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  • Literature Survey

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 Wind Energy itself and a large number of periodicals including the following: 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.

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

Clifton A, Schreck S, Scott G, Kelley N, Lundquist JK. Turbine inflow characterization at the national wind technology center. Journal of Solar Energy Engineering 2013; 135: 031017.

Hwang B, Lee S, Lee S. Optimization of a counter-rotating wind turbine using the blade element and momentum theory. Journal of Renewable and Sustainable Energy 2013; 5: 052013.

Krawczyk P, Beyene A, MacPhee D. Fluid structure interaction of a morphed wind turbine blade. International Journal of Energy Research 2013; 37: 17841793.

Li X, Yang K, Bai J, Xu J. A method to evaluate the overall performance of the CAS-W1 airfoils for wind turbines. Journal of Renewable and Sustainable Energy 2013; 5: 063118.

Lubitz WD. Impact of ambient turbulence on performance of a small wind turbine. Renewable Energy 2014; 61: 6973.

Lynch CE, Smith MJ. Unstructured overset incompressible computational fluid dynamics for unsteady wind turbine simulations. Wind Energy 2013; 16: 10331048.

Noda H, Ishihara T. Wind tunnel test on mean wind forces and peak pressures acting on wind turbine nacelles. Wind Energy 2014; 17: 117.

Pellegrino A, Meskell C. Vortex shedding from a wind turbine blade section at high angles of attack. Journal of Wind Engineering and Industrial Aerodynamics 2013; 121: 131137.

Ram KR, Lal S, Ahmed MR. Low Reynolds number airfoil optimization for wind turbine applications using genetic algorithm. Journal of Renewable and Sustainable Energy 2013; 5: 052007.

Reiso M, Hagen TR, Muskulus M. A calibration method for downwind wake models accounting for the unsteady behaviour of the wind turbine tower shadow behind monopile and truss towers. Journal of Wind Engineering and Industrial Aerodynamics 2013; 121: 2938.

Sedaghat A. Magnus type wind turbines: Prospectus and challenges in design and modelling. Renewable Energy 2014; 62: 619628.

Seong Y, Lee S, Gwak DY, Cho Y, Hong J, Lee S. An experimental study on annoyance scale for assessment of wind turbine noise. Journal of Renewable and Sustainable Energy 2013; 5: 052008.

Shariatpanah H, Fadaeinedjad R, Rashidinejad M. A new model for PMSG-based wind turbine with yaw control. IEEE Transactions on Energy Conversion 2013; 28: 929937.

Tai F-Z, Yun T-H, Kang K-W, Lee J-H. Analysis of small vertical wind turbine having H-Darrieus blades with stall delay model. Journal of Renewable and Sustainable Energy 2013; 5: 052011.

Trivellato F, Castelli MR. On the Courant–Friedrichs–Lewy criterion of rotating grids in 2D vertical-axis wind turbine analysis. Renewable Energy 2014; 62: 5362.

de Vaal JB, Hansen MOL, Moan T. Effect of wind turbine surge motion on rotor thrust and induced velocity. Wind Energy 2014; 17: 105121.

Wang Q, Xu Y, Song JJ, Li CF, Ren PF, Xu JZ. 3D stall delay effect modeling and aerodynamic analysis of swept-blade wind turbine. Journal of Renewable and Sustainable Energy 2013; 5: 063106.

Ward A, Jorba J. Harmonic buffeting in a high-altitude ridge-mounted triblade Horizontal Axis Wind Turbine. Journal of Wind Engineering and Industrial Aerodynamics 2013; 121: 106115.

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

Ben Hassena MA, Najar F, Aydi B, Choura S, Ghorbel FH. A new dynamical model of flexible cracked wind turbines for health monitoring. Journal of Dynamic Systems Measurement and Control 2013; 135: 031013.

Feuchtwang J, Infield D. Offshore wind turbine maintenance access: a closed-form probabilistic method for calculating delays caused by sea-state. Wind Energy 2013; 16: 10491066.

Fischer GR, Kipouros T, Savill AM. Multi-objective optimisation of horizontal axis wind turbine structure and energy production using aerofoil and blade properties as design variables. Renewable Energy 2014; 62: 506515.

