Wind energy resource, wind energy conversion system modelling and integration: a survey

International Journal of Sustainable Energy

Volumn 34, Issue 10, 2015, Pages 657-671

  Ayodele, T R ^a   Ogunjuyigbe, A S O ^a  

^a UNIVERSITY OF IBADAN   (Nigeria)

Author keywords

integration issues; modelling; wind energy resource; wind power

Indexed keywords

ENERGY CONVERSION; INTEGRATION; MODELS;

CRITICAL REVIEW; INTEGRATION ISSUES; POWER POTENTIAL; SINGLE MODELS; TURBINE DESIGNERS; WIND CHARACTERISTICS; WIND ENERGY CONVERSION SYSTEM; WIND POWER INTEGRATIONS;

WIND POWER;

EID: 84938548623     PISSN: 14786451     EISSN: 1478646X     Source Type: Journal    
DOI: 10.1080/14786451.2013.855778     Document Type: Article

References (79)

1. A.Abbaszadeh,, V.Mortezapour, and A.Zohoori. 2011. “Analytical Calculation of Critical Clearance Time of Doubly Fed Induction Generator.” 10th international conference on environment and electrical engineering, Rome, Italy, May 8–11, pp. 1–4.
2. A.G.Abo-Khalil, 2011. “A New Wind Turbine Simulator Using Squirrel Cage Induction Motor for Wind Power Generation System.” 9th IEEE International Conference on power Electronics and Drives System (IEEE PEDS), Singapore, December 5–8. Singapore: IEEE.
3. T.Ackermann,, and L.Söder. 2000. “Wind Energy Technology and Current Status: A Review.” Renewable and Sustainable Energy Reviews 4 (4): 315–374. http://www.sciencedirect.com/science/article/B6VMY-411XDY8-1/2/f004597f55930768f9b4002aa91a61c0 doi: 10.1016/S1364-0321(00)00004-6
4. T.R.Ayodele,, A.A.Jimoh, J.L.Munda, and J.T.Agee. 2011. “The Influence of Wind Power on the Small Signal Stability of a Power System.” International conference on renewable energy and power quality, Las Palmas de Gra Canaria, Spain, April 13–15.
5. T.R.Ayodele,, A.A.Jimom, J.L.Munda, and J.T.Agee. 2012. “Challenges of Grid Integration of Wind Power on Power System Grid Integrity: A Review.” International Journal of Renewable Energy Research 2 (4): 618–626.
6. S.M.Barakati, 2007. Wind Turbine System: History, Structure and Dynamic Model. Handbook of Renewable Energy Technology, edited by A.F.ZobaaAhmed F and R.C.BansaRamesh C., 21–51. Singapore: World Scientific Publishing.
7. J.A.Baroudi,, V.Dinavahi, and A.M.Knight. 2007. “A Review of Power Converter Topologies for Wind Generators.” Renewable Energy 32 (14): 2369–2385. doi: 10.1016/j.renene.2006.12.002
8. P.W.Carlin,, A.S.Laxson, and E.B.Muljadi. 2003. “The History and the State of the Art of Variable Speed Wind Turbine Technology.” Wind Energy 6 (2): 129–159. doi: 10.1002/we.77
9. J.M.Carrasco,, L.G.Franquelo, J.T.Bialasiewicz, E.Galvan, R.C.P.Guisado, M.A.M.Prats, J.I.Leon, and N.Moreno-Alfonso. 2006. “Power-Electronic Systems for the Grid Integration of Renewable Energy Sources: A Survey.” IEEE Transactions on Industrial Electronics 53 (4): 1002–1016. doi: 10.1109/TIE.2006.878356
10. A.N.Celik, 2003. “A Statistical Analysis of Wind Power Density Based on the Weibull and Rayleigh Models at the Southern Region of Turkey.” Renewable Energy 29 (4): 593–604. doi: 10.1016/j.renene.2003.07.002
11. B.H.Chowdhury,, and S.Chellapilla. 2006. “Double-Fed Induction Generator Control for Variable Speed Wind Power Generation.” Electric Power and Energy Systems Research 76: 786–800. doi: 10.1016/j.epsr.2005.10.013
12. C.Y.Chung,, W.Lei, F.Howell, and P.Kundur. 2004. “Generation Rescheduling Methods to Improve Power Transfer Capability Constrained by Small-Signal Stability.”jIEEE Transactions on Power Systems 19 (1): 524–530.
