UA24524U - Combined device for limiting of parameters of electromagnetic and capacitive processes in electrical circuits - Google Patents

Abstract

A combined device for limiting parameters of electromagnetic and capacitive processes in electrical circuits consists of static capacitors batteries and a discharge block connected in parallel to power source. Static capacitors batteries are connected with help of individual switching devices. One battery is connected as star-connected circuit in the presence of the switching device at the neutral available for connection, the second one - in accordance with delta connection. In parallel to above said capacitors it is connected a power transformer with help of individual switching device. The primary and secondary transformer winding have the equal voltage. The windings are connected as star circuit with derived neutral conductor and open-delta circuit, accordingly. An adjustable inductance with switch is connected to neutral of the primary with its high-voltage input, with its low-voltage output - to the ground loop having at the same time open-circuit terminations of the secondary winding are shunted.

Description

Description of the invention

The useful model refers to the field of electrical engineering, namely to the protection of the insulation of batteries of static 2 capacitors (BSK), and therefore of all electrical equipment, from phase and linear internal overvoltages, ferroresonance phenomena and switching processes in high-voltage, distribution and industrial, as well as low-voltage networks power systems and metallurgical enterprises, including protection against thermal and dynamic effects at increased and shock currents of dangerous values, accompanied by transient, oscillating and resonant processes at non-symmetrical and incomplete phase modes of operation of arc 70 steel-smelting (DSP) and ore-thermal (RTP) furnaces.

Known "Device for protection of a capacitor bank connected according to the "star" circuit from overvoltages" | 1II, which is taken as an analogue and contains a BSK connected according to the "star" scheme to the main switching apparatus, as well as a discharge unit (RB), made in the form of three-phase windings of a power transformer, located on a three-phase magnetic circuit with a regulated magnetic flux, and auxiliary switching device 12, which is connected to the bus power supply system, and the neutrals of the BSK and RB are connected by a zero switching device, and an arc extinguishing device is connected to the neutral of the RB.

The positive factors of the device are the limitation of inrush currents and switching processes when connecting and disconnecting the BSK by the main switching device due to the preliminary connection in both cases of the shunting RB by the auxiliary switching device with the possibility of certain compensation of the arising capacitive currents of the earth fault with the help of an unregulated inductance.

With regard to metallurgical enterprises, the disadvantages of the device for chipboard and RTP cable feeders are overvoltages on undamaged phases and in the network neutral during arcing of a phase to the ground, ferroresonance phenomena in insulation control voltage transformers (HV) with a grounded neutral of high-voltage windings and switching processes during disconnections of damaged areas network

In addition, it is necessary to note the presence of unacceptable transient and oscillatory processes in the specified pt) networks during individual switching of parallel BSK for the purpose of possible regulation of reactive power currents.

It is known "A device for protection against damage to a capacitor battery connected according to the scheme of a double "star" 2, which is accepted as a prototype and contains a parallel and direct connection of the specified BSK to an individual flexible connection, which is connected to the power system through the main switching device bus, s and in parallel with the capacitors to the specified connection is connected through the auxiliary switching device RB in the form of a three-phase inductive resistance connected according to the "star" scheme with the presence of active resistances connected in series in each phase, and the neutrals of the BSK and RB are connected electrically neutral bus and isolated from the ground. 3o The positive factors of the device are more effective limitation of shock currents and switching processes when connecting and disconnecting parallel BSK by the main switching device to the bus power supply system due to the preliminary connection to the indicated flexible connection of the RB by the auxiliary switching device followed by its automatic shutdown after failure of switching devices by the main switching device, as well as eliminating the need to select switching devices with a rated current that exceeds the total current of the BSK. c In addition, it is advisable to note the decrease in the magnitude and time of the effects of transient and fluctuating processes during

With" and after switching, respectively, by a common switching apparatus of parallel BSK.

