Búsqueda semi-exhaustiva de topologías en sistemas de potencia para mejorar condiciones de seguridad

Jesus Maria Lopez Lezama, Carlos Manuel Quintero, Nicolás Muñoz Galeano

Resumen


En este artículo se presenta un algoritmo orientado a mejorar las condiciones de seguridad de los sistemas de potencia. El algoritmo propuesto realiza una búsqueda semi-exhaustiva de posibles configuraciones de subestaciones con el objetivo de minimizar las sobrecargas presentadas ante contingencias simples (criterio N-1). Las modificaciones topológicas se hacen a través del cambio de los estados de los interruptores en las subestaciones. Se presentan resultados para el sistema IEEE de 118 barras que evidencian la efectividad del algoritmo propuesto.

This paper presents an algorithm oriented to improve the security conditions of electric power systems. The proposed algorithm performs a semi-exhaustive search of the possible configuration of the system substation with the objective of minimizing overloads presented in single contingencies (N-1 criterion). Topological modifications are made by changing the state of switches in substations. Results are presented for the IEEE 118 bus test system showing the effectiveness of the proposed algorithm.


Palabras clave


Sistemas de potencia, topología; flexibilidad; contingencias; seguridad.

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Referencias


Boonsuwan, K. y Hoonchareon, N. Transmission network reconfiguration algorithm considering short-circuit curtailment and voltage stability index, in ECTI-CON 2011 - 8th Electrical Engineering/ Electronics, Computer, Telecommunications and Information Technology (ECTI) Association of Thailand - Conference 2011, 2011.

Namchoat, S. y Hoonchareon, N. Optimal bus splitting for short-circuit current limitation in metropolitan area, in 2013 10th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, ECTI-CON 2013, 2013.

Yang, Z., Zhong, H., Xia, Q. y Kang, C. Optimal Transmission Switching with Short-Circuit Current Limitation Constraints, IEEE Trans. Power Syst., 31, 2, 1278–1288, 2016.

Amanulla, B., Chakrabarti, S. y Singh, S.N. Reconfiguration of power distribution systems considering reliability and power loss, IEEE Trans. Power Deliv., 27, 2, 918–926, 2012.

Rao, R.S., Ravindra, K., Satish, K. y Narasimham, S.V.L. Power Loss Minimization in Distribution System Using Network Reconfiguration in the Presence of Distributed Generation, IEEE Trans. Power Syst., 28, 1, 1–9, 2012.

Nguyen, T.T. y Truong, A.V. Distribution network reconfiguration for power loss minimization and voltage profile improvement using cuckoo search algorithm, Int. J. Electr. Power Energy Syst., 68, 233–242, 2015.

Mohamed, A., Imran, M. y Kowsalya, M. A new power system reconfiguration scheme for power loss minimization and voltage profile enhancement using Fireworks Algorithm, Int. J. Electr. Power Energy Syst., 62, 312–322, 2014.

Khanabadi, M., Ghasemi, H. y Doostizadeh, M. Optimal transmission switching considering voltage security and N-1 contingency analysis, IEEE Trans. Power Syst., 28, 1, 542–550, 2013.

Liu, C., Wang, J. y Ostrowski, J. Heuristic Prescreening Switchable Branches in Optimal Transmission Switching, IEEE Transactions on Power Systems, 27, 4. 2289–2290, 2012.

Fuller, J.D. Ramasra, R. y Cha, A. Fast Heuristics for Transmission-Line Switching, IEEE Transactions on Power Systems, 27, 3. 1377–1386, 2012.

Heidarifar, M., Doostizadeh, M. y Ghasemi, H. Optimal transmission reconfiguration through line switching and bus splitting, 2014 IEEE PES General Meeting | Conference & Exposition., 1–5, 2014.

Heidarifar, M. y Ghasemi, H. A Network Topology Optimization Model Based on Substation and Node-Breaker Modeling, IEEE Transactions on Power Systems, 31, 1. 247–255, 2016.

Bai, Y., Zhong, H. Xia, Q. y Kang, C. A Two-Level Approach to AC Optimal Transmission Switching with an Accelerating Technique, IEEE Trans. Power Syst., 1–1, 2016.

Soroush, M. y Fuller, J.D. Accuracies of Optimal Transmission Switching Heuristics Based on DCOPF and ACOPF, IEEE Transactions on Power Systems, 29, 2. 924–932, 2014.

Han J. y Papavasiliou, A. The Impacts of Transmission Topology Control on the European Electricity Network, IEEE Transactions on Power Systems, 31, 1. 496–507, 2016.

Nasrolahpour, E. y Ghasemi, H. A stochastic security constrained unit commitment model for reconfigurable networks with high wind power penetration, Electr. Power Syst. Res., 121, 341–350, 2015.

Correa, C.A., MarulandAlberto, G.A. y Panesso, A.F. Impacto de la penetración de la energía solar fotovoltaica en sistemas de distribución: estudio bajo supuestos del contexto colombiano, Rev. Tecnura., 20, 50, 85–95, 2016.

Korad, A.S. y Hedman, K.W. Robust Corrective Topology Control for System Reliability, IEEE Transactions on Power Systems, 28, 4, 4042–4051, 2013.

Zhang, C. y Wang, J. Optimal Transmission Switching Considering Probabilistic Reliability, IEEE Transactions on Power Systems, 29, 2, 974–975, 2014.

Demetriou, P. IEEE 118-bus modified test system, 2015. [Online]. Available: http://www.kios.ucy.ac.cy/testsystems/index.php/dynamic-ieee-test-systems/ieee-118-bus-modified-test-system.

Rich, C. 118 Bus Power Flow Test Case, 1993. [Online]. Available: https://www2.ee.washington.edu/research/pstca/pf118/pg_tca118bus.htm.




DOI: https://doi.org/10.33571/rpolitec.v15n29a2

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Revista Politécnica 
ISSN: 1900-2351 
ISSN: 2256-5353 (En línea)
DOI:  10.33571/rpolitec