13. Y.Coughlan,, P.Smith, A.Mullane, and M.O'malley. 2007. “Wind Turbine Modelling for Power System Stability Analysis – A System Operator Perspective.” Power Systems, IEEE Transactions on 22 (3): 929–936. doi: 10.1109/TPWRS.2007.901649
14. R.Dashti,, and B.Ranjbar. 2008. “Transient Analysis of Induction Generator Jointed to Network at Balanced and Unbalanced Short Circuit Fault.” ARPN Journal of Engineering and Applied Science 3 (3): 43–48.
15. I.Dincer, 2000. “Renewable Energy and Sustainable Development: A Crucial Review.” Renewable and Sustainable Energy Reviews 4: 157–175. doi: 10.1016/S1364-0321(99)00011-8
16. K.C.Divya,, and P.S.N.RaoP. S. Nagendra. 2006. “Models for Wind Turbine Generating Systems and Their Application in Load Flow Studies.” Electric Power Systems Research 76: 844–856. doi: 10.1016/j.epsr.2005.10.012
17. L.Dusonchet,, F.Massaro, and E.Telaretti. 1991. “Transient Stability Simulation of a Fixed Speed Wind Turbine by Matlab/Simulink.” 3rd international conference on renewable energy, 651–655.
18. J.B.Ekanayake,, L.Holdsworth, and N.Jenkins. 2003. “Comparison of 5th and 3rd Order Machine Models for Doubly Fed Induction Generator (dfig) Wind Turbines.” Electrical Power System Research 67: 207–215. doi: 10.1016/S0378-7796(03)00109-3
19. A.Feijo'O,, J.Cidra'S, and C.Carrillo. 2000. “A Third Order Model for the Doubly-Fed Induction Machine.” Electric Power Systems Research 56: 121–127. doi: 10.1016/S0378-7796(00)00103-6
20. L.M.Fernandez,, F.Jurado, and J.R.Saenz. 2008. “Aggregated Dynamic Model for Wind Farms with Doubly Fed Induction Generator Wind Turbines.” Renewable Energy 33 (1): 129–140. http://www.sciencedirect.com/science/article/pii/S0960148107000250 doi: 10.1016/j.renene.2007.01.010
21. K.A.Folly,, and S.Sheetekela. 2009. “Impact of Fixed and Variable Speed Wind Generators on the Transient Stability of a Power System Network.” Power systems conference and exposition, 2009, PSCE ’09, IEEE/PES, 1–7.
22. A.Garcia,, J.L.Torres, E.Prieto, and A.D.FranciscoA. De. 1998. “Fitting Wind Speed Distributions: A Case Study.” Solar Energy 62 (2): 139–144. doi: 10.1016/S0038-092X(97)00116-3
23. P.Gardner,, A.Garrad, P.Jamieson, H.Snodin, and A.Tindal. 2005. “Turbine Technology.” Wind Energy: The Fact 1: 3–305.
24. M.R.Haghifam,, and M.Omidvar. 2006. “Wind Farm Modeling in Reliability Assessment of Power System.” International conference on probabilistic methods applied to power systems (PMAPS), 1–5.
25. A.D.Hansen,, P.Sørensen, F.Blaabjerg, and J.J.BechoJ. John. 2002. “Dynamic Modelling of Wind Farm Grid Interaction.” Wind Engineering 26 (4): 191–208. doi: 10.1260/030952402321039403
26. S.Hu,, and J.Cheng. 2007. “Performance Evaluation of Pairing Between Sites and Wind Turbines.” Renewable Energy 32: 1934–1947. doi: 10.1016/j.renene.2006.07.003
27. K.K.Kaberere,, K.A.Folly, M.Ntombela, and A.I.Petroianu. 2005. “Comparative Analysis and Numerical Validation of Industrial-Graded Power System Simulation Tools: Application to Small Signal Stability.” 15th PSCC, Liege.
28. R.Karki,, P.Hu, and R.Billinton. 2006. “A Simplified Wind Power Generation Model for Reliability Evaluation.” IEEE Transactions on Energy Conversion 21 (2): 433–450. doi: 10.1109/TEC.2006.874233
29. Y.Kazachkov,, and R.Voelzkei. 2005. “Modeling Wind Farms for Power System Load Flow and Stability Studies.” IEEE Power Tech, St. Petersburg, Russia, June 27–30, pp. 1–8.
