Abstract
The power flow regulating circuit node in an alternating current system is reviewed. The circuit node is accomplished based on a thyristor controlled phase angle regulator (TCPAR) with controlled thyristor switch. Research results of the individual phase control of the output voltage for the TCPAR are presented. Analytical expressions for the overvoltage factor calculation in the thyristor switch circuit for open-phase operating modes are received. Based on evaluation of overvoltage in operational and emergency modes, the implementability conditions of the individual phase control of the output voltage are determined. Under these conditions, maximal performance and complete controllability are provided.
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References
A. P. Burman, Yu. K. Rozanov, and Yu. G. Shakaryan, Control of Electrical Energy Flows and Increasing of Effectiveness of Electroenergetic Systems (MEI, Moscow, 2012) [in Russian].
E. N. Sosnina, A. B. Loskutov, S. M. Dmitriev, A. I. Chivenkov, and A. A. Loskutov, “Experimental digital transformer substation with active-adaptive control system and automatic fluent control of voltage and power,” Promyshl. Energ., No. 12, 8–13 (2013).
V. N. Stel’makov, V. P. Zhmurov, and A. N. Tarasov, “Thyristor-controlled phase-shifting devices,” Russ. Electr. Eng. 85, 10–17 (2014).
V. N. Stel’makov, V. P. Zhmurov, A. N. Tarasov, B. I. Grinshtein, and E. V. Tuzlukova, “Thyristorcontrolled phase-shifting devices,” Energetik, No. 8, 20–23 (2010).
D. I. Panfilov, M. G. Astashev, P. A. Rashitov, and A. N. Rozhkov, “Analysis of control methods of alternating current thyristor bridge keys,” Izv. Ross. Akad. Nauk, Energ., No. 4, 148–159 (2014).
T. Remizevich and P. Rashitov, “Peculiarities of control of semiconducting phase-shifting devices with middle point,” Silov. Elektron., No. 1, 78–82 (2011).
M. G. Astashev, M. A. Novikov, D. I. Panfilov, M. I. Fedorova, and P. A. Rashitov, “Simplified analytical model for an open-phase operating mode research of a phase shifting device with a thyristor switch,” Izv. Ross. Akad. Nauk, Energ., No. 1, 91–104 (2015).
M. A. Novikov, P. A. Rashitov, T. V. Remizevich, and M. I. Fedorova, “Reserve thyristor number choice for powerfull semiconducting phase-shifting device according to results of reliability characteristic prognosis,” Elektrotekhnika, No. 12, 23–27 (2013).
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Original Russian Text © M.G. Astashev, M.A. Novikov, D.I. Panfilov, P.A. Rashitov, T.V. Remizevich, M.I. Fedorova, 2015, published in Izvestiya Rossiiskoi Akademii Nauk. Energetika.
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Astashev, M.G., Novikov, M.A., Panfilov, D.I. et al. Open-phase operating modes of power flow control topologies in a Smart Grid Distribution Network. Therm. Eng. 62, 938–945 (2015). https://doi.org/10.1134/S0040601515130042
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DOI: https://doi.org/10.1134/S0040601515130042