Fossum PK, Froyd L, Dahlhaug OG. Design and fatigue performance of large utility-scale wind turbine blades. Journal of Solar Energy Engineering 2013; 135: 031019.

Guanche Y, Guanche R, Camus P, Mendez FJ, Medina R. A multivariate approach to estimate design loads for offshore wind turbines. Wind Energy 2013; 16: 10911106.

Lee S, Churchfield MJ, Moriarty PJ, Jonkman J, Michalakes J. A numerical study of atmospheric and wake turbulence impacts on wind turbine fatigue loadings. Journal of Solar Energy Engineering 2013; 135: 031001.

Nguyen HH, Manuel L, Jonkman J, Veers PS. Simulation of thunderstorm downbursts and associated wind turbine loads. Journal of Solar Energy Engineering 2013; 135: 021014.

Saha N, Gao Z, Moan T, Naess A. Short-term extreme response analysis of a jacket supporting an offshore wind turbine. Wind Energy 2014; 17: 87104.

Sathe A, Mann J, Barlas T, Bierbooms WAAM, van Bussel GJW. Influence of atmospheric stability on wind turbine loads. Wind Energy 2013; 16: 10131032.

Skaare B, Hornsten B, Nielsen FG. Modeling, simulation and control of a wind turbine with a hydraulic transmission system. Wind Energy 2013; 16: 12591276.

Soyoz S, Aydin C. Effects of higher wave harmonics on the response of monopile type offshore wind turbines. Wind Energy 2013; 16: 12771286.

Xing Y, Moan T. Multi-body modelling and analysis of a planet carrier in a wind turbine gearbox. Wind Energy 2013; 16: 10671089.

Zhang P, Ding H, Le C. Hydrodynamic motion of a large prestressed concrete bucket foundation for offshore wind turbines. Journal of Renewable and Sustainable Energy 2013; 5: 063126.

Zhang P, Ding H, Le C, Huang X. Motion analysis on integrated transportation technique for wind turbines. Journal of Renewable and Sustainable Energy 2013; 5: 053117.

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

Bedard J, Yu W, Gagnon Y, Masson C. Development of a geophysic model output statistics module for improving short-term numerical wind predictions over complex sites. Wind Energy 2013; 16: 11311147.

Capps SB, Hall A, Hughes M. Sensitivity of southern California wind energy to turbine characteristics. Wind Energy 2014; 17: 141159.

Draxl C, Hahmann AN, Pena A, Giebel G. Evaluating winds and vertical wind shear from Weather Research and Forecasting model forecasts using seven planetary boundary layer schemes. Wind Energy 2014; 17: 3955.

Dvorak MJ, Corcoran BA, Ten Hoeve JE, McIntyre NG, Jacobson MZ. US East Coast offshore wind energy resources and their relationship to peak-time electricity demand. Wind Energy 2013; 16: 977997.

Gallego C, Costa A, Cuerva A, Landberg L, Greaves B, Collins J. A wavelet-based approach for large wind power ramp characterization. Wind Energy 2013; 16: 13091309.

Girard R, Allard D. Spatio-temporal propagation of wind power prediction errors. Wind Energy 2013; 16: 9991012.

Gualtieri G, Secci S. Extrapolating wind speed time series vs. Weibull distribution to assess wind resource to the turbine hub height: a case study on coastal location in Southern Italy. Renewable Energy 2014; 62: 164176.

Kalvig S, Gudmestad OT, Winther N. Exploring the gap between ‘best knowledge’ and ‘best practice’ in boundary layer meteorology for offshore wind energy. Wind Energy 2014; 17: 161171.

Karagali I, Pena A, Badger M, Hasager CB. Wind characteristics in the North and Baltic Seas from the QuikSCAT satellite. Wind Energy 2014; 17: 123140.

Kishore SRN, Vanitha V. Wind speed forecasting for grid code compliance. Journal of Renewable and Sustainable Energy 2013; 5: 063125.

Larsen XG, Badger J, Hahmann AN, Mortensen NG. The selective dynamical downscaling method for extreme-wind atlases. Wind Energy 2013; 16: 11671182.

Liu D, Niu D, Wang H, Fan L. Short-term wind speed forecasting using wavelet transform and support vector machines optimized by genetic algorithm. Renewable Energy 2014; 62: 592597.

