Keywords
diesel generators
primary fuel consumption
photovoltaic system локальні ринки електроенергії
дизель-генератори
витрати первинного палива
сонячні електричні установки
How to Cite
Abstract
Local energy markets represent a separate distribution system with several sources of distributed generation and with its own network-independent operator. The cost of electricity in local systems depends on many criteria. They include the consumption of primary fuel for diesel generators, which depend on their capacity. Equal distribution of power on generators running in parallel leads to an increase in primary fuel consumption. An algorithm for optimizing fuel consumption, which calculates the power distribution of generators connected in parallel, has been developed. These capacities correspond to the minimum value of fuel consumption. The system using three diesel generators and the option of replacing one generator with a solar electric installation was considered. The use of the optimal algorithm allows for reducing the price by an average of 9 to 20% if compared to the uniform distribution. The introduction of a photovoltaic system with a rechargeable battery allowed to increase energy efficiency and reduce the price due to lower running costs of the solar installation. References 10, figures 3, tables 1.
References
Dudjak V., Neves D., Alskaif T., Khadem S., Pena-Bello A., Saggese P., Bowler B., Andoni M., Bertolini M., Zhou Yue, Lormeteau B., Mustafa A. Mustafa, Wang Yingjie, Francis Ch., Zobiri F., Parra D., Papaemmanouil A. Impact of Local Energy Markets Integration in Power Systems Layer: A Comprehensive Review. Applied Energy. 2021. Vol. 301. Pp. 117-434. DOI: https://doi.org/10.1016/j.apenergy.2021.117434.
Honarmand M.E., Hosseinnezhad V., Hayes B., Siano P. Local Energy Trading in Future Distribution Systems. Energies. 2021. Vol. 14(11): 3110. DOI: https://doi.org/10.3390/en14113110.
Directive (EU) 2018/2002 of the European Parliament and of the Council of 11 December 2018 amending Directive 2012/27/EU on energy efficiency. Official Journal of the European Union. 2018. Pp. L 328/210 – L 328/230.
Kyrylenko O.V., Basok B.I., Baseyev Ye.T., Blinov I.V. Power industry of Ukraine and realities of the global warming. Tekhnichna Electrodynamika. 2020. No 3. Рр. 52-61. (Ukr). DOI: https://doi.org/10.15407/techned2020.03.052
Zhuikov V.Y., Boiko I.Y., Denysiuk S.P. Model of dynamic tariffing Microgrid's electricity consumption in local energy markets. Science and Education a New Dimension. Hungary, 2021. Vol. IX (31). Issue 250. Pp. 46-49. DOI: https://doi.org/10.31174/SEND-NT2021-250IX31-11
Blinov I.V., Parus E.V. Congestion management and minimization of price difference between coupled electricity markets. Tekhnichna Electrodynamika. 2015. No 5. Pp. 81-88. (Ukr)
Ivanov H.A., Blinov I.V., Parus Ye.V., Miroshnyk V.O. Components of model for analysis of influence of renewables on the electricity market price in Ukraine. Tekhnichna Electrodynamika. 2020. No 4. Pp. 72-75. (Ukr). DOI: https://doi.org/10.15407/techned2020.04.072.
Rehman S. Hybrid Power Systems – Sizes, Efficiencies, and Economics. Energy Exploration & Exploitation. 2021. Vol. 39. No 1. Pp. 3-43. DOI: https://doi.org/10.1177/0144598720965022
Rehman S., Natrajan N., Mohandes M., Alhems L.M., Himri Y., Allouhi A. Feasibility Study of Hybrid Power Systems for Remote Dwellings in Tamil Nadu. IEEE Access. 2022. Vol. 8. Pp. 143881-143890. DOI: https://doi.org/10.1109/ACCESS.2020.3014164
IRENA. Renewable Power Generation Costs in 2020. URL: https://www.irena.org/publications/2021/Jun/Renewable-Power-Costs-in-2020 (accessed at 05.05.2022).
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