Referências

 

[1]       INEGI and APREN, “Parques Eólicos em Portugal”, Estudo Técnico, 2013. [Online]. Available: www.e2p.inegi.up.pt.

[2]       Z. Chen, F. Blaabjerg, and Y. Hu, “Stability Improvement of Wind Turbine Systems by STATCOM”, IECON 2006 - 32nd Annu. Conf. IEEE Ind. Electron., pp. 4213–4218, Nov. 2006.

[3]       G. Tian, S. Wang, and G. Liu, “Power quality and transient stability improvement of wind farm with fixed-speed induction generators using a STATCOM”, Int. Conf. Power Syst. Technol., pp. 1–6, 2010.

[4]       C. Le and M. Bollen, “Ride-through of induction generator based wind park with switched capacitor, SVC, or STATCOM”, IEEE Power Energy Soc. Gen. Meet., pp. 1–7, 2010.

[5]       J. Carvalhosa, “Adaptação Técnico-Económica dos Actuais Parques Eólicos ao Novo Regulamento de Redes”, Dissertação de Mestrado, Faculdade de Engenharia da Universidade do Porto, 2011.

[6]       A. Leon and M. Farias, “Control strategy of a DVR to improve stability in wind farms using squirrel-cage induction generators”, IEEE Trans. Power Syst., vol. 26, no. 3, pp. 1609–1617, 2011.

[7]       P. Huang, M. El Moursi, W. Xiao, and J. Kirtley, “Fault Ride-Through Configuration and Transient Management Scheme for Self-Excited Induction Generator-Based Wind Turbine”, IEEE Trans. Sustain. Energy, vol. 5, no. 1, pp. 148–159, 2014.

[8]       X. Lie, Y. Liangzhong, and C. Sasse, “Comparison of Using SVC and STATCOM for Wind Farm Integration”, in International Conference on Power System Technology, 2006.

[9]       “Energia Eólica”, 2011. [Online]. Available: http://blogdoengenheiroeletricista.blogspot.pt/2011/07/energia-eolica.html. [Accessed: 05-Mar-2013].

[10]     M. H. Vasconcelos, “Modelização do Gerador Eólico”, Apontamentos da unidade curricular Dinâmica e Estabilidade de Sistemas. 2013.

[11]     L. Qi, J. Langston, and M. Steurer, “Applying a STATCOM for stability improvement to an existing wind farm with fixed-speed induction generators”, IEEE Power Energy Soc. Gen. Meet. - Convers. Deliv. Electr. Energy 21st Century, pp. 1–6, 2008.

[12]     A. Teninge, “Participation aux services système de parcs éoliens mixtes: application en milieu insulaire”, Tese de Doutoramente, L’Institut polytechnique de Grenoble, 2009.

[13]     Y. Yang and X. Zha, “Aggregating wind farm with DFIG in power system online analysis”, 2009 IEEE 6th Int. Power Electron. Motion Control Conf., vol. 3, pp. 2233–2237, May 2009.

[14]     S. Li and T. Haskew, “Control of DFIG wind turbine with direct-current vector control configuration”, IEEE Trans. Sustain. Energy, vol. 3, no. 1, pp. 1–11, 2012.

[15]     Y. Yang and X. Zha, “Aggregating wind farm with DFIG in power system online analysis”, IEEE 6th Int. Power Electron. Motion Control Conf., vol. 3, pp. 2233–2237, May 2009.

[16]     M. Rosyadi, S. M. Muyeen, R. Takahashi, and J. Tamura, “Low voltage ride-through capability improvement of wind farms using variable speed permanent magnet wind generator”, Int. Conf. Electr. Mach. Syst., pp. 1–6, Aug. 2011.

[17]     T. Ackermann, “Wind Power in Power Systems”, John Wiley & Sons Ltd, Ed. 2005.

[18]     C. Wessels and N. Hoffmann, “StatCom control at wind farms with fixed-speed induction generators under asymmetrical grid faults”, IEEE Trans. Ind. Electron., vol. 60, no. 7, pp. 2864–2873, 2013.

[19]     F. Resende and J. P. Lopes, “Evaluating the performance of external fault ride-through solutions used in wind farms with fixed speed induction generators when facing unbalanced faults”, IEEE Bucharest Power Tech Conf., pp. 1–6, 2009.

[20]     R. de Almeida, “Contribuições para a Avaliação da Capacidade de Fornecimento de Serviços de Sistema por parte de Aerogeradores de Indução Duplamente Alimentados”, Dissertação de Doutoramento, Faculdade de Engenharia da Universidade do Porto, Porto, 2006.

[21]     E. Muljadi, C. P. Butterfield, J. Conto, and K. Donohoo, “Ride-through capability predictions for wind power plants in the ERCOT network”, IEEE Power Eng. Soc. Gen. Meet. 2005, pp. 3035–3042.

[22]     “Regulamento da rede de transporte, aprovado pela Portaria no 596/2010, Diário da República, 1.asérie,no 147, 30 de Julho de 2010.”

[23]     “Regulamento da rede de distribuição, aprovado pela Portaria no 596/2010, Diário da República, 1.asérie,no 147, 30 de Julho de 2010.”

[24]     B. Silva, “Parques Eólicos com ‘Ride-through Fault’: Validação de um Novo Sistema de Proteção em Tempo Real com ajuda do RTDS”, Dissertação de Mestrado, Faculdade de Engenharia da Universidade do Porto, 2009.

[25]     P. N. P. Barbeiro, C. L. Moreira, and J. A. P. Lopes, “Application of FACTS Devices to Improve System Security”, 2010.

[26]     A. Kehrli and M. Ross, “Understanding grid integration issues at wind farms and solutions using voltage source converter FACTS technology”, IEEE Power Eng. Soc. Gen. Meet., pp. 1822–1828, 2003.

[27]     S. Foster, L. Xu, and B. Fox, “Grid integration of wind farms using svc and statcom”, Univ. Power Eng. Conf., pp. 157–161, Sep. 2006.

[28]     R. Fu, W. Sun, J. Yang, and Y. Ji, “Study on application of STATCOM in voltage stability of wind farm incorporated system”, 32nd Chinese Control Conf., pp. 8868–8873, 2013.

[29]     H. Haghighat, C. Cañizares, and K. Bhattacharya, “Dispatching reactive power considering all providers in competitive electricity markets”, IEEE Power Energy Soc. Gen. Meet., pp. 1–7, 2010.

[30]     T. Masaud and P. Sen, “Study of the implementation of STATCOM on DFIG-based wind farm connected to a power system”, IEEE PES Innov. Smart Grid Technol., 2012.

[31]     M. Noroozian and C. W. Taylor, “Benefits of SVC and STATCOM for Electric Utility Application”, IEEE PES Transm. Distrib. Conf. Expo., 2003.

[32]     Kundur Prabha, “Power System Stability and Control”, McGraw-Hill, Ed. 1993.