Nolan P, Lynch P, Sweeney C. Simulating the future wind energy resource of Ireland using the COSMO-CLM model. Wind Energy 2014; 17: 1937.

Nor KM, Shaaban M, Rahman HA. Feasibility assessment of wind energy resources in Malaysia based on NWP models. Renewable Energy 2014; 62: 147154.

Rasouli A, Hangan H. Microscale computational fluid dynamics simulation for wind mapping over complex topographic terrains. Journal of Solar Energy Engineering 2013; 135: 041005.

Sevlian R, Rajagopal R. Detection and statistics of wind power ramps. IEEE Transactions On Power Systems 2013; 28: 36103620.

Stephen B, Galloway S, McMillan D, Anderson L, Ault G. Statistical profiling of site wind resource speed and directional characteristics. IET Renewable Power Generation 2013; 7: 583592.

Sunderland K, Woolmington T, Blackledge J, Conlon M. Small wind turbines in turbulent (urban) environments: a consideration of normal and Weibull distributions for power prediction. Journal of Wind Engineering and Industrial Aerodynamics 2013; 121: 7081.

Trombe P-J, Pinson P, Madsen H. Automatic classification of offshore wind regimes with weather radar observations. IEEE Journal of Selected Topics In Applied Earth Observations and Remote Sensing 2014; 7: 116125.

Yang M, Fan S, Lee W-J. Probabilistic short-term wind power forecast using componential sparse Bayesian learning. IEEE Transactions On Industry Applications 2013; 49: IEEE; IAS.

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

Bakka T, Karimi H-R, Christiansen S. Linear parameter-varying modelling and control of an offshore wind turbine with constrained information. IET Control Theory and Applications 2014; 8: 2229.

Barlas TK, van Wingerden W, Hulskamp AW, van Kuik GAM, Bersee HEN. Smart dynamic rotor control using active flaps on a small-scale wind turbine: aeroelastic modeling and comparison with wind tunnel measurements. Wind Energy 2013; 16: 12871301.

Betti G, Farina M, Guagliardi GA, Marzorati A, Scattolini R. Development of a control-oriented model of floating wind turbines. IEEE Transactions On Control Systems Technology 2014; 22: 6982.

Bottasso CL, Riboldi CED. Estimation of wind misalignment and vertical shear from blade loads. Renewable Energy 2014; 62: 293302.

Dalala ZM, Zahid ZU, Lai J-S (J. new overall control strategy for small-scale WECS in MPPT and stall regions with mode transfer control. IEEE Transactions On Energy Conversion 2013; 28: 10821092.

Henriksen LC, Hansen MH, Poulsen NK. A simplified dynamic inflow model and its effect on the performance of free mean wind speed estimation. Wind Energy 2013; 16: 12131224.

Jafarnejadsani H, Pieper J, Ehlers J. Adaptive control of a variable-speed variable-pitch wind turbine using Radial-Basis Function neural network. IEEE Transactions On Control Systems Technology 2013; 21: 22642272.

Jimenez Avello A, Mohammed Al-Hadithi B, Gonzalez Garcia MI, Lopez Rubio JM. Difference equation matrix model (DEMM) for the control of wind turbines. Wind Energy 2014; 17: 5774.

Kamal E, Aitouche A, Ghorbani R, Bayart M. Fuzzy scheduler fault-tolerant control for wind energy conversion systems. IEEE Transactions On Control Systems Technology 2014; 22: 119131.

Kragh KA, Fleming PA, Scholbrock AK. Increased power capture by rotor speed-dependent yaw control of wind turbines. Journal of Solar Energy Engineering 2013; 135: 031018.

Merz KO, Svendsen HG. A control algorithm for the deepwind floating vertical-axis wind turbine. Journal of Renewable and Sustainable Energy 2013; 5: 063136.

Namik H, Stol K. Individual blade pitch control of a spar-buoy floating wind turbine. IEEE Transactions On Control Systems Technology 2014; 22: 214223.

Schlipf D, Schlipf DJ, Kuehn M. Nonlinear model predictive control of wind turbines using LIDAR. Wind Energy 2013; 16: 11071129.