30. P.Kundur, 1994. Power System Stability and Control, the Epri Power System Engineering Series: New York: McGraw-Hill.
31. H.Li,, Z.Chen, and L.Han. 2006. “Comparison and Evaluation of Induction Generator Models in Wind Turbine Systems for Transient Stability of Power System.” International conference on power system technology, PowerCon 2006, Chongqing, China, October 22–26, pp. 1–6.
32. L.Li,, S.Liangliang, L.Wenxia, and J.Sheng. 2009. “Modal Analysis Concerning the Control Mode of Doubly-Fed Induction Generator.” International conference on sustainable power generation and supply, SUPERGEN ’09, 1–6.
33. L.Lu,, H.Yang, and J.Burnett. 2002. “Investigation on Wind Power Potential on Hong Kong Islands – An Analysis of Wind Power and Wind Turbine Characteristic.” Renewable Energy 27: 1–12. doi: 10.1016/S0960-1481(01)00164-1
34. I.Y.F.Lun,, and J.C.Lam. 2000. “A Study of Weibull Parameters Using Long-Term Wind Observations.” Renewable Energy 20: 145–153. doi: 10.1016/S0960-1481(99)00103-2
35. J.Martnez,, P.C.Kjaer, and R.Teodorescus. 2010. “Dfig Tuirbine Representation for Small Signal Voltage Control Studies.” 12th international conference on optimization of electrical electronic equipment (OPTM 2010).
36. G.Marzio,, O.B.Fosso, K.Uhlen, and M.Palsson. 2005. “Large Scale Wind Power Integration, Voltage Stability Limit and Modal Analysis.” 15th PSCC, Liege.
37. R.Melicio,, V.M.F.Mendes, and J.P.S.Catalao. 2011. “Harmonic Behaviour of Variable Speed Wind Turbines During a Control Fault.” IEEE Power Tech., Trondheim.
38. A.Mendonca,, and J.A.P.LopesJ. A. Peas, 2005. “Impact of Large Scale Wind Power Integration on Small Signal Stability.” IEEE Conference on Future Power System, Amsterdam, The Netherlands, November 15–18, pp. 1–5.
39. Z.Miao,, and L.Fan. 2008. “The Art of Modeling and Simulation of Induction Generator in Wind Generation Applications Using High-Order Model.” Simulation Modelling Practice and Theory 16 (9): 1239–1253. http://www.sciencedirect.com/science/article/B6X3C-4STYV16-1/2/8c27cdef0f90ddef52f2d65551f4068b doi: 10.1016/j.simpat.2008.06.007
40. S.W.Mohod,, and M.V.Aware. 2010. “A statcom-Control Scheme for Grid Connected Wind Energy System for Power Quality Improvement.” IEEE System Journal 4 (3). doi: 10.1109/JSYST.2010.2052943
41. A.Mostafaeipour,, A.Sedaghat, A.A.Dehghan-Niri, and V.Kalantar. 2011. “Wind Energy Feasibility Study for City of Shahrbabak in Iran.” Renewable and Sustainable Energy Reviews 15: 2545–2556. doi: 10.1016/j.rser.2011.02.030
42. E.Muljadi,, N.Samaan, V.Gevorgian, J.M.Li, and S.Pasupulati. 2010. “Short Circuit Current Contribution for Different Wind Turbine Generator.” IEEE Power and Energy Society general meeting, Minneapolis, MN.
43. S.Najid,, A.Zaharim, A.M.Razali, M.S.Zainol, K.Ibrahim, and K.Sopian. 2009. “Analyzing the East Coast Malaysia Wind Speed Data.” International Journal of Energy and Environment 3 (2).
44. K.A.Nigm,, and P.Parker. 2006. “Heuristic and Probabilistic Wind Power Estimation Procedures: Improved Tools for Technology and Site Selection.” Renewable Energy 32: 638–648. doi: 10.1016/j.renene.2006.03.001
45. R.K.Panda,, T.K.Sarkar, and A.K.Bhattacharya. 1990. “A Stochastic Study of Wind Energy Potential of India.” Energy 15: 921–930. doi: 10.1016/0360-5442(90)90074-C
46. L.Y.Pao,, and K.E.Johnson. 2009. “Tutorial on the Dynamics and Control of Wind Turbines and Wind Farms.” American Control Conference, Hyatt Regency Riverfront, St. Louis, MO, 2076–2089.
