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  • Literature Survey

Abstract

  1. Top of page
  2. Abstract
  3. AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS
  4. STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS
  5. FORECASTING, WIND RESOURCES, TURBULENCE MODELING AND ANEMOMETRY
  6. CONTROL AND CONDITION MONITORING
  7. GRID CONNECTION AND ELECTRICAL COMPONENTS
  8. WIND FARMS
  9. 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 Wind Energy itself and 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, and so on. 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 Box 49, DK-4000 Roskilde, Denmark. Please e-mail any suggestions to larh@dtu.dk. Copyright © 2014 John Wiley & Sons, Ltd.

AERODYNAMICS, AEROELASTICS, AEROACOUSTICS AND NOVEL WIND ENERGY CONVERSION CONCEPTS

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

Aubrun S, Loyer S, Hancock PE, Hayden P. Wind turbine wake properties: comparison between a non-rotating simplified wind turbine model and a rotating model. Journal of Wind Engineering and Industrial Aerodynamics 2013; 120: 18.

Bergami L, Gaunaa M, Heinz J. Indicial lift response function: an empirical relation for finite-thickness airfoils, and effects on aeroelastic simulations. Wind Energy 2013; 16: 681693.

Chamorro LP, Arndt REA. Non-uniform velocity distribution effect on the Betz–Joukowsky limit. Wind Energy 2013; 16: 279282.

Esfahanian V, Pour AS, Harsini I, Haghani A, Pasandeh R, Shahbazi A, Ahmadi G. Numerical analysis of flow field around NREL Phase II wind turbine by a hybrid CFD/BEM method. Journal of Wind Engineering and Industrial Aerodynamics 2013; 120: 2936.

Genesca M, Romeu J, Pamies T, Sole J. On the use of a linear microphone array to measure wind turbine aerodynamic noise. Wind Energy 2013; 16: 6576.

Goude A, Bulow F. Aerodynamic and electrical evaluation of a VAWT farm control system with passive rectifiers and mutual DC-bus. Renewable Energy 2013; 60: 284292.

Holierhoek JG, de Vaal JB, van Zuijlen AH, Bijl H. Comparing different dynamic stall models. Wind Energy 2013; 16: 139158.

Jeong M-S, Kim S-W, Lee I, Yoo S-J, Park KC. The impact of yaw error on aeroelastic characteristics of a horizontal axis wind turbine blade. Renewable Energy 2013; 60: 256268.

Kacprzak K, Liskiewicz G, Sobczak K. Numerical investigation of conventional and modified Savonius wind turbines. Renewable Energy 2013; 60: 578585.

Larsen TJ, Madsen HA, Larsen GC, Hansen KS. Validation of the dynamic wake meander model for loads and power production in the Egmond aan Zee wind farm. Wind Energy 2013; 16: 605624.

McKay P, Carriveau R, Ting DS K. Wake impacts on downstream wind turbine performance and yaw alignment. Wind Energy 2013; 16: 221234.

McTavish S, Feszty D, Nitzsche F. Evaluating Reynolds number effects in small-scale wind turbine experiments. Journal of Wind Engineering and Industrial Aerodynamics 2013; 120: 8190.

Micallef D, van Bussel G, Ferreira CS, Sant T. An investigation of radial velocities for a horizontal axis wind turbine in axial and yawed flows. Wind Energy 2013; 16: 529544.

Pereira R, Schepers G, Pavel MD. Validation of the Beddoes–Leishman dynamic stall model for horizontal axis wind turbines using MEXICO data. Wind Energy 2013; 16: 207219.

Scheurich F, Brown RE. Modelling the aerodynamics of vertical-axis wind turbines in unsteady wind conditions. Wind Energy 2013; 16: 91107.

Sebastian T, Lackner MA. Characterization of the unsteady aerodynamics of offshore floating wind turbines. Wind Energy 2013; 16: 339352.

Seydel J, Aliseda A. Wind turbine performance in shear flow and in the wake of another turbine through high fidelity numerical simulations with moving mesh technique. Wind Energy 2013; 16: 123138.