Shin Y-h, Moon S-j, Kwon J-i, Chung T-y. Derivation of 4 degrees of freedom nonlinear wind turbine model using effective mass and stiffness for simulation of control algorithm. Journal of Renewable and Sustainable Energy 2013; 5: 052012.

Song Y, Zhang Z, Li P, Wang W, Qin M. Robust adaptive variable speed control of wind power systems without wind speed measurement. Journal of Renewable and Sustainable Energy 2013; 5: 063115.

Yang W, Little C, Court R. S-transform and its contribution to wind turbine condition monitoring. Renewable Energy 2014; 62: 137146.

Yang W, Ng CH, Jiang J. Wind turbine condition and power quality monitoring by the approach of fast individual harmonic extraction. Journal of Solar Energy Engineering 2013; 135: 034504.

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

Amutha N, Kumar BK. Effect of modeling of induction generator based wind generating systems on determining CCT. IEEE Transactions On Power Systems 2013; 28: 44564464.

Badrzadeh B. Transient recovery voltages caused by capacitor switching in wind power Plants. IEEE Transactions On Industry Applications 2013; 49: IEEE; IEEE Ind Applicat Soc.

Ben-Kilani K, Elleuch M. Structural analysis of voltage stability in power systems integrating wind power. IEEE Transactions On Power Systems 2013; 28: 37853794.

Bu SQ, Du W, Wang HF. Probabilistic analysis of small-signal rotor angle/voltage stability of large-scale AC/DC power systems as affected by grid-connected offshore wind generation. IEEE Transactions On Power Systems 2013; 28: 37123719.

Chen H, Johnson MH, Aliprantis DC. Low-frequency AC transmission for offshore wind power. IEEE Transactions On Power Delivery 2013; 28: 22362244.

Liang Y, Rotaru MD, Sykulski JK. Electromagnetic simulations of a fully superconducting 10-MW-class wind turbine generator. IEEE Transactions On Applied Superconductivity 2013; 23: 5202805.

Lin C-H. Recurrent modified Elman neural network control of permanent magnet synchronous generator system based on wind turbine emulator. Journal of Renewable and Sustainable Energy 2013; 5: 053103.

Lin W-M, Hong C-M, Huang C-H, Ou T-C. Hybrid control of a wind induction generator based on Grey–Elman neural network. IEEE Transactions On Control Systems Technology 2013; 21: 23672373.

Luis Dominguez-Garcia J, Bianchi FD, Gomis-Bellmunt O. Control signal selection for damping oscillations with wind power plants based on fundamental limitations. IEEE Transactions On Power Systems 2013; 28: 42744281.

Martin-Martinez S, Gomez-Lazaro E, Vigueras-Rodriguez A, Alvaro Fuentes-Moreno J, Molina-Garcia A. Analysis of positive ramp limitation control strategies for reducing wind power fluctuations. IET Renewable Power Generation 2013; 7: 593602.

Mipoung OD, Lopes LAC, Pillay P. Potential of type-1 wind turbines for assisting with frequency support in storage-less diesel hybrid mini-grids. IEEE Transactions On Industrial Electronics 2014; 61: 22972306.

Moutis P. Discussion on “Primary Frequency Regulation by Deloaded Wind Turbines Using Variable Droop”. IEEE Transactions On Power Systems 2014; 29: 414414.

Oh K-Y, Lee J-K, Bang H-J, Park J-Y, Lee J-S, Epureanu BI. Development of a 20 kW wind turbine simulator with similarities to a 3 MW wind turbine. Renewable Energy 2014; 62: 379387.

Park Y-S, Koo M-M, Jang S-M, Park H-I, Choi J-Y. Characteristic analysis of grid-connected PM wind power generators based on transfer relations and performance evaluation. IEEE Transactions on Energy Conversion 2013; 28: 969978.

Roy S. Power output by active pitch-regulated wind turbine in presence of short duration wind variations. IEEE Transactions On Energy Conversion 2013; 28: 10181025.

Salih SN, Chen P, Carlson O. The effect of wind power integration on the frequency of tap changes of a substation transformer. IEEE Transactions On Power Systems 2013; 28: 43204327.

