Modeling of transient states in the start-up path during voltage and start-up power application

• Autorzy: Grządzielski Ireneusz , Olejnik Bartosz , Zakrzewski Mikołaj

Identyfikatory

DOI

0.24425/aee.2019.130681

• Języki publikacji: EN

Abstrakty

EN

During a blackout, after the post-disaster collapse of an electric power system (EPS), units of thermal power plants should switch-over to the house load operation mode (PPW). However, regarding the dynamics of a post-disaster blackout process, many units can be in forced outage Therefore, restart of these units from the start-up sources with a self-start capability is necessary. The Transmission Network Code in force imposes periodic tests and system tests for such sources. Any system test must be preceded and followed by simulation investigations in which the possibilities: (1) to bring voltage to the started-up power plant by a starting path and (2) to activate the highest-power auxiliaries (PW) of the unit being started-up are evaluated. In the paper, chosen results of simulative investigations of the transient phenomena in the starting path from the hydroelectric power plant of Włocławek (HPP Włocławek) to the thermal power plant of Pątnów (w (TPP Pątnów), related to the system test conducted in September 2017 have been presented.

Słowa kluczowe

EN

blackout; electric power system; restoration power

• Wydawca: Polish Academy of Sciences, Committee on Electrical Engineering
• Czasopismo: Archives of Electrical Engineering
• Rocznik: 2019
• Tom: Vol. 68, nr 4
• Strony: 749--769
• Opis fizyczny: Bibliogr. 7 poz., rys., tab., wz.

Twórcy

autor

Grządzielski Ireneusz

• Pracownia Badań i Analiz Technicznych I. Grządzielski s.j., Poland

autor

Olejnik Bartosz

• Institute of Electric Power Engineerging, Poznań University of Technology Piotrowo 3A, 60-965 Poznań, Poland

autor

Zakrzewski Mikołaj

• Pracownia Badań i Analiz Technicznych I. Grządzielski s.j., Poland

Bibliografia

• [1] Commission Regulation (EU) 2017/2196 of 24 November 2017 establishing a network code on electricity emergency and restoration, Official Journal of the European Union, L312/54-L312/85 (2017).
• [2] Instruction of the Transmission System Operation and Maintenance – Conditions of network use, operation, maintenance and development (in Polish), approved by the President of the Energy Regulatory Office on December 15, 2011, effective since December 1 (2017).
• [3] Manual – Manitoba HVDC Research Centre, PSCAD v.4.2.1., Winnipeg, Manitoba, Canada (2017).
• [4] Kaczmarek M., Kurzyński A., Surlej M., Brzozowski M., Durlak W., Suszka Z., ZasadaW., Komarzyniec M., Pasiut G., A system test of starting a heat block from the Włocławek Hydro Power Station in the Pątnów Power Plant, Monografia (in Polish), Blackout a Krajowy System Elektroenergetyczny, Poznań (2018).
• [5] Kaczmarek M., Komarzyniec M., Kurzyński A., Surlej M., Report no. EE/ES8/18/17 from the systemic trial of commissioning from the EW Włocławek block in El. Pątnów, Part 1B, (descriptive part – in Polish), ZP-BE Energopomiar Elektryka Sp. z o.o., Gliwice (2017).
• [6] Kaczmarek M., Kurzyński A., Surlej M., Gąszczak B., Report no. EE/ES8/18/17 from the systemic trial of commissioning from the EW Włocławek block in El. Pątnów. Part 1B, (graphic part – in Polish). ZP-BE Energopomiar Elektryka Sp. z o.o., Gliwice (2017).
• [7] Grządzielski I., Zakrzewski M., Report no. EE/ES8/18/17 from the systemic trial of commissioning from the EW Włocławek block in El. Pątnów. Part 1B, (analysis of mathematical models – in Polish), PBiAT Pracownia Badań i Analiz Technicznych, Poznań (2017).

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).