Sezer-Uzol N, Uzol O. Effect of steady and transient wind shear on the wake structure and performance of a horizontal axis wind turbine rotor. Wind Energy 2013; 16: 117.

Skjoldan PF, Hansen MH. Effects of extreme wind shear on aeroelastic modal damping of wind turbines. Wind Energy 2013; 16: 401415.

Storey RC, Norris SE, Stol KA, Cater JE. Large eddy simulation of dynamically controlled wind turbines in an offshore environment. Wind Energy 2013; 16: 845864.

Velte CM, Hansen MOL. Investigation of flow behind vortex generators by stereo particle image velocimetry on a thick airfoil near stall. Wind Energy 2013; 16: 775785.

Yen J, Ahmed NA. Enhancing vertical axis wind turbine by dynamic stall control using synthetic jets (vol 114, pg 12, 2013). Journal of Wind Engineering and Industrial Aerodynamics 2013; 119: 158159.

Yu DO, You JY, Kwon OJ. Numerical investigation of unsteady aerodynamics of a Horizontal-axis wind turbine under yawed flow conditions. Wind Energy 2013; 16: 711727.

Zanon A, Giannattasio P, Ferreira CJS. A vortex panel model for the simulation of the wake flow past a vertical axis wind turbine in dynamic stall. Wind Energy 2013; 16: 661680.

STRUCTURES, LOADS, FATIGUE AND MECHANICAL COMPONENTS

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

Aguirrebeitia J, Plaza J, Abasolo M, Vallejo J. General static load-carrying capacity of four-contact-point slewing bearings for wind turbine generator actuation systems. Wind Energy 2013; 16: 759774.

Bottasso CL, Cacciola S, Croce A. Estimation of blade structural properties from experimental data. Wind Energy 2013; 16: 501518.

Buckney N, Green S, Pirrera A, Weaver PM. On the structural topology of wind turbine blades. Wind Energy 2013; 16: 545560.

Cai X, Pan P, Zhu J, Gu R. The analysis of the aerodynamic character and structural response of large-scale wind turbine blades. Energies 2013; 6: 31343148.

Fathi A, Wolff-Fabris F, Altstaedt V, Gaetzi R. An investigation on the flexural properties of balsa and polymer foam core sandwich structures: influence of core type and contour finishing options. Journal of Sandwich Structures & Materials 2013; 15: 487508.

Holierhoek JG, Lekou DJ, Hecquet T, Soeker H, Ehlers B, Savenije FJ, Engels WP, van de Pieterman RP, Ristow M, Kochmann M, Smolders K, Peeters J. PROcedures for TESTing and measuring wind turbine components; results for yaw and pitch system and drive train. Wind Energy 2013; 16: 827843.

Karimirad M, Moan T. Stochastic dynamic response analysis of a tension leg spar-type offshore wind turbine. Wind Energy 2013; 16: 953973.

Lachenal X, Daynes S, Weaver PM. Review of morphing concepts and materials for wind turbine blade applications. Wind Energy 2013; 16: 283307.

Larwood S, van Dam CP. Dynamic analysis tool development for swept wind turbine blades. Wind Energy 2013; 16: 879907.

Mollineaux MG, Van Buren KL, Hemez FM, Atamturktur S. Simulating the dynamics of wind turbine blades: part I, model development and verification. Wind Energy 2013; 16: 694710.

Ozbek M, Rixen DJ. Operational modal analysis of a 2.5MW wind turbine using optical measurement techniques and strain gauges. Wind Energy 2013; 16: 367381.

Sayer F, Buerkner F, Buchholz B, Strobel M, van Wingerde AM, Busmann H-G, Seifert H. Influence of a wind turbine service life on the mechanical properties of the material and the blade. Wind Energy 2013; 16: 163174.

Shirzadeh R, Devriendt C, Bidakhvidi MA, Guillaume P. Experimental and computational damping estimation of an offshore wind turbine on a monopile foundation. Journal of Wind Engineering and Industrial Aerodynamics 2013; 120: 96106.

Siddiqui NA, Khan SU, Kim J-K. Experimental torsional shear properties of carbon fiber reinforced epoxy composites containing carbon nanotubes. Composite Structures 2013; 104: 230238.

