PRIMARNA I SEKUNDARNA KONTROLA ZA KOMPENZACIJU NESIMETRIJE NAPONA ZAJEDNIČKE SABIRNICE SADEJSTVOM PRETVARAČA U MIKROMREŽI
Ključne reči:
Energetski pretvarači, hijerarhijska arhitektura, centralizovana sekundarna kontrola, kompenzacija neuravnoteženosti napona, mikromreže
Apstrakt
Ovaj rad predstavlja metodu kompenzacije nesimetrije napona zajedničke sabirnice sadejstvom pretvarača energetske elektronike u mikromreži koja radi u ostvrskom režimu. Prikazan je simulacioni model mikromreže sa hijerarhijskom arhitekturom upravljanja, njen rad kada se priključi neuravnotežen potrošač a zatim i dejstvo sekundarne kontrole.
Reference
[1] Guchhait, R., Sarkar, B., Increasing Growth of Renewable Energy: A State of Art. Energies 2023, 16, 2665.
[2] Ghosh, A., Zare, F., Control of Power Electronic Converters with Microgrid Applications. Hoboken, New Jersey: Wiley, 2023.
[3] Lyu Z, Wei Q, Zhang Y, Zhao J, Manla E. Adaptive Virtual Impedance Droop Control Based on Consensus Control of Reactive Current. Energies. 2018; 11(7):1801.
[4] Savaghebi, M., Alireza, J., Juan Carlos, V., Josep M., G., Secondary Control Scheme for Voltage Unbalance Compensation in an Islanded Droop-Controlled Microgrid, IEEE Transactions on Smart Grid, vol 3, no. 2, Jun. 2012.
[5] ANSI C84.1-2020, American National Standard for Electric Power Systems and Equipment—Voltage Ratings (60 Hz)
[6] IEC 60034-26, Rotating electrical machines - Part 26: Effects of unbalanced voltages on the performance of three-phase cage induction motors
[7] J. He and Y. W. Li, An enhanced microgrid load demand sharing strategy, IEEE Trans. Power Electron., vol. 27, pp. 3984–3995, Sept. 2012.
[2] Ghosh, A., Zare, F., Control of Power Electronic Converters with Microgrid Applications. Hoboken, New Jersey: Wiley, 2023.
[3] Lyu Z, Wei Q, Zhang Y, Zhao J, Manla E. Adaptive Virtual Impedance Droop Control Based on Consensus Control of Reactive Current. Energies. 2018; 11(7):1801.
[4] Savaghebi, M., Alireza, J., Juan Carlos, V., Josep M., G., Secondary Control Scheme for Voltage Unbalance Compensation in an Islanded Droop-Controlled Microgrid, IEEE Transactions on Smart Grid, vol 3, no. 2, Jun. 2012.
[5] ANSI C84.1-2020, American National Standard for Electric Power Systems and Equipment—Voltage Ratings (60 Hz)
[6] IEC 60034-26, Rotating electrical machines - Part 26: Effects of unbalanced voltages on the performance of three-phase cage induction motors
[7] J. He and Y. W. Li, An enhanced microgrid load demand sharing strategy, IEEE Trans. Power Electron., vol. 27, pp. 3984–3995, Sept. 2012.
Objavljeno
2024-11-06
Sekcija
Elektrotehničko i računarsko inženjerstvo
