Reliability assessment of a wind-power system with integrated energy storage
Reliability assessment of a wind-power system with integrated energy storage
- Author(s): F.A. Bhuiyan and A. Yazdani
- DOI: 10.1049/iet-rpg.2009.0070
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- Author(s): F.A. Bhuiyan 1 and A. Yazdani 1
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View affiliations
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Affiliations:
1: University of Western Ontario, London, Canada
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Affiliations:
1: University of Western Ontario, London, Canada
- Source:
Volume 4, Issue 3,
May 2010,
p.
211 – 220
DOI: 10.1049/iet-rpg.2009.0070 , Print ISSN 1752-1416, Online ISSN 1752-1424
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This study looks into reliability assessment and components rating of a wind-power system with integrated battery energy storage. The system can potentially be used in remote electrification projects to mitigate the reliance on diesel generators. A reliability assessment method has been proposed in this study, based on a combination of the traditional analytical and simulation-based approaches, to enable calculation of reliability indices, required battery capacity and power rating, and power rating of the power-electronic converter of the wind-power units. The proposed method is easy to implement in the MATLAB software environment, takes into account the units forced outage rate (FOR), and also permits modelling of the grid-connected mode.
Inspec keywords: diesel-electric generators; battery management systems; wind power; power system reliability
Other keywords:
Subjects: Reliability; Energy resources; Wind power plants; Electrochemical conversion and storage; Diesel power stations and plants
References
-
-
1)
- R. Billinton , H. Chen , R. Ghajar . Time-series models for reliability evaluation of power systems including wind energy. J. Microelectron. Reliab. , 9 , 1253 - 1261
-
2)
- G.M. Masters . (2004) Renewable and efficient electric power systems.
-
3)
- R. Karki , P. Hu , R. Billinton . A simplified wind power generation model for reliability evaluation. IEEE Trans. Energy Convers. , 2 , 533 - 540
-
4)
- P. Giorsetto , K.F. Utsurogi . Development of a new procedure for reliability modeling of wind turbine generators. IEEE Trans. Power Appar. Syst. , 1 , 134 - 143
-
5)
- Karki, R., Hu, P., Billinton, R.: `Reliability evaluation of a wind power delivery system using an approximate wind model', 41stInt. Universities Power Engineering Conf., UPEC 06, September 2006, Newcastle, UK, p. 113–117.
-
6)
- Hydro One Inc., (online). Available at http://www.hydroone.com.
-
7)
- Katiraei, F., Abbey, C.: `Diesel plant sizing and performance analysis of a remote wind-diesel microgrid', IEEE Power Engineering Society General Meeting, PES 2007, June 2007, Tampa, USA, p. 1–8.
-
8)
- D.G. Infield , G.W. Slack , N.H. Lipman , P.J. Musgrove . Review of wind/diesel strategies. IEE Proc. , 9 , 613 - 619
-
9)
- Ehsani, A., Fotuhi, M., Abbaspour, A., Ranjbar, A.M.: `An analytical method for the reliability evaluation of wind energy systems', IEEE Int. Region 10 Conf., TENCON 05, November 2005, Melbourne, Australia, p. 1–7.
-
10)
- F.A. Bhuiyan , A. Yazdani . Multi-mode control of a DFIG-based wind-power unit for remote applications. IEEE Trans. Power Deliv. , 4 , 2079 - 2089
-
11)
- A.C. Saramourtsis , A.G. Bakirtzis , P.S. Dokopoulos , E.S. Gavanidou . Probabilistic evaluation of performance of wind-diesel energy systems. IEEE Trans. Energy Convers. , 4 , 743 - 752
-
12)
- A.G. Bakirtzis . A probabilistic method for the evaluation of the reliability of stand-alone wind energy systems. IEEE Trans. Energy Convers. , 1 , 99 - 107
-
13)
- Scott, P.A., Mueller, M.A.: `Modeling fully variable speed hybrid wind-diesel systems', 41stInt. Universities Power Engineering Conf., UPEC 06, September 2006, Newcastle, UK, p. 212–216.