Stansby PK, Devaney LC, Stallard TJ. Breaking wave loads on monopiles for offshore wind turbines and estimation of extreme overturning moment. IET Renewable Power Generation 2013; 7: 514520.

Tavner PJ, Greenwood DM, Whittle MWG, Gindele R, Faulstich S, Hahn B. Study of weather and location effects on wind turbine failure rates. Wind Energy 2013; 16: 175187.

Van Buren KL, Mollineaux MG, Hemez FM, Atamturktur S. Simulating the dynamics of wind turbine blades: part II, model validation and uncertainty quantification. Wind Energy 2013; 16: 741758.

FORECASTING, WIND RESOURCES, TURBULENCE MODELING AND ANEMOMETRY

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

Andreotti A, Carpinelli G, Proto D. Discussion on “A Method for Short-Term Wind Power Prediction with Multiple Observation Points”. IEEE Transactions on Power Systems 2013; 28: 18981898.

Bakker AMR, Van den Hurk BJJM, Coelingh JP. Decomposition of the windiness index in the Netherlands for the assessment of future long-term wind supply. Wind Energy 2013; 16: 927938.

Beltran J, Guerrero JJ, Melero JJ, Llombart A. Detection of nacelle anemometer faults in a wind farm minimizing the uncertainty. Wind Energy 2013; 16: 939952.

Bossavy A, Girard R, Kariniotakis G. Forecasting ramps of wind power production with numerical weather prediction ensembles. Wind Energy 2013; 16: 5163.

Gburcik V, Mastilovic S, Vucinic Z. Assessment of solar and wind energy resources in Serbia. Journal of Renewable and Sustainable Energy 2013; 5: 041822.

He YC, Chan PW, Li QS. Wind characteristics over different terrains. Journal of Wind Engineering and Industrial Aerodynamics 2013; 120: 5169.

Hu J, Wang J, Zeng G. A hybrid forecasting approach applied to wind speed time series. Renewable Energy 2013; 60: 185194.

Karamanis D. Wind energy resources analysis of Western Greece coast in terms of sustainable environmental indicators and towards their community-based exploitation in South-East Europe. Journal of Renewable and Sustainable Energy 2013; 5: 041801.

Khalid M, Savkin AV. Closure to discussion on “A Method for Short-Term Wind Power Prediction with Multiple Observation Points”. IEEE Transactions on Power Systems 2013; 28: 18981899.

Kragh KA, Hansen MH, Mikkelsen T. Precision and shortcomings of yaw error estimation using spinner-based light detection and ranging. Wind Energy 2013; 16: 353366.

Krishnamurthy R, Choukulkar A, Calhoun R, Fine J, Oliver A, Barr KS. Coherent Doppler lidar for wind farm characterization. Wind Energy 2013; 16: 189206.

Leahy PG, McKeogh EJ. Persistence of low wind speed conditions and implications for wind power variability. Wind Energy 2013; 16: 575586.

Millward-Hopkins JT, Tomlin AS, Ma L, Ingham DB, Pourkashanian M. Assessing the potential of urban wind energy in a major UK city using an analytical model. Renewable Energy 2013; 60: 701710.

Ranaboldo M, Giebel G, Codina B. Implementation of a Model Output Statistics based on meteorological variable screening for short-term wind power forecast. Wind Energy 2013; 16: 811826.

Rhodes ME, Lundquist JK. The effect of wind-turbine wakes on summertime US Midwest atmospheric wind profiles as observed with ground-based Doppler lidar. Boundary-layer Meteorology 2013; 149: 85103.

Takeyama Y, Ohsawa T, Kozai K, Hasager CB, Badger M. Effectiveness of WRF wind direction for retrieving coastal sea surface wind from synthetic aperture radar. Wind Energy 2013; 16: 865878.

Tammelin B, Vihma T, Atlaskin E, Badger J, Fortelius C, Gregow H, Horttanainen M, Hyvonen R, Kilpinen J, Latikka J, Ljungberg K, Mortensen N, Niemela S, Ruosteenoja K, Salonen K, Suomi I, Venalainen A. Production of the Finnish Wind Atlas. Wind Energy 2013; 16: 1935.

