Skip to main content
Fachgebiete
Automobil + Motoren Bauwesen + Immobilien Business IT + Informatik Elektrotechnik + Elektronik Energie + Nachhaltigkeit Finance + Banking Management + Führung Marketing + Vertrieb Maschinenbau + Werkstoffe Versicherung + Risiko
DE
EN
Bücher
Zeitschriften
Themenseiten
Organisationspsychologie Projektmanagement Marketing Smart Manufacturing
Weitere Formate
Podcasts Webinare Technik Webinare Wirtschaft Kongresse Veranstaltungskalender Awards
Jetzt Einzelzugang starten
Zugang für Unternehmen
Referenzkunden
SLX-Digitalkonferenz: Zukunftswerkstatt 2024

Mehr Umsatz mit Top-Kontakten

Am 7. Mai erfahren Sie, wie Vertriebsteams Leadgenerierung, Leadnurturing und Leadstrategien effizient steuern können.
Erweiterte Suche
Anmelden
nach oben
Erschienen in:
Ground Fault Detection Using Pole Differential Current Measurement for 2-Terminal Bipolar HVDC Lines Kapitel lesen Erstes Kapitel lesen

2021 | OriginalPaper | Buchkapitel

Renewable Power Generation Using Asynchronous Generator: A Review

verfasst von : Nagendra Singh, Ritesh Tirole, Shekh Kulsum Almas, Dimpy Sood

Erschienen in: Recent Advances in Power Systems

Verlag: Springer Singapore

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

Wind energy is the form of sun energy. Flow of wind is not uniform all time. For conversion of wind energy into electrical energy synchronous generator were used. Synchronous generator used for the constant speed of power generation. So using synchronous generator for irregular wind energy conversion in electrical energy is not efficient. Due to such disadvantages of fixed speed generator, recent days variable speed generator using called doubly fed induction generators. This asynchronous generator has many advantages over fixed speed generator system. An asynchronous based turbine has a capacity to convert the wind energy into maximum electrical energy with changing and customizable speed. It is also having the capacity to control active and reactive power with the help of power electronics converter. When operating the doubly fed induction generator, generating system controlling and handling the plant for smooth and efficient operation is challenging task. Many control strategy were proposed by the researchers discuss in this chapter. This chapter presents an outline and a deep review of recent decades on the various issues related to infiltration of doubly fed Induction generator in wing generation system. Also discuss various problem associated in the proposed techniques and what the improvement required for future work.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Jetzt informieren
Vorheriges Kapitel Effect of Electrical Vehicles Charging on Distribution System with Distributed Generation
Nächstes Kapitel Estimation of the Monthly Standard Diffuse and Universal Solar Eradiation for the City Varanasi, Uttar Pradesh, India
Literatur
1.
2.
3.
Charles Rajesh Kumar, J.: Wind energy programme in India: emerging energy alternatives for sustainable growth. Energy Environ. SAGA Publication, April (2019)
4.
Tazil, M.: Three-phase doubly fed induction generators: an overview. IET Electr. Power 4(2), 75–89 (2010)CrossRef
5.
Michalke, G.: Variable Speed Wind Turbines-Modeling, Control, and Impact on Power Systems. Department of Renewable Energies at Darmstadt Technical University (Germany) (2008)
6.
Choudhury, S.: Performance Analysis of Doubly-fed Induction Generator in Wind Energy Conversion System. A Thesis of Master of Technology in Electrical Engineering (Power Control & Drives, June National institute of technology Rourkela, (2011)
7.
Hansen, D., Hasen, L.H.: Market penetration of wind turbine concepts over the years. Eur. Wind Energy, EWEA 10, 81–97 (2007)CrossRef
8.
Berkani, A.: Sliding mode control of wind energy conversion system using dual star synchronous machine and three level converters. TECNICA ITALIANA-Italian J. Eng. Sci. 63(2), 243–250 (2019)CrossRef
9.
Niasar, A.H.: Sensorless Direct Power Control of Induction Motor Drive Using Artificial Neural Network. Hindawi Publishing Corporation Advances in Artificial Neural Systems Volume (2015)
10.
Kaloi, G.S.: Active and Reactive Power Control of the Doubly Fed Induction Generator Based on Wind Energy Conversion System. Energy Reports Elsevier, pp. 194–200 (2016)
11.
Nora, Z., Hocine, L.: Active and reactive power control of a doubly fed induction generator. Int. J, Power Electr. Drive Syst. (IJPEDS) 5(2), 244–251 (2014)
12.
Pavan, D.: Pulgamkar: application of power electronics to power system. Int. J. Sci. Res. (IJSR) 3, 1–8 (2017)MathSciNet
13.
14.
Datta, R.: A simple position sensor less algorithm for rotor side field oriented control of wound rotor induction machine. IEEE Trans. Ind. Electron 48(4), 710–718 (2001)CrossRef