Sotoodeh P, Miller RD. A novel single-phase inverter with distribution static compensator capability for wind applications. Electric Power Components and Systems 2013; 41: 12941310.

Tang B, Song T, Li F, Deng L. Fault diagnosis for a wind turbine transmission system based on manifold learning and Shannon wavelet support vector machine. Renewable Energy 2014; 62: 19.

Varzaneh SG, Rastegar H, Gharehpetian GB. A new three-mode maximum power point tracking algorithm for doubly fed induction generator based wind energy conversion system. Electric Power Components and Systems 2014; 42: 4559.

Vidyanandan KV, Senroy N. Closure to discussion on “Primary Frequency Regulation by Deloaded Wind Turbines Using Variable Droop”. IEEE Transactions On Power Systems 2014; 29: 414415.

Whittle M, Trevelyan J, Tavner PJ. Bearing currents in wind turbine generators. Journal of Renewable and Sustainable Energy 2013; 5: 053128.

Zeni L, Rudolph AJ, Munster-Swendsen J, Margaris I, Hansen AD, Sorensen P. Virtual inertia for variable speed wind turbines. Wind Energy 2013; 16: 12251239.

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

Borhan H, Rotea MA, Viassolo D. Optimization-based power management of a wind farm with battery storage. Wind Energy 2013; 16: 11971211.

Huang J, Lu X, McElroy MB. Meteorologically defined limits to reduction in the variability of outputs from a coupled wind farm system in the Central US. Renewable Energy 2014; 62: 331340.

Javadi MS, Saniei M, Mashhadi HR, Gutierrez-Alcaraz G. Multi-objective expansion planning approach: distant wind farms and limited energy resources integration. IET Renewable Power Generation 2013; 7: 652668.

Le HT, Santoso S. Operating compressed-air energy storage as dynamic reactive compensator for stabilising wind farms under grid fault conditions. IET Renewable Power Generation 2013; 7: 717726.

Mahfouz MMA, El-Sayed MAH. Static synchronous compensator sizing for enhancement of fault ride-through capability and voltage stabilisation of fixed speed wind farms. IET Renewable Power Generation 2014; 8: 19.

Moharana A, Varma RK, Seethapathy R. Subsynchronous impact of series compensation on induction generator based wind farm. Electric Power Components and Systems 2013; 41: 10411058.

Taherkhani M, Hosseini SH. Wind farm optimal connection to transmission systems considering network reinforcement using cost-reliability analysis. IET Renewable Power Generation 2013; 7: 603613.

Xie K, Yang H, Hu B, Yu D. Reliability evaluation for electrical collector systems of wind farm using the section enumeration technique. Journal of Renewable and Sustainable Energy 2013; 5: 053123.

Zhang K, Mao C, Xie J, Lu J, Wang D, Zeng J, Chen X, Zhang J. Determination of characteristic parameters of battery energy storage system for wind farm. IET Renewable Power Generation 2014; 8: 2232.

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

Ahmadi-Khatir A, Conejo AJ, Cherkaoui R. Multi-area energy and reserve dispatch under wind uncertainty and equipment failures. IEEE Transactions On Power Systems 2013; 28: 43734383.

Angeles Moreno M, Usaola J, Bueno M. Assessing the economic benefit of a bidding decision support tool for wind power producers. IET Renewable Power Generation 2013; 7: 707716.

Askarzadeh A. A discrete chaotic harmony search-based simulated annealing algorithm for optimum design of PV/wind hybrid system. Solar Energy 2013; 97: 93101.

Baeyens E, Bitar EY, Khargonekar PP, Poolla K. Coalitional aggregation of wind power. IEEE Transactions On Power Systems 2013; 28: 37743784.

Baringo L, Conejo AJ. Strategic offering for a wind power producer. IEEE Transactions On Power Systems 2013; 28: 46454654.

Bortolini M, Gamberi M, Graziani A, Manzini R, Pilati F. Performance and viability analysis of small wind turbines in the European Union. Renewable Energy 2014; 62: 629639.

Chen C-L. Key issues of wind capacity integration in congested areas of the Taiwan power system. IET Renewable Power Generation 2014; 8: 1021.