-
14)
- Ayoub, J., Henderson, S., Alward, R., Sheriff, F.: `Living off-grid on renewable energy in the Yukon', SESCI 2004 Conf., August 2004, Waterloo, Canada, p. 1–12, Available at http://canmetenergy.nrcan.gc.ca/fichier.php/codectec/En/2004-128/2004-128e.pdf.
-
15)
- Chambers, T.V., Mutale, J.: `Selection of diesel generators for small rural wind-diesel power systems', 41stInt. Universities Power Engineering Conf., UPEC 06, September 2006, Newcastle, UK, p. 51–55.
-
16)
- Liu, X., Islam, S.: `Reliability evaluation of a wind-diesel hybrid power system with battery bank using discrete wind speed frame analysis', Ninth Int. Conf. on Probabilistic Method Applied to Power Systems, June 2006, Stockholm, Sweden, p. 1–7.
-
17)
- Nayar, C.V., Lawrance, W.B., Philliphs, S.J.: `Solar/wind/diesel hybrid energy systems for remote areas', 24thIntersociety Energy Conversion Engineering Conf., IECEC 89, August 1989, Washington, DC, USA, p. 2029–2034.
-
18)
- Kini, A.S., Yaragatti, U.R.: `Modeling and simulation of a wind/diesel hybrid power systems', IEEE Int. Conf. on Industrial Technology, ICIT 06, December 2006, Mumbai, India, p. 1670–1675.
-
19)
- Ghali, F.M.A., Aziz, M.M.A., Syam, F.A.: `Simulation and analysis of hybrid systems using probabilistic techniques', Power Conversion Conf., August 1997, Naqaoka, Japan, p. 831–835.
-
20)
- (Online). Available at http://www.climate.weatheroffice.ec.gc.ca.
-
21)
- Chowdhury, A.A.: `Reliability models for large wind farms in generation system planning', IEEE Power Engineering Society General Meeting, June 2005, San Francisco, USA, p. 1926–1933.
-
22)
- R. Billinton , Y.C. Bagen , Y. Cui . Reliability evaluation of small stand-alone wind energy conversion systems using a time series simulation model. IEE Proc., Gener. Transm. Distrib. , 1 , 96 - 100
-
23)
- S.H. Karaki , R.B. Chedid , R. Ramadan . Probabilistic performance assessment of wind energy conversion systems. IEEE Trans. Energy Convers. , 2 , 217 - 224
-
24)
- I. Abouzahr , R. Ramakumar . An approach to assess the performance of utility-interactive wind electric conversion systems. IEEE Trans. Energy Convers. , 627 - 636
-
25)
- I. Abouzahr , R. Ramakumar . Loss of power supply probability of stand-alone wind electric conversion systems: A closed form solution approach. IEEE Trans. Energy Convers. , 3 , 445 - 451
-
26)
- B.S. Borowy , Z.M. Salameh . Methodology for optimally sizing the combination of a battery bank and PV array in a wind/PV hybrid system. IEEE Trans. Energy Convers. , 2 , 367 - 375
-
27)
- P.F. Albretch . TEST SYSTEM TASK FORCE: ‘IEEE reliability test system. IEEE Trans. Power Appar. Syst. , 6 , 2047 - 2054
-
28)
- R. Billinton , R.N. Allan . (1992) Reliability evaluation of engineering systems.
-
29)
- L.A.C. Lopes , R.G. Almeida . Wind-driven self-excited induction generator with voltage and frequency regulated by a reduced-rating voltage source inverter. IEEE Trans. Energy Convers. , 2 , 297 - 304
-
30)
- R. Billinton , R.N. Allan . (1984) Reliability evaluation of power systems.
-
31)
- K.R. Voorspools , W.D. D'haeseleer . Are deterministic methods suitable for short term reserve planning?. J. Energy Convers. Manag. , 2042 - 2052
-
1)