15.
Cardenas, R.: MRAS observer for sensorless control of standalone doubly fed induction generators. IEEE Trans. Energy Convers. 20, 4 (2005)
16.
Sarkar, Dipu: An ab initio issues on renewable energy system integration to grid. Int. J. Sustain. Energy Plann. Manag. 23, 27–38 (2019)
17.
Amrane, F.: Design and implementation of high performance field oriented control for grid-connected doubly fed induction generator via hysteresis rotor current controller. Rev. Roum. Sci. Techn. Électrotechn. Énerg. 61(4), 319–324 (2016)MathSciNet
18.
Chen, B.A.: An analytical approach to maximum power tracking and loss minimization of a doubly fed induction generator considering core loss. IEEE Trans. Energy Convers. 27(2), 449–456 (2012)MathSciNetCrossRef
19.
Wang, Z.: Magnitude and frequency control of grid connected doubly fed induction generator based on synchronized model for wind power generation. IET Renew. Power Gener. 4(3), 232–241 (2010)MathSciNetCrossRef
20.
Xu, L., Wang, Y.: Dynamic modeling and control of DFIG-based wind turbines under unbalanced network conditions. IEEE Trans. Power Syst. 22(1), 314–323 (2007)CrossRef
21.
Yao, J.: An improved control strategy of limiting the dc-link voltage fluctuation for doubly fed induction wind generator. IEEE Trans. Power Electr. 23, 3 (2008)CrossRef
22.
23.
Abo-Khalil, A.G.: Current injection-based dc-link capacitance estimation using support vector regression. IET Power Electr. 5 (2012)
24.
Tremblay, E.: Comparative study of control strategies for the doubly fed induction generator in wind energy conversion systems: a DSP-based implementation approach. IEEE Trans. Sustain. Energy. 2(3), 288–299 (2011)CrossRef
25.
Chen, S.Z.: Integral sliding-mode direct torque control of doubly-fed induction generators under unbalanced grid voltage. IEEE Trans. Energy Convers. 25(2), 356–368 (2010)CrossRef
26.
Beltran, B.: Second order sliding mode control of a doubly fed induction generator driven wind turbine. IEEE Trans. Energy Convers. (2011)
27.
Itsaso, M.: Control of DFIG wind turbine with direct current vector control configuration. IEEE Trans. Sustain. Energy 2(3), 215–225 (2011)CrossRef
28.
Li, S.: Control of DFIG wind turbine with direct-current vector control configuration. IEEE Trans. Sustain. 3(1), 1–11 (2012)CrossRef
29.
Soliman, M.: Multiple model predictive control for wind turbines with doubly fed induction generators. IEEE Trans. Sustain. Energy 2(3), 215–225 (2011)CrossRef
30.
Mohensi, M.: Enhanced hysteresis-based current regulators in vector control of DFIG wind turbines. IEEE Trans. Power Electr. 26(1), 223–234 (2011)CrossRef
31.
Yang, J.: A series dynamic resistor based converter protection schemes for doubly fed induction generator during various fault conditions. IEEE Tran. Energy Convers. 25(2), 422–432 (2010)MathSciNetCrossRef
32.
Guo, Y.: Voltage/pitch control for maximization and regulation of active/reactive powers in wind turbines with uncertainties. IET Renew. Power Gen. 6(2), 99–109 (2012)CrossRef
33.
Johnson, : Control of variable-speed wind turbines: standard and adaptive techniques for maximizing energy capture. IEEE Contr. Syst. Mag. 26(3), 70–81 (2006)MathSciNetCrossRef
34.
Galdi, V.: Designing an adaptive fuzzy controller for maximum wind energy extraction. IEEE Trans. Energy Conversion 23(2), 559–569 (2008)CrossRef
35.
Nian, H.: Dynamic modeling and improved control of DFIG under distorted grid voltage conditions. IEEE Trans. Energy Convers. 26(1), 163–175 (2011)CrossRef
36.
El-Tawab S (2019) Hybrid DFIG driven wind turbine—grid systems modeling and control for reliable source. Int. J. Recent Techno. Eng. (IJRTE) 8(4), November (2019). ISSN: 2277-3878
37.
38.
Datta, R.: Direct power control of grid-connected wound rotor induction machine without rotor position sensors. IEEE Trans. Power Electronics 16(3), 390–399 (2001)CrossRef
39.
de Alegria, I.: Novel power error vector control for wind turbine with doubly fed induction generator. IEEE Ind. Electron. Soc. 2, 1218–1223 (2004)
40.
Xiao-Ming, G.: Direct power control for wind-turbine driven doubly-fed induction generator with constant switch frequency. Electr. Mach. Syst. 253–258 (2007)
41.
Kennel, R.: Generalized predictive control (GPC)-ready for use in drive applications. Proc. IEEE Power Electron. Special. Conf. (PESC) 4, 1839–1844 (2001)
42.
Metadaten
Titel
Renewable Power Generation Using Asynchronous Generator: A Review
verfasst von
Nagendra Singh
Ritesh Tirole
Shekh Kulsum Almas
Dimpy Sood
Copyright-Jahr
2021
Verlag
Springer Singapore
Buch
Recent Advances in Power Systems

Print ISBN: 978-981-15-7993-6

Electronic ISBN: 978-981-15-7994-3

Copyright-Jahr: 2021

DOI
https://doi.org/10.1007/978-981-15-7994-3_18