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Full compensation of reactive power in electric networks 0.4-10kV

S A Nazarychev, Azat Akhmetshin, С. О. Гапоненко

2020Journal of Physics Conference Series20 citationsDOIOpen Access PDF

Abstract

Abstract The most important task in electric networks is to reduce energy losses. According to Network Company, in distribution electric networks with a voltage of 0.4-10 kV, they account for 62% of the total number of losses. One way to save energy is reactive power compensation. From Order of the Ministry of Energy of the Russian Federation dated June 23, 2015 No. 380 “On the Procedure for Calculation of the Ratio of Consumption of Active and Reactive Power for Individual Energy Receiving Devices (Groups of Energy Receiving Devices) of Electric Power Consumers” at a voltage of 0.4 kV, the reactive power coefficient should not exceed the value 0.35, and on the side of 10 kV - values of 0.4. In practice, in distribution electric networks, reactive power compensation devices are not installed in most cases, and the reactive power factor is 2-3 times higher than the standard values. Since compensating devices are expensive equipment, it is necessary to evaluate the feasibility of deep reactive power compensation, in the range of reactive power factor changes from its standard value to zero. The article discusses the economic and technical feasibility of deep reactive power compensation. The use of a generalized parameter of the electric network for determining the voltage at substations of distribution electric networks is proposed. The need for the coordinated use of reactive power compensation devices and booster transformers to ensure the quality of electricity is shown.

Topics & Concepts

AC powerPower factorElectric powerVolt-ampere reactiveVoltage optimisationElectrical engineeringCompensation (psychology)VoltageTransformerElectricityElectric power qualityComputer scienceEngineeringPower (physics)PhysicsPower qualityQuantum mechanicsPsychoanalysisPsychologyIndustrial Engineering and TechnologiesUnderground infrastructure and sustainabilityElectric Power Systems and Control