Integration of the interconnected power system (IPS) of Ukraine to the European Network Transmission System Operators for Electricity (ENTSO-E) requires an improvement of the automatic emergency control and harmonization with the load-frequency control according to the requirements of ENTSO-E. In order to investigate the frequency and active power control, it is necessary to develop the detailed s...Show More
In the southern part of Ukraine, the increasing of the installed capacity of the solar power plants (SPP) effects on load-frequency control in the interconnected power system (IPS) of Ukraine. In order to mitigate power flow fluctuations due to the stochastic generation of SPP, the local active power controller (LAPC) is proposed. LAPC generates a control signal to the units of the regulating powe...Show More
Future power systems are expected being operated under increasingly stressed conditions and increased uncertainties. The future single European electricity market will entail higher energy trading volumes, for which augmented use of HVDCs is expected to facilitate cross-border bulk power transfers. In traditional power systems a change in demand at one point of network is reflected throughout the ...Show More
The increasing of the installed capacity of the renewables in the southern areas of interconnected power system (IPS) of Ukraine in the future will effect load flow and frequency control. In order to simulate these processes the model of automatic generation control (AGC) of IPS of Ukraine has been developed. To adjust proposed AGC model the frequency characteristics of IPS of Ukraine have been de...Show More