CONTROL AND CONDITION MONITORING

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

Dalala ZM, Zahid ZU, Yu W, Cho Y, Lai J-S. J. Design and analysis of an MPPT technique for small-scale wind energy conversion systems. IEEE Transactions on Energy Conversion 2013; 28: 756767.

Dempsey PJ, Sheng S. Investigation of data fusion applied to health monitoring of wind turbine drivetrain components. Wind Energy 2013; 16: 479489.

Evangelista C, Valenciaga F, Puleston P. Active and reactive power control for wind turbine based on a MIMO 2-sliding mode algorithm with variable gains. IEEE Transactions on Energy Conversion 2013; 28: 682689.

Feng Y, Qiu Y, Crabtree CJ, Long H, Tavner PJ. Monitoring wind turbine gearboxes. Wind Energy 2013; 16: 728740.

Houtzager I, van Wingerden JW, Verhaegen M. Wind turbine load reduction by rejecting the periodic load disturbances. Wind Energy 2013; 16: 235256.

Iribas-Latour M, Landau ID. Identification in closed-loop operation of models for collective pitch robust controller design. Wind Energy 2013; 16: 383399.

Kim Y-S, Chung I-Y, Moon S-I. An analysis of variable-speed wind turbine power-control methods with fluctuating wind speed. Energies 2013; 6: 33233338.

Lackner MA. An investigation of variable power collective pitch control for load mitigation of floating offshore wind turbines. Wind Energy 2013; 16: 435444.

Li J, Chen X, Du Z, Fang Z, He Z. A new noise-controlled second-order enhanced stochastic resonance method with its application in wind turbine drivetrain fault diagnosis. Renewable Energy 2013; 60: 719.

Meng W, Yang Q, Ying Y, Sun Y, Yang Z, Sun Y. Adaptive power capture control of variable-speed wind energy conversion systems with guaranteed transient and steady-state performance. IEEE Transactions on Energy Conversion 2013; 28: 716725.

Mikkelsen T, Angelou N, Hansen K, Sjoholm M, Harris M, Slinger C, Hadley P, Scullion R, Ellis G, Vives G. A spinner-integrated wind lidar for enhanced wind turbine control. Wind Energy 2013; 16: 625643.

Spencer MD, Stol KA, Unsworth CP, Cater JE, Norris SE. Model predictive control of a wind turbine using short-term wind field predictions. Wind Energy 2013; 16: 417434.

Susperregui A, Itsaso Martinez M, Tapia G, Vechiu I. Second-order sliding-mode controller design and tuning for grid synchronisation and power control of a wind turbine-driven doubly fed induction generator. IET Renewable Power Generation 2013; 7: 540551.

GRID CONNECTION AND ELECTRICAL COMPONENTS

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

Abdel-Khalik AS, Ahmed S, Massoud AM, Elserougi AA. An improved performance direct-drive permanent magnet wind generator using a novel single-layer winding layout. IEEE Transactions on Magnetics 2013; 49: 51245134.

Abdou AF, Abu-Siada A, Pota HR. Improving the low voltage ride through of doubly fed induction generator during intermittent voltage source converter faults. Journal of Renewable and Sustainable Energy 2013; 5: 043110.

Agheb E, Hoidalen HK. Modification of empirical core loss calculation methods including flux distribution. IET Electric Power Applications 2013; 7: 381390.

Alexa D, Pletea IV, Sirbu A, Lazar A. Wind energy conversion into electricity by means of the rectifier with near sinusoidal input current-1 converter. IET Renewable Power Generation 2013; 7: 475483.

Arani MFM, El-Saadany EF. Implementing virtual inertia in DFIG-based wind power generation. IEEE Transactions on Power Systems 2013; 28: 13731384.

Badrzadeh B, Gupta M. Practical experiences and mitigation methods of harmonics in wind power plants. IEEE Transactions on Industry Applications 2013; 49: 22792289.