The remaining disadvantages of the device are arc overvoltages during single-phase short-circuits, ferroresonance phenomena in insulation control voltage transformers and switching processes characteristic of isolated neutrals 42 BSK and RB, with the presence of transient and oscillatory processes in asymmetric or incomplete phase modes about the operation of DSP and RTP, especially in the initial period of melting of the charge. "" The problems of limiting the received and transmitted reactive power in the presence of only an unregulated BSK with unacceptable deviations of the parameters of the quality of electric energy (EEE) in the part of high-frequency oscillations, deviations, asymmetry and non-sinusoidality of not only voltages, but also currents of ka 20 have not been solved to the technological modes of operation of DSP and RTP in the presence of emerging resonance phenomena between the connected total capacitances of cables with connected BSK and inductances of power windings

T" of transformers, taking into account changing electromagnetic and capacitive processes, which ultimately lead to increased electrical losses during transportation and use of electrical energy.

The useful model is based on the tasks of increasing the reliability of the operation of the existing high-voltage and 25 low-voltage electrical equipment of metallurgical enterprises based on the elimination or limitation of the flaws specified in the prototype to safe values, as well as ensuring electromagnetic and capacitive compatibility, taking into account the storage of existing static and dynamic resistances between networks of high and low voltage not only in normal, but also emergency modes.

A comprehensive solution to these problems is achieved by the fact that when the BSK is connected in parallel by individual 60 switching devices, one of which is connected according to the "star" scheme with the presence of a grounding switching device in the output neutral, and the other is connected according to the "delta" scheme, they are provided simultaneously phase and linear capacitive compensations of corresponding inductive loads, mainly powerful sectional and furnace transformers, including motors of rolling mills operating in synchronous modes.

In addition, an inductive RB is connected in parallel with the specified BSK by an individual switching device, because it contains a power transformer with a power corresponding to the total power of the BSK, in which the primary and secondary windings have the same voltage in magnitude, connected according to the "star" scheme with the output neutral wire and the open "delta", respectively, and the adjustable inductance (RI) is connected by a high-voltage input to the neutral of the primary winding, and a low-voltage output to the ground circuit with simultaneous / shunting of the open outputs of the secondary winding, which ensures not only electromagnetic, but also direct electrical connections between windings, and therefore capacitive connections between them and connected BSK when high-frequency voltages occur, even only standard frequencies of 3, 5, 7, 11, 13 harmonics.

The claimed device is explained by the following description and diagram. According to the useful model, the combined device for limiting the parameters of electromagnetic and capacitive processes in electrical networks contains: 7/0 the main bus system 1, from which voltage is supplied to the individual section C through the disconnector 2; the capacitor battery 4, which is connected according to the "star" scheme with the removed neutral and is connected to the section through the switching device 5 and the disconnector b, and the switching device 7 is connected between the neutral and the grounding circuit; capacitor battery 8, connected according to the "delta" scheme and connected to the section through the switching device 9 and the disconnector 10; inductive discharge unit containing a power transformer with /5 primary 11 and secondary 12 windings of the same voltage, connected according to the "star" scheme with the removed neutral wire and the open "delta", respectively, which is connected to the section through the switching device 13 and connector 14; adjustable inductance 15 with a switch, connected by a high-voltage input to the neutral of the primary winding, and a low-voltage output to the ground circuit with simultaneous shunting of the open terminals of the secondary winding.

The main effectiveness of the proposed combined device in relation to high-voltage and low-voltage networks of metallurgical enterprises with the presence of the most difficult technological modes of chipboard,

The advantage of RTP and rolling mills is that it eliminates the need for expensive, insufficiently efficient and technically unreliable current compensators of reactive power (RCRP), as well as eliminates the regulatory and constructive expediency of BSK installations at low voltage between furnace transformers and the specified furnaces.

Further, it is appropriate to note that the SCRP device works only in combination in the modes of compensation of standard t frequencies of 3, 5, 7, 11, 13 harmonics, each of which is compensated by series-connected capacitors and inductances of the corresponding values, which are connected by individual switching devices between the phases and the ground circuit, and the sequence of connection or disconnection is carried out in the order of increasing or decreasing specified frequencies, and in case of violation of these frequency switching, neighboring capacitors are damaged as a result of resonant overvoltages of unacceptable values, although with changing technological modes there is no need to constantly use the entire list of compensating devices, which leads (MU to unjustified additional electrical losses.