47. S.Papathanassious,, and M.Papadopoulos. 2005. “A Study Case on Harmonic Distortion Created by Wind Turbine.” 18th international conference on electricity distribution, Turin.
48. T.Petru,, and T.Thiringer. 2002. “Modeling of Wind Turbines for Power System Studies.” IEEE Transactions on Power Systems 17 (4): 1132–1139. doi: 10.1109/TPWRS.2002.805017
49. J.Ping,, D.C.Bo, W.S.Yuan, J.Xuefen, and L.Xin. 2011. “A Scheme on Adaptation Detection of Large Capacity Wind Turbines to Power Grid.” International conference on advance power system automation and protection, China.
50. M.A.Poller, 2003. “Doubly-Fed Induction Machine Models for Stability Assessment of Wind Farms.” IEEE Power Tech conference, Bologna, 6.
51. W.Qiao,, R.G.Harley, and G.K.Venayagamoorthy. 2007. “Dynamic Modeling of Wind Farms with Fixed-Speed Wind Turbine Generators.” IEEE Power Engineering Society general meeting, Tampa, FL.
52. A.Rolán,, A.Luna, J.Rocabert, D.Aguilar, and G.VáZquez. 2010. “An Approach to the Performance-Oriented Model of Variable-Speed Wind Turbines.” IEEE international symposium on industrial electronics (ISIE).
53. B.Sahin,, and M.Bilgili. 2009. “Wind Characteristics and Energy Potential in Belen-Hatay, Turkey.” International Journal of Green Energy 6 (2): 157–172. doi: 10.1080/15435070902784947
54. B.Sahin,, and M.Bilgili. 2010. “Statistical Analysis of Wind Energy Density in the Western Region of Turkey.” Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 32 (13): 1224–1235.
55. N.Samaan,, R.Zavadil, J.C.Smith, and J.Conto. 2008. “Modeling of Wind Power Plants for Short Circuit Analysis in the Transmission Network.” Transmission and distribution conference and exposition, Chicago, 1–7.
56. J.V.Seguro,, and T.W.Lambert. 2000. “Modern Estimation of the Parameters of Weibull Wind Speed Distribution for Wind Energy Analysis.” Journal of Wind Engineering and Industrial Aerodynamics 85: 75–84. doi: 10.1016/S0167-6105(99)00122-1
57. K.Seul-Ki,, K.Eung-Sang, Y.Jae-Young, and K.Ho-Yong. 2004. “Pscad/emtdc Based Dynamic Modeling and Analysis of a Variable Speed Wind Turbine.” IEEE Power Engineering Society general meeting, Vol. 2, Denver, CO, 1735–1741.
58. W.Sharad,, and S.W.Mohod. 2010. “A Statcom-Control Scheme for Grid Connected Wind Energy System for Power Quality Improvement.” IEEE System Journal 4 (3).
59. L.Shun,, Q.Hu, and W.Lee. 2012. “A Survey of Harmonic Emissions of a Commercially Operated Wind Farm.” IEEE Transactions on Industrial Application 48 (3).
60. J.G.Slootweg,, S.W.H.D.HaanS. W. H. De, H.Polinder, and W.L.Kling. 2001. “Modeling Wind Turbines in Power System Dynamics Simulations.” IEEE Power Engineering Society summer meeting, Vancouver, BC, Vol. 1, Canada, 22–26.
61. J.G.Slootweg,, S.W.H.D.HaanS. W. H. De, H.Polinder, and W.L.Kling. 2003. “General Model for Representing Variable Speed Wind Turbines in Power System Dynamics Simulations.” IEEE Transactions on Power Systems 18 (1): 144–151. doi: 10.1109/TPWRS.2002.807113
62. J.G.Slootweg,, and W.L.Kling. 2003. “The Impact of Wind Power Generation on Power System Oscillations.” Electric Power System Research 67: 9–20. doi: 10.1016/S0378-7796(03)00089-0
63. O.M.Soares,, H.N.Gocalves, A.P.Martins, and A.P.Carvalho. 2009. “Analysis and nn-Based Control of Doubly Fed Induction Generator in Wind Power Generation.” International conference on renewable energies and power quality (ICREPQ, 2009), Valencia, Spain.