Badrzadeh B, Sahni M, Zhou Y, Muthumuni D, Gole A. General methodology for analysis of sub-synchronous interaction in wind power plants. IEEE Transactions on Power Systems 2013; 28: 18581869.

Benghanem M, Bouzid AM, Bouhamida M, Draou A. Voltage control of an isolated self-excited induction generator using static synchronous compensator. Journal of Renewable and Sustainable Energy 2013; 5: 043118.

Cao J, Du W, Wang HF, Bu SQ. Minimization of transmission loss in meshed AC/DC grids with VSC-MTDC networks. IEEE Transactions on Power Systems 2013; 28: 30473055.

Che HS, Levi E, Jones M, Duran MJ, Hew W-P, Abd Rahim N. Operation of a six-phase induction machine using series-connected machine-side converters. IEEE Transactions on Industrial Electronics 2014; 61: 164176.

Chiang H-C, Tsai H-Y. Design and implementation of a grid-tied wind power micro-inverter. IET Renewable Power Generation 2013; 7: 493503.

Diaz G, Abd-el-Motaleb AM, Mier V. On the capacity factor of distributed wind generation in droop-regulated microgrids. IEEE Transactions on Power Systems 2013; 28: 17381746.

Dorrell DG, Shek JKH, Mueller MA, Hsieh M-F. Damper windings in induction machines for reduction of unbalanced magnetic pull and bearing wear. IEEE Transactions on Industry Applications 2013; 49: 16121619.

Freire NMA, Marques Cardoso AJ. A fault-tolerant direct controlled PMSG drive for wind energy conversion systems. IEEE Transactions on Industrial Electronics 2014; 61: 821834.

Gallego C, Costa A, Cuerva A, Landberg L, Greaves B, Collins J. A wavelet-based approach for large wind power ramp characterisation. Wind Energy 2013; 16: 257278.

Goksu O, Teodorescu R, Bak CL, Iov F, Kjaer PC. Impact of wind power plant reactive current injection during asymmetrical grid faults. IET Renewable Power Generation 2013; 7: 484492.

Hussein DN, Matar M, Iravani R. A type-4 wind power plant equivalent model for the analysis of electromagnetic transients in power systems. IEEE Transactions on Power Systems 2013; 28: 30963104.

Jang S-M, Park H-J, Choi J-H, Han C, Choi M-S. Analysis on the magnetic force characteristics of segmented magnet used in large permanent-magnet wind power generator. IEEE Transactions on Magnetics 2013; 49: 39813984.

Jensen BB, Mijatovic N, Abrahamsen AB. Reducing conductor usage in superconducting machines by multiple power supplies. IEEE Transactions on Applied Superconductivity 2013; 23: 5202708.

Jimenez Buendia F, Vigueras-Rodriguez A, Gomez-Lazaro E, Alvaro Fuentes J, Molina-Garcia A. Validation of a mechanical model for fault ride-through: application to a Gamesa G52 commercial wind turbine. IEEE Transactions On Energy Conversion 2013; 28: 707715.

Knuppel T, Nielsen JN, Jensen KH, Dixon A, Ostergaard J. Power oscillation damping capabilities of wind power plant with full converter wind turbines considering its distributed and modular characteristics. IET Renewable Power Generation 2013; 7: 431442.

Koo M-M, Jang S-M, Park Y-S, Park H-I, Choi J-Y. Characteristic analysis of direct-drive wind power generator considering permanent magnet shape and skew effects to reduce torque ripple based on analytical approach. IEEE Transactions on Magnetics 2013; 49: 39173920.

Kou B, Bai Y, Li L. A novel wind power generator system with automatic maximum power tracking capability. IEEE Transactions on Energy Conversion 2013; 28: 632642.

Kowal D, Sergeant P, Dupre L, Vandenbossche L. The effect of the electrical steel properties on the temperature distribution in direct-drive PM synchronous generators for 5 MW wind turbines. IEEE Transactions on Magnetics 2013; 49: 53715377.

Li S. Power flow modeling to Doubly-Fed Induction Generators (DFIGs) under power regulation. IEEE Transactions on Power Systems 2013; 28: 32923301.