As for the parallel modes of operation of individual BSK and non-regulated BSK, their " c5 use in switching on or off modes only partially contributes to the corresponding reduction of output or c consumption of reactive power, respectively.

But even with possible mutual switching options of these devices, i.e. with their simultaneous or individual connections and disconnections, only four modes of their work are practically implemented, which is not enough. "

This leads to fines from the Energy Supervision Agency for consumption, and even worse, the release of reactive power from not only the distribution, but also the main electrical networks of energy systems.

The proposed device provides modes of both individual and combined BSK connections at ;" absence or presence of RB with adjustable inductance, and taking into account the isolated or grounded neutral of the BSK, connected according to the "star" scheme, and the possible expediency of complete shutdown of the protective device, eight main options are provided with the presence of 28 possible modes, clearly shown in the table. with "plus" or "minus" signs indicating the enabled or disabled states of the elements. with and and the regimes of novossnristva to her. in y» ro KvyaDdNnenNYa and soyu zhi ori! well - |. 000) aero Dosvnninn

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When the device is operating in combined mode with the presence of a grounded neutral BSK, which is connected according to the "star" scheme? in general, arc overvoltages during single-phase short circuits, ferroresonance phenomena in insulation control voltage transformers and switching processes when disconnecting damaged sections of electrical networks are excluded, with the simultaneous elimination of transient and oscillating processes, and therefore ensuring the necessary quality of electric energy not only in case of changing technological modes of metallurgical furnaces, but and in case of possible violations of technological processes.

The combined operation of the device in the presence of the isolated neutral of the specified BSK contributes to the increase of the capacity of the power supply network, and therefore to the reduction of asymmetry and especially incomplete phase modes during the melting of the charge in the specified furnaces, and therefore to the exclusion of the occurrence of the specified resonance phenomena and the reduction of the values of reactive power currents between sources and consumers of electrical energy.

On the basis of providing a combined device of complex interaction between electromagnetic, electric and capacitive high-frequency processes, the static and dynamic stability of the specified networks is increased with the simultaneous provision of dynamic stability of power transformers, and therefore the necessary reliability of the operation of the existing electrotechnical equipment is ensured, even with an overdue period of its operation.

In connection with the above positive factors of the developed combined device, an effective reduction of electrical losses is ensured due to an increase in the resulting level of energy saving in the networks of metallurgical enterprises.

From the point of view of the economic efficiency of manufacturing, as well as the installation of the specified combined device, it is an order of magnitude cheaper in comparison with the manufacture of a multi-element structure of the SCRP.

Based on the above, it is appropriate to conclude that the technical solution, which is declared, meets the criterion "Industrial use".

Sources of information: 1. Author's certificate of the former USSR Mo922946; H 02 H 7/16; 1980. 2. Author's certificate of the former USSR Mo1010693; H 02 H 7/16; 1980.

Claims (1)

The formula of the invention is an integrated and capacitive and 2 Combined device for limiting the parameters of electromagnetic and capacitive processes in electric networks, which contains batteries of static capacitors connected in parallel to the power source and a discharge unit, which is distinguished by the fact that it contains parallel connection of batteries of static capacitors by individual switching devices, one of which is connected according to the "star" scheme with the presence of a grounding switching device in the removed "tzo" neutral, and the other is connected according to the "delta" scheme, and in parallel with the specified capacitors, a power transformer is connected by an individual switching device, CM primary and the secondary windings of the same voltage are connected according to the "star" scheme with the zero wire removed and the open "delta", respectively, and the adjustable inductance with the switch is connected to the high-voltage input in the neutral of the primary winding, and the low-voltage output to the ground circuit with simultaneous shunt protection of open terminals of the secondary winding. high school - and? име) ш» 1 име) с» 60 b5