Dutta R, Wang F, Bohlmann BF, Stelson KA. Analysis of short-term energy storage for midsize hydrostatic wind turbine. Journal of Dynamic Systems Measurement and Control 2014; 136: 011007.

Gang L, Jinfu C, Defu C, Dongyuan S, Xianzhong D. Probabilistic assessment of available transfer capability considering spatial correlation in wind power integrated system. IET Generation Transmission & Distribution 2013; 7: 15271535.

Ghofrani M, Arabali A, Etezadi-Amoli M, Fadali MS. Energy storage application for performance enhancement of wind integration. IEEE Transactions On Power Systems 2013; 28: 48034811.

Gil HA, Lin J. Wind power and electricity prices at the PJM market. IEEE Transactions on Power Systems 2013; 28: 39453953.

Gu Y, Xie L. Fast sensitivity analysis approach to assessing congestion induced wind curtailment. IEEE Transactions On Power Systems 2014; 29: 101110.

Helseth A, Gjelsvik A, Mo B, Linnet U. A model for optimal scheduling of hydro thermal systems including pumped-storage and wind power. IET Generation Transmission & Distribution 2013; 7: 14261434.

Hua J. An integrated energy conversion and storage facility for offshore wind and wave energy exploitation along the west coasts of North America and Europe. Journal of Renewable and Sustainable Energy 2013; 5: 053135.

Kucuk D, Arslan Y. Semi-automatic construction of a domain ontology for wind energy using Wikipedia articles. Renewable Energy 2014; 62: 484489.

Laleman R, Albrecht J. Comparing push and pull measures for PV and wind in Europe. Renewable Energy 2014; 61: 3337.

Martinez-Mares A, Fuerte-Esquivel CR. A robust optimization approach for the interdependency analysis of integrated energy systems considering wind power uncertainty. IEEE Transactions On Power Systems 2013; 28: 39643976.

Palejiya D, Hall J, Mecklenborg C, Chen D. Stability of wind turbine switching control in an integrated wind turbine and rechargeable battery system: a common quadratic Lyapunov function approach. Journal of Dynamic Systems Measurement and Control 2013; 135: 021018.

Shariatpanah H, Jahromi MZ, Fadaeinedjad R. Simulation of a new grid-connected hybrid generation system with Stirling engine and wind turbine. Journal of Renewable and Sustainable Energy 2013; 5: 063128.

Siano P, Mokryani G. Probabilistic assessment of the impact of wind energy integration into distribution networks. IEEE Transactions On Power Systems 2013; 28: 42094217.

Siano P, Mokryani G. Assessing wind turbines placement in a distribution market environment by using particle swarm optimization. IEEE Transactions On Power Systems 2013; 28: 38523864.

Su C, Hu W, Chen Z, Hu Y. Mitigation of power system oscillation caused by wind power fluctuation. IET Renewable Power Generation 2013; 7: 639651.

Vrakopoulou M, Margellos K, Lygeros J, Andersson G. A probabilistic framework for reserve scheduling and N-1 security assessment of systems with high wind power penetration. IEEE Transactions On Power Systems 2013; 28: 38853896.

Wan C, Xu Z, Pinson P. Direct interval forecasting of wind power. IEEE Transactions On Power Systems 2013; 28: 48774878.

Wang L, Thi MSN. Comparative stability analysis of offshore wind and marine-current farms feeding into a power grid using HVDC links and HVAC line. IEEE Transactions On Power Delivery 2013; 28: 21622171.

Woo C-K, Zarnikau J, Kadish J, Horowitz I, Wang J, Olson A. The impact of wind generation on wholesale electricity prices in the hydro-rich pacific northwest. IEEE Transactions On Power Systems 2013; 28: 42454253.

Zhang K, Mao C, Lu J, Wang D, Chen X, Zhang J. Optimal control of state-of-charge of superconducting magnetic energy storage for wind power system. IET Renewable Power Generation 2014; 8: 5866.

Zhou Z, Botterud A. Dynamic scheduling of operating reserves in co-optimized electricity markets with wind power. IEEE Transactions On Power Systems 2014; 29: 160171.

Zugno M, Pinson P, Madsen H. Impact of wind power generation on European cross-border power flows. IEEE Transactions On Power Systems 2013; 28: 35663575.