Lin F-J, Tan K-H, Fang D-Y, Lee Y-D. Intelligent controlled three-phase squirrel-cage induction generator system using wavelet fuzzy neural network for wind power. IET Renewable Power Generation 2013; 7: 552564.

Long T, Shao S, Abdi E, McMahon RA, Liu S. Asymmetrical low-voltage ride through of brushless doubly fed induction generators for the wind power generation. IEEE Transactions on Energy Conversion 2013; 28: 502511.

Ma K, Blaabjerg F. Modulation methods for neutral-point-clamped wind power converter achieving loss and thermal redistribution under low-voltage ride-through. IEEE Transactions on Industrial Electronics 2014; 61: 835845.

Mendez S, Martinez A, Millan W, Eduardo Montano C, Perez-Cebolla F. Design, characterization, and validation of a 1-kW AC self-excited switched reluctance generator. IEEE Transactions On Industrial Electronics 2014; 61: 846855.

Merahi F, Berkouk EM. Back-to-back five-level converters for wind energy conversion system with DC-bus imbalance minimization. Renewable Energy 2013; 60: 137149.

Miao Z. Impact of unbalance on electrical and torsional resonances in power electronic interfaced wind energy systems. IEEE Transactions on Power Systems 2013; 28: 31053113.

Muljadi E, Singh M, Gevorgian V. Doubly fed induction generator in an offshore wind power plant operated at rated V/Hz. IEEE Transactions on Industry Applications 2013; 49: 21972205.

Nian H, Song Y. Direct power control of doubly fed induction generator under distorted grid voltage. IEEE Transactions on Power Electronics 2014; 29: 894905.

Opathella C, Singh BN, Cheng D, Venkatesh B. Intelligent wind generator models for power flow studies in PSS (R) E and PSS (R) SINCAL. IEEE Transactions On Power Systems 2013; 28: 11491159.

Pannell G, Zahawi B, Atkinson DJ, Missailidis P. Evaluation of the performance of a DC-link brake chopper as a DFIG low-voltage fault-ride-through device. IEEE Transactions on Energy Conversion 2013; 28: 535542.

Park Y-S, Jang S-M, Koo M-M, Choi J-Y, Sung S-Y. Comparative investigation on integrated system of permanent magnet synchronous generator and power converter based on machine topology for small-scale wind power application. IEEE Transactions on Magnetics 2013; 49: 38463849.

Rawn BG, Lehn PW, Maggiore M. Disturbance margin for quantifying limits on power smoothing by wind turbines. IEEE Transactions on Control Systems Technology 2013; 21: 17951807.

Schroeder ST. Interconnector capacity allocation in offshore grids with variable wind generation. Wind Energy 2013; 16: 309319.

Song HH, Qu YB. Energy-based excitation control of doubly-fed induction wind generator for optimum wind energy capture. Wind Energy 2013; 16: 645659.

Tang C, Soong WL, Freere P, Pathmanathan M, Ertugrul N. Dynamic wind turbine output power reduction under varying wind speed conditions due to inertia. Wind Energy 2013; 16: 561573.

Vidal J, Abad G, Arza J, Aurtenechea S. Single-phase DC crowbar topologies for low voltage ride through fulfillment of high-power doubly fed induction generator-based wind turbines. IEEE Transactions on Energy Conversion 2013; 28: 768781.

Vidyanandan KV, Senroy N. Primary frequency regulation by deloaded wind turbines using variable droop. IEEE Transactions on Power Systems 2013; 28: 837846.

Villumsen JC, Bronmo G, Philpott AB. Line capacity expansion and transmission switching in power systems with large-scale wind power. IEEE Transactions on Power Systems 2013; 28: 731739.

Wang L, Truong D-N. Stability enhancement of DFIG-based offshore wind farm fed to a multi-machine system using a STATCOM. IEEE Transactions on Power Systems 2013; 28: 28822889.

Wu Z, Dou X, Chu J, Hu M. Operation and control of a direct-driven PMSG-based wind turbine system with an auxiliary parallel grid-side converter. Energies 2013; 6: 34053421.

