Abstract
Mexico, as other countries, has set targets for using renewable energy generation; however, because of its variability, it may affect the electricity system operation and lead to electrical breakdown. STATCOM is a power electronic device used to mitigate those risks. To analyze the STATCOM behavior for integrating wind generation into the Mexican Electrical System, without compromising its integrity, two cases were studied. In the first case a region of the Northeast of Mexico is analyzed, where there are two power plants with a total of 990, and 1,600 MW more will be added soon for wind generation. Under these circumstances, an electrical failure close to generator stations is risky for the system stability. For this reason, the behavior of the network was analyzed by incorporating a STATCOM to maintain the voltage values close to nominal, after introducing a three-phase fault at a bus bar near generation. In the second case, the Southeast region of Mexico is considered, where there are three parallel transmission lines of 243 km each. Capacitive reactance is presented because of the lines length, and it raises the voltage in bus bars during low demand. To avoid such overvoltage, currently one of the lines is disconnected. A STATCOM is proposed for absorbing reactive power to maintain the nominal voltage without disconnecting the transmission line during low demand.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Acha E, Fuerte-Esquivel CR, Ambriz-Pérez H, Angeles-Camacho C (2005) FACTS modelling and simulation in power networks. Wiley, West Sussex
Hingorani NG, Gyugyi L (2000) Understanding FACTS: concepts and technology of flexible AC transmission systems. IEEE Inc., New York
Comisión Federal de Electricidad (2006) Programa de obras e inversiones del Sector Eléctrico 2007–2016. Gerencia de Programación de Sistemas Eléctricos, Mexico City
Comisión Federal de Electricidad (2005) Reglas de despacho y operación del Sistema Eléctrico Nacional. Diario Oficial, Mexico City
Li-Jun C, Erlich I (2005) Simultaneous coordinated tuning of PSS and FACTS damping controllers in large power systems. IEEE Trans Power Syst 20:294–300
Breuer W, Povh D, Retzmann, Teltsch E, Lei X (2004) Role of HVDC and FACTS in future power systems. Paper presented at conference of electric power supply industry, Shanghai, October 2004
Angeles-Camacho C (2005) Phase domain modelling and simulation of large-scale power systems with VSC-based FACTS equipment. PhD thesis, University of Glasgow, Glasgow
Hernández J, Messina A (2001) Utilización de Dispositivos de Control en la Red de Transmisión para Amortiguar Oscilaciones de Potencia. Paper presented at the 2nd Biennial Congress, CIGRE-Mexico, Irapuato, 13–15 June 2001
Comisión Federal de Electricidad (2013) CFE y la electricidad en México. http://www.cfe.gob.mx/ConoceCFE/1_AcercadeCFE/CFE_y_la_electricidad_en_Mexico/Paginas/CFEylaelectricidadMexico.aspx. Accessed 20 Aug 2013
Matsuno K, Iyoda I, Oue Y (2002) An experience of FACTS development 1980s and 1990s. Paper presented at transmission and distribution conference and exhibition: asia pacific, IEEE/PES, Yokohama, 6–10 Oct 2002
Sobtink KH, Renz KW, Tyll H (1998) Operational experience and field tests of the SVG at Rejsby Hede. Paper presented at power system technology, POWERCON ‘98, International Conference Beijing, 18–21 Aug 1998
Kidd D, Mehraban B, Ekehav B, Ulleryd J (2003) Eagle pass back-to-back VSC installation and operation. Paper presented at power engineering society general meeting, IEEE, Toronto, 13–17 July 2003
Fardanesh B, Schuff A (2007) Dynamic studies on the NYS transmission system with the Marcy CSC in the UPFC and IPFC configurations. Paper presented at transmission and distribution conference and exposition, IEEE PES, Dallas, 7–12 Sept 2003
Angeles-Camacho C, Acha E, Barrios-Martinez E (2007) Three-phase STATCOM models for large-scale Newton-Raphson power flow studies. Paper presented at power tech, Lausanne, 1–5 July 2007
Barrios-Martinez E, Angeles-Camacho C, Acha E (2009) Dynamic phase-domain modeling and simulation of STATCOM in large-scale power systems. Paper presented at Power Tech, Bucharest, 28 June–2 July 2009
Siemens Power Transmission and Distribution (2007) PSS®E 31.0 program application guide volumes 1 and 2. New York
Coronado I, Zúñiga P, Ramírez J (2001) FACTS: soluciones modernas para la industria eléctrica. Avance y Perspectiva 20:235–244
Torres A, Torres M, Ríos M (2001) FACTS technologies to improve the colombian national transmission system. Paper presented at IEEE transmission and distribution conference and exposition, Atlanta, 28 Oct–2 Nov 2001
Comisión Reguladora de Energía (2014) Temporadas abiertas de reserva de capacidad de transmisión y transformación. http://www.cre.gob.mx/documento/2317.pdf. Accessed 2 Feb 2014
Ben-Sheng Ch, Yuan-Yih H (2008) A minimal harmonic controller for a STATCOM. IEEE Trans Ind Electron 55:655–664
CIGRÉ (2000) FACTS technology for open access. Final draft report, JWG 14/37/38/39-24. Paris
Dávalos RJ, Ramírez JM (2001) Características funcionales del STATCOM. Paper presented at Segundo Congreso Bienal CIGRÉ-Mexico, Irapuato, 13–15 June 2001
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer Science+Business Media Singapore
About this chapter
Cite this chapter
Olguín-Becerril, M.A., Barrios-Martínez, E., Ángeles-Camacho, C. (2015). STATCOM on the Mexican Power Systems: Two Case Studies. In: Shahnia, F., Rajakaruna, S., Ghosh, A. (eds) Static Compensators (STATCOMs) in Power Systems. Power Systems. Springer, Singapore. https://doi.org/10.1007/978-981-287-281-4_19
Download citation
DOI: https://doi.org/10.1007/978-981-287-281-4_19
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-287-280-7
Online ISBN: 978-981-287-281-4
eBook Packages: EnergyEnergy (R0)