RU2237334C2 - Method for enhancing quality of electric energy - Google Patents

Abstract

FIELD: electric power production, namely processes for enhancing quality of electric energy in power supply systems, possibly in power supply systems of electrified railway roads.

SUBSTANCE: method comprises steps of separating out of supply voltage higher harmonics and first harmonic determined by voltage of zero order; formation of constant voltage out of it and conversion of it to voltage of basic harmonic of network and returning it to network. It lowers asymmetry voltage of network and electric power consumption.

EFFECT: enhanced quality, less losses of electric energy in electric power supply systems.

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Description

The invention relates to the electric power industry and can be used to improve the quality of electric energy in power supply systems, including power supply systems of electrified railways.

The appearance in the network of asymmetric and non-linear load leads to a deterioration in the quality of electric energy in power supply systems, determined by the voltage asymmetry coefficient of the zero sequence K _ou and the coefficient of non-sinusoidality K _u (GOST 13109-97). Reducing these indicators is an urgent task.

There is a method of improving the quality of electrical energy, which consists in lowering the level of higher harmonics and decreasing the voltage of the asymmetry of the network, for this they set up a serial circuit to resonate the voltage at the 3rd harmonic and include the circuit in the network (see Markvart K.G. Power supply of electrified railways. -M.: Transport, 1982, p. 249-251).

Closest to the claimed is a method of improving the quality of electric energy, which consists in lowering the level of higher harmonics and decreasing the voltage of the asymmetry of the network by adjusting two groups of consecutive circuits to the voltage resonance at the 5th and 7th harmonics and include these groups of circuits in the network (see Zhezhelenko IV and others. The quality of electric energy in industrial enterprises. - Kiev: Technics, 1981, p.134-135).

The main disadvantages of this method is that with small loads in the connection points of the circuits the network voltage increases up to unacceptable values, and also that the decrease in the amplitudes of the higher harmonics is due to the increase in active losses in the network due to the sharp increase in current at those harmonics for resonance, which are configured in series circuits (the resistance for these circuits decreases sharply, becoming purely active), and the electric energy due to higher harmonics irretrievably loses Xia.

The technical result of the proposed method is to improve the quality of electric energy, while the voltage in the network in the case of small loads does not increase and active losses from higher harmonics are sharply reduced.

This is achieved by the fact that in the method of improving the quality of electric energy, which consists in decreasing the amplitudes of the voltage harmonics and decreasing the asymmetry voltage, higher voltage harmonics are isolated from the voltage of the electric network, as well as the first harmonic, determined by the asymmetry voltage, the selected voltage harmonics are rectified, and the rectified voltage is converted to alternating voltage with a frequency equal to the frequency of the first harmonic of the network, and return the alternating voltage to the electrical network.

The inventive method allows to eliminate the main disadvantages inherent in the known method, namely, under low load conditions, the voltage will not increase, since the magnitudes of the amplitudes of the higher harmonics and the asymmetry voltage are insignificant and they will not be rectified (operation of the rectifier valves in the initial sections), or a constant voltage will a little in the “dead zone” of the converter and will not be converted to variable. In the known method, the amplitudes of the higher harmonics are reduced by creating their drain circuits to the ground, while their energy is irretrievably lost in the form of joule losses in the network wires, reactor, capacitor bank and earth. In the inventive method, due to the separation of higher harmonics and the first harmonic, determined by the asymmetry of the circuit, rectifying them and converting them from constant to alternating voltage and including this voltage into the network, a significant part of the energy of the above harmonics will be returned to the network.

Figure 1 shows a diagram of one of the devices that implements the inventive method.

1 and 2, respectively, leading and lagging phases, 3 - rail track, 4 - transformer, the primary winding of which is connected to a star, the secondary winding into an open triangle, 5 - rectifier, 6, 7 - inverters, respectively, driven by the leading and lagging phases, 8, 9 - single-phase transformers.

The method is as follows. In the absence of load in the contact network at the output of the transformer 4, rectifier 5, inverters 6 and 7, there is no voltage, thereby in idle mode the voltage of the contact network does not increase (in the known method, the voltage increases). In the case of a load in phases 1 and 2, and this load, as a rule, is asymmetric and non-sinusoidal (due to the non-linear nature), this leads to an asymmetric component of the zero sequence and higher harmonics appearing in the voltage of the contact network, then the output transformer 4 appears the voltage of the first harmonic, the amplitude of which is determined by the zero harmonic of the voltage of the asymmetry of the contact network, as well as all the higher harmonics that are multiples of the third, this voltage is rectified by the rectifier 5 is constantly converted voltage applied to the inputs of inverters 6, 7, via which the DC voltage is converted to a sinusoidal power frequency and returns to phase 1 and 2 in the form of energy of the fundamental harmonic through a single-phase transformers 8 and 9.

Modeling of the method was carried out according to the scheme of figure 2, where 10, 11, 12 are the phases of the network, 13 is an asymmetric regulated section of the network, 14 is a nonlinear adjustable load (for example, a 3-phase rectifier according to the Larionov scheme, a DC motor with an adjustable torque on the shaft ), 15 - 3-phase transformer with primary windings connected to a star, and secondary to an open triangle, 16 - bridge rectifier, 17 - inverter, 18 - adjustable load, 19 - analyzer of characteristics of power consumption and meter of quality parameters of electric energy and AR.5M, 20 - wattmeter, 21 - switch.

The simulation results of the method gave the following parameters: when the switch 21 was turned off, the maximum asymmetry and non-linearity of the model, the parameters of the electric energy quality were: K _ou = 3.65%, K _u = 18.2%, tqφ = 1.02, when the switch 21 was turned on: K _ou = 0.02%, K _u = 1.79%, tqφ = 0.13, power at load 18 was ~ 17% of the power consumption of 13 and 14, which allowed us to conclude that when implementing the proposed method increases the quality of electrical energy and provides energy savings.

The inventive method can be implemented based on the use of known units in the contact network of electrified railways, as well as in power supply schemes of industrial enterprises.

Claims (1)

A way to improve the quality of electrical energy, which consists in reducing the amplitudes of the voltage harmonics and reducing the asymmetry voltage, characterized in that higher voltage harmonics are isolated from the voltage of the electric network, as well as the first harmonic, determined by the asymmetry voltage, the selected voltage harmonics are rectified, and the rectified voltage is converted using inverters driven by the leading and lagging phases of the network with the load, in sinusoidal voltages with a frequency equal to the frequency of the first harmonic of the network, decree These voltages are returned to the corresponding phases of the network in the form of the fundamental energy through the corresponding single-phase transformers.

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