64. J.Soens,, J.Driesen, and R.Belmans. 2004. “Equivalent Transfer Function for a Variable Speed Wind Turbine in Power System Dynamic Simulations.” International Journal of Distributed Energy Sources 1 (2).
65. P.Sorensen,, N.A.Cutululis, T.Lund, A.D.Hansen, T.Sorensen, J.Hjerrild, M.H.Donovan, L.Christensen, and H.K.Nielsen. 2007. “Power Quality Issues on Wind Power Installations in Denmark.” IEEE Power Engineering Society general meeting, 1–6.
66. J.Stenzel,, M.A.Poller, and H.Muller. 2005. “Impact of Large Scale Wind Power on Power System Stability.” 5th international workshop on large-scale integration of wind and transmission network for offshore wind farm, Glasgow, Scotland.
67. A.Tabesh,, and R.Iravani. 2008. “Small Signal Model and Dynamic Analysis of Variable Speed Induction Machine Wind Farms.” IET Renewable Power Generation 2 (4): 215–227. doi: 10.1049/iet-rpg:20070107
68. D.Thakur,, and N.Mithulananthan. 2009. “Influence of Constant Speed Wind Turbine Generator on Power System Oscillation.” Electric Power Components and Systems 37 (5): 478–494. Accessed March 7, 2010. http://www.informaworld.com/10.1080/15325000802599320 doi: 10.1080/15325000802599320
69. G.Tsourakis,, B.M.Nomikos, and C.D.Vournas. 2009. “Contribution of Doubly Fed Wind Generators to Oscillation Damping.” IEEE Transactions on Energy Conversion 24 (3): 783–791. doi: 10.1109/TEC.2009.2025330
70. K.Ulgen,, and A.Hepbasli. 2002. “Determination of Weibull Parameters for Wind Energy Analysis of izmir, Turkey.” International Journal of Energy Research 26: 495–506. doi: 10.1002/er.798
71. C.Veganzones,, S.Martinez, and F.Blazquez. 2005. “Large Scale Integration of Wind Energy into Power Systems.” Electrical Power Quality and Utilisation, Magazine, Spain, 15–22.
72. D.Weisser, 2003. “A Wind Energy Analysis of Grenada: An Estimation Using the Weibull Density Function.” Renewable Energy 28: 1803–1812. doi: 10.1016/S0960-1481(03)00016-8
73. F.Wu,, X.P.Zhang, K.Godfrey, and P.Ju. 2007. “Small Signal Stability Analysis and Optimal Control of a Wind Turbine with Doubly Fed Induction Generator.” Generation, Transmission & Distribution, IET 1 (5): 751–760. doi: 10.1049/iet-gtd:20060395
74. F.Wu,, X.Zhang, and P.Ju. 2007. “Impact of Wind Turbines on Power System Stability.” Symposium – bulk power system dynamic and control-VII, revitalizing operational reliability, Charleston, SC.
75. F.Wu,, X.P.Zhang, and P.Ju. 2009. “Small Signal Stability Analysis and Control of the Wind Turbine with Direct Drive Permanent Magnet Generator Integrated to the Grid.” Electric Power System Research 79: 1661–1667. doi: 10.1016/j.epsr.2009.07.003
76. L.Xianqi,, Z.Zhiyuan, Z.Jianzhong, and Z.Yongchuan. 2008. “Small Signal Stability Analysis of Large Scale Variable Speed Wind Turbines Integration.” 2008. international conference on electrical machines and systems (ICEMS), 2526–2530.
77. Z.Xing,, Q.Zheng, X.Yao, and Y.Jing. 2005. “Integration of Large Double-Fed Wind Power Generator System into Grid.” 8th international conference on electrical machines and system, 1000–1004.
78. A.Zaharim,, A.M.Razali, R.Z.Abidin, and K.Sopian. 2009. “Fitting of Statistical Distributions to Wind Speed Data in Malysia.” European Journal of Scientific Research 26 (1): 6–12.
79. Y.Zhou,, P.Baour, J.Pierik, and J.A.Ferreira. 2009. “Integration of Large Offshore Wind Farm – Doubly Fed Induction Generator with Classical hvdc.” Acta Electrotechnica et Informatica 9 (9): 8–14.