TY - GEN

T1 - Algorithm for Calculating the Water and Energy Mode of the Cascade of Hydroelectric Power Plants on the Basis of the Integrated Mathematical Model

T2 - 2023 Belarusian-Ural-Siberian Smart Energy Conference (BUSSEC)

AU - Sidorova, Alena

AU - Haljasmaa, Kristina

N1 - The research was carried out within the state assignment with the financial support of the Ministry of Science and Higher Education of the Russian Federation (subject No. FEUZ-2022-0030 Development of an intelligent multi-agent system for modeling deeply integrated technological.

PY - 2023

Y1 - 2023

N2 - The article discusses the compilation of an algorithm for calculating the water-energy mode of a hydroelectric power plant cascade from particular mathematical models, integrated into a single mathematical model to take into account the variability of external and internal factors, electrical and hydrological relations, and technological restrictions, imposed on the process of its functioning. Drawing up a capacious algorithm for an interconnected process between two cascade hydroelectric power plants is based on Boolean algebra and includes two main modules of particular mathematical models 'Electricity' and 'Water' in the calculation. Verification of the algorithm was carried out in Eurostag. The obtained results showed that the developed algorithm for calculating the water-energy mode of the HPP cascade has a negligible calculation error, relative to the mathematical calculation and allows to determine with high accuracy the main parameters of the hydro power plant cascade operation mode. It is necessary to provide the power system with the required power, taking into account not only the magnitude of the water flow through the reservoir, but also the mode of its operation over long periods of time. The algorithm takes into account the possibility of idle discharges, monitors and identifies the reference points of unacceptable deviations, correcting the calculation error at each step, necessary for it. This ensures an increase in the mode controllability of the process of generating electricity through the hydro power plant cascade. © 2023 IEEE.

AB - The article discusses the compilation of an algorithm for calculating the water-energy mode of a hydroelectric power plant cascade from particular mathematical models, integrated into a single mathematical model to take into account the variability of external and internal factors, electrical and hydrological relations, and technological restrictions, imposed on the process of its functioning. Drawing up a capacious algorithm for an interconnected process between two cascade hydroelectric power plants is based on Boolean algebra and includes two main modules of particular mathematical models 'Electricity' and 'Water' in the calculation. Verification of the algorithm was carried out in Eurostag. The obtained results showed that the developed algorithm for calculating the water-energy mode of the HPP cascade has a negligible calculation error, relative to the mathematical calculation and allows to determine with high accuracy the main parameters of the hydro power plant cascade operation mode. It is necessary to provide the power system with the required power, taking into account not only the magnitude of the water flow through the reservoir, but also the mode of its operation over long periods of time. The algorithm takes into account the possibility of idle discharges, monitors and identifies the reference points of unacceptable deviations, correcting the calculation error at each step, necessary for it. This ensures an increase in the mode controllability of the process of generating electricity through the hydro power plant cascade. © 2023 IEEE.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85178061450

U2 - 10.1109/BUSSEC59406.2023.10296379

DO - 10.1109/BUSSEC59406.2023.10296379

M3 - Conference contribution

SN - 979-835035807-0

SP - 121

EP - 126

BT - Proceedings of the 2023 Belarusian-Ural-Siberian Smart Energy Conference, BUSSEC 2023

PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 25 September 2023 through 29 September 2023

ER -