive power influence on the thermal cycling of multi-MW wind power inverter. IEEE Transactions On Industry Applications 2013; 49: 922930.

Martinez MI, Susperregui A, Tapia G, Xu L. Sliding-mode control of a wind turbine-driven double-fed induction generator under non-ideal grid voltages. IET Renewable Power Generation 2013; 7: 370379.

More DS, Fernandes BG. Modelling and performance of three-phase 6/14 pole flux reversal machine. IET Electric Power Applications 2013; 7: 131139.

Na JB, Hwang YJ, Ko TK. A study on the normal zone propagation velocity of the racetrack type coil with difference shapes of coil bobbin. IEEE Transactions On Applied Superconductivity 2013; 23: 4702204.

Qu RH, Liu YZ, Wang J. Review of superconducting generator topologies for direct-drive wind turbines. IEEE Transactions On Applied Superconductivity 2013; 23: 5201108.

Queval L, Ohsaki H. AC losses of a grid-connected superconducting wind turbine generator. IEEE Transactions On Applied Superconductivity 2013; 23: 5201905.

Raja P, Selvan MP, Kumaresan N. Enhancement of voltage stability margin in radial distribution system with squirrel cage induction generator based distributed generators. IET Generation Transmission & Distribution 2013; 7: 898906.

Ramasamy BK, Palaniappan A, Yakoh SM. Direct-drive low-speed wind energy conversion system incorporating axial-type permanent magnet generator and Z-source inverter with sensorless maximum power point tracking controller. IET Renewable Power Generation 2013; 7: 284295.

Roy NK, Pota HR, Hossain MJ. Reactive power management of distribution networks with wind generation for improving voltage stability. Renewable Energy 2013; 58: 8594.

Ruuskanen V, Nerg J, Niemela M, Pyrhonen J, Polinder H. Effect of radial cooling ducts on the electromagnetic performance of the permanent magnet synchronous generators with double radial forced air cooling for direct-driven wind turbines. IEEE Transactions On Magnetics 2013; 49: 29742981.

Shafaie R, Kalantar M. Design of a 10-MW-class wind turbine HTS synchronous generator with optimized field winding. IEEE Transactions On Applied Superconductivity 2013; 23: 5202307.

She X, Huang AQ, Wang F, Burgos R. Wind energy system with integrated functions of active power transfer, reactive power compensation, and voltage conversion. IEEE Transactions On Industrial Electronics 2013; 60: 45124524.

Shin HJ, Kim KL, Choi YH, Kwon OJ, Hahn S, Iwasa Y, Lee HG. Effects of impregnating materials on thermal and electrical stabilities of the HTS racetrack pancake coils without turn-to-turn insulation. IEEE Transactions On Applied Superconductivity 2013; 23: 7700404.

Stautner W, Fair R, Sivasubramaniam K, Amm K, Bray J, Laskaris ET, Weeber K, Douglass M, Fulton L, Hou S, Kim J, Longtin R, Moscinski M, Rochford J, Rajput-Ghoshal R, Riley P, Wagner D, Duckworth R. Large scale superconducting wind turbine cooling. IEEE Transactions On Applied Superconductivity 2013; 23: 5200804.

Sun XK, Cheng M, Zhu Y, Xu LY. Application of electrical variable transmission in wind power generation system. IEEE Transactions On Industry Applications 2013; 49: 12991307.

Sung HJ, Kim GH, Kim K, Jung SJ, Park M, Yu IK, Kim YG, Lee H, Kim AR. Practical design of a 10 MW superconducting wind power generator considering weight issue. IEEE Transactions On Applied Superconductivity 2013; 23: 5201805.

Terao Y, Sekino M, Ohsaki H. Comparison of conventional and superconducting generator concepts for offshore wind turbines. IEEE Transactions On Applied Superconductivity 2013; 23: 5200904.

Ugalde-Loo CE, Ekanayake JB, Jenkins N. Subsynchronous resonance in a series-compensated Great Britain transmission network. IET Generation Transmission & Distribution 2013; 7: 209217.

Vijayakumar K, Kumaresan N, Gounden NGA. Operation of inverter-assisted wind-driven slip-ring induction generator for stand-alone power supplies. IET Electric Power Applications 2013; 7: 256269.

Wang GD, Wai RJ, Liao Y. Design of backstepping power control for grid-side converter of voltage source converter-based high-voltage dc wind power generation system. IET Renewable Power Generation 2013; 7: 118133.

Wang J, Qu RH, Liu YZ. Comparison study of superconducting generators with multiphase armature windings for large-scale direct-drive wind turbines. IEEE Transactions On Applied Superconductivity 2013; 23: 5201005.

Wang YB, Sun JX, Zou ZX, Wang Z, Chau KT. Design and analysis of a HTS flux-switching machine for wind energy conversion. IEEE Transactions On Applied Superconductivity 2013; 23: 5000904.

Xiao S, Geng H, Zhou HL, Yang G. Analysis of the control limit for rotor-side converter of doubly fed induction generator-based wind energy conversion system under various voltage dips. IET Renewable Power Generation 2013; 7: 7181.

Yan JH, Lin HY, Feng Y, Guo X, Huang YK, Zhu ZQ. Improved sliding mode model reference adaptive system speed observer for fuzzy control of direct-drive permanent magnet synchronous generator wind power generation system. IET Renewable Power Generation 2013; 7: 2835.

Yunus AMS, Abu-Siada A, Masoum MAS. Application of SMES unit to improve DFIG power dispatch and dynamic performance during intermittent misfire and fire-through faults. IEEE Transactions On Applied Superconductivity 2013; 23: 5701712.

Zavvos A, McDonald A, Mueller M. Optimisation tools for large permanent magnet generators for direct drive wind turbines. IET Renewable Power Generation 2013; 7: 163171.

Zhang YZ, Ooi BT. Stand-Alone doubly-fed induction generators (DFIGs) with autonomous frequency control. IEEE Transactions On Power Delivery 2013; 28: 752760.

Zou Y, Elbuluk ME, Sozer Y. Simulation comparisons and implementation of induction generator wind power systems. IEEE Transactions On Industry Applications 2013; 49: 11191128.

6 WIND FARMS

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

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7 GRID INTEGRATION AND ECONOMICS

  1. Top of page
  2. ABSTRACT
  3. 1 AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. 2 STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. 3 FORECASTING, WIND RESOURCES, TURBULENCE MODELLING AND ANEMOMETRY
  6. 4 CONTROL AND CONDITION MONITORING
  7. 5 GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. 6 WIND FARMS
  9. 7 GRID INTEGRATION AND ECONOMICS

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