H. Trunina scite author profile

H. Trunina

3Publications

1Citation Statement Received

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Determining the Reserve Capacity of Thermal and Hydroelectric Power Stations for Frequency and Power Flows Regulation in Isp of Ukraine

Yandulskyy¹,

Нестерко²,

Trunina³

2020

Teh. elektrodin.

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The problem of proper quality of primary and secondary frequency and power flows regulation in IPS of Ukraine is considered in the context of an increase in the share of renewable energy sources in the energy balance of the IPS of Ukraine. An approach and criteria have been developed for determining the optimum value from the technological point of view and the allocation of power reserves in the Ukrainian Interconnected Energy System on reconstructed and non-reconstructed units/aggregates of thermal power plants and hydroelectric power stations. Based on the results of IPS regimes simulation modeling in cases of sudden, likely by criterion N-1, imbalances of active power, a list and the need to attract non-reconstructed units/aggregates of power plants to primary and secondary load-frequency regulation is determined. References 10, table 1.

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Control of Photovoltaic and Wind Power Plant With Electricity Storage Operation in Distribution Electrical Network

Yandulskyy¹,

Trunina²,

Nastenko³

et al. 2019

Visnyk KrNU

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Load Balancing in Distribution Networks With Micro-Synchrophasors

Yandulskyy¹,

Trunina²,

Nastenko³

et al. 2021

Transactions of KrNU

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Purpose. The article discusses new strategies for controlling distribution networks with different, active components using synchronized measurements of voltage and current phase values (magnitude and phase angle) based on the use of high precision micro-synchrophasors (uPMUs), which are adapted to work in distribution networks. Particular attention in the article is focused on the problem of mislabeling of phases and load balancing of distribution network feeders. Methodology. Elements of the optimization theory and matrix calculation were used to develop optimization criteria for initial load balancing problem and minimum switching load balancing problem. Results. The article considers approaches to solving problems arising in distribution power grids under conditions of growth of distributed generation levels. The factors leading to increased uncertainty in forecasting distribution network modes that complicate the tasks of power equipment diagnostics, network topology identification, state assessment and fault location are established. Problems of incorrect phase marking and load symmetry of distribution network feeders are analyzed in detail. Authors proposed an approach to phase identification and feeder load symmetry using micro-synchrophasor data (uPMU) based on the analysis of voltage measurements. The proposed approach is based on comparing the measurements made at the beginning of the feeder with the measurements made in other locations of the feeder considering the constant phase angle shifts of voltage multiples of 30 degrees, which are caused by the phase shift of transformers. The peculiarity of the proposed approach is the ability to solve the problem of phase marking and phase identification using the measuring bodies of uPMUs with accuracy within 1 degree. As a result, based on the information about the actual phase markings, the authors proposed an approach to feeder load symmetry, which is based on solving the optimization problem. The optimization criterion is the minimum by the sum of the norms of the vector of the feeder phase loads for a certain period of time. This article investigates an approach to phase identification in three-phase distribution networks based on the analysis of micro-synchrophasor measurements (uPMU). The proposed approach is based on direct voltage measurements at different feeder locations, taking into account the fact that in an unbalanced three-phase system the time series voltage values at the two ends of one phase should have a much stronger correlation than at the two ends of different phases. This feature makes it possible to solve the problem of marking and identification of phases when using uPMU measuring bodies with accuracy within 1 degree. The proposed approach takes into account, in multiples of 30 degrees, the phase shift due to the presence of D-Y transformers. The proposed approaches will be investigated when creating a monitoring system for electric distribution networks using uPMUs at the pilot site of the Igor Sikorsky KPI campus and elsewhere in cooperation with network operators. Originality. In contrast to the known methods and approaches to the phase identification, proposed method using direct measurements of three phase voltages and thus obtained results do not contain uncertainty. Practical value. Solving the phase marking problem also reduces the number of errors in power equipment diagnostics, network topology identification, condition assessment and fault location. References 11, figures 4.

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H. Trunina

Determining the Reserve Capacity of Thermal and Hydroelectric Power Stations for Frequency and Power Flows Regulation in Isp of Ukraine

Control of Photovoltaic and Wind Power Plant With Electricity Storage Operation in Distribution Electrical Network

Load Balancing in Distribution Networks With Micro-Synchrophasors

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