Xia C, Wang Z, Shi T, Song Z. A novel cascaded boost chopper for the wind energy conversion system based on the permanent magnet synchronous generator. IEEE Transactions On Energy Conversion 2013; 28: 512522.

Xie D, Xu Z, Yang L, Ostergaard J, Xue Y, Wong KP. A comprehensive LVRT control strategy for DFIG wind turbines with enhanced reactive power support. IEEE Transactions on Power Systems 2013; 28: 33023310.

Xu Z, Li R, Xu D. Control of parallel multirectifiers for a direct-drive permanent-magnet wind power generator. IEEE Transactions on Industry Applications 2013; 49: 16871696.

Zhang S, Jiang S, Lu X, Ge B, Peng FZ. Resonance issues and damping techniques for grid-connected inverters with long transmission cable. IEEE Transactions on Power Electronics 2014; 29: 110120.

Zhu Y, Cheng M, Hua W, Zhang B. Sensorless control strategy of electrical variable transmission machines for wind energy conversion systems. IEEE Transactions on Magnetics 2013; 49: 33833386.

WIND FARMS

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

Abdel-Khalik AS, Massoud AM, Elserougi AA, Ahmed S. Optimum power transmission-based droop control design for multi-terminal HVDC of offshore wind farms. IEEE Transactions on Power Systems 2013; 28: 34013409.

Chen K, Song MX, Zhang X. A statistical method to merge wind cases for wind power assessment of wind farm. Journal of Wind Engineering and Industrial Aerodynamics 2013; 119: 6977.

Chuangpishit S, Tabesh A, Moradi-Shahrbabak Z, Saeedifard M. Topology design for collector systems of offshore wind farms with pure DC power systems. IEEE Transactions on Industrial Electronics 2014; 61: 320328.

Han X, Qu Y, Wang P, Yang J. Four-dimensional wind speed model for adequacy assessment of power systems with wind farms. IEEE Transactions on Power Systems 2013; 28: 29782985.

Lin W, Wen J, Liang J, Cheng S, Yao M, Li N. A three-terminal HVDC system to bundle wind farms with conventional power plants. IEEE Transactions On Power Systems 2013; 28: 22922300.

Lumbreras S, Ramos A. Optimal design of the electrical layout of an offshore wind farm applying decomposition strategies. IEEE Transactions on Power Systems 2013; 28: 14341441.

Lumbreras S, Ramos A. Offshore wind farm electrical design: a review. Wind Energy 2013; 16: 459473.

Lumbreras S, Ramos A, Cerisola S. A progressive contingency incorporation approach for stochastic optimization problems. IEEE Transactions on Power Systems 2013; 28: 14521460.

Manchado C, Otero C, Gomez-Jauregui V, Arias R, Bruschi V, Cendrero A. Visibility analysis and visibility software for the optimisation of wind farm design. Renewable Energy 2013; 60: 388401.

Mitra A, Chatterjee D. A sensitivity based approach to assess the impacts of integration of variable speed wind farms on the transient stability of power systems. Renewable Energy 2013; 60: 662671.

Nguyen TH, Prinz A, Friiso T, Nossum R, Tyapin I. A framework for data integration of offshore wind farms. Renewable Energy 2013; 60: 150161.

Pena R, Medina A, Anaya-Lara O. A methodology for the efficient computer representation of dynamic power systems: application to wind parks. Wind Energy 2013; 16: 109121.

Serrano Gonzalez J, Burgos Payan M, Riquelme Santos J. A new and efficient method for optimal design of large offshore wind power plants. IEEE Transactions on Power Systems 2013; 28: 30753084.

Ul Haque A, Mandal P, Meng J, Srivastava AK, Tseng T-L, Senjyu T. A novel hybrid approach based on wavelet transform and fuzzy ARTMAP networks for predicting wind farm power production. IEEE Transactions on Industry Applications 2013; 49: 22532261.

Varma RK, Moharana A. SSR in double-cage induction generator-based wind farm connected to series-compensated transmission line. IEEE Transactions on Power Systems 2013; 28: 25732583.

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GRID INTEGRATION AND ECONOMICS

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

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