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Publikācija: A Model for Maximizing the Profit of a HPP Cascade Considering Hydraulic Link via Reservoirs

Publication Type Full-text conference paper published in conference proceedings indexed in SCOPUS or WOS database
Funding for basic activity Unknown
Defending: ,
Publication language English (en)
Title in original language A Model for Maximizing the Profit of a HPP Cascade Considering Hydraulic Link via Reservoirs
Field of research 2. Engineering and technology
Sub-field of research 2.2 Electrical engineering, Electronic engineering, Information and communication engineering
Authors Anatolijs Mahņitko
Jānis Gerhards
Tatjana Lomane
Renāta Varfolomejeva
Vladislav Oboskalov
Keywords HPP cascade, regime, capacity, head level, time flow lag of water
Abstract At the conditions of market relationships and economic and financial independence of power company (GENCO), these are guided by the principle of achieving maximum efficiency in their actions. For a hypothetical cascade of hydropower plants (HPPs) consisting of three HPPs, a problem formulation aimed at optimum loading of each individual HPP is used, ensuring maximum profit for the whole cascade from the sales of the generated electric power at the day-ahead market. The structural diagram of a problem solution algorithm is presented, which uses the method of statistical modeling. The results of the modeling of cascade operating regime are illustrated graphically. The results have been used to calculate the summary profit of the HPP cascade. The structural diagram of the algorithm can be basically used for an arbitrary mix of HPPs in the cascade, with a weekly regulation cycle.
Hyperlink: http://eeeic.eu/ 
Reference Mahņitko, A., Gerhards, J., Lomane, T., Varfolomejeva, R., Oboskalov, V. A Model for Maximizing the Profit of a HPP Cascade Considering Hydraulic Link via Reservoirs. In: 2016 IEEE International Conference on Environment and Electrical Engineering (EEEIC 2016): Conference Proceedings, Italy, Florence, 7-10 June, 2016. Florence: Sapienza University of Rome, University of Florence, Wroclaw University of Science and Technology, 2016, pp.1071-1075. ISBN 978-1-5090-2319-6.
Additional information Citation count:
  • Scopus  0
ID 22517