SU691995A1 - D-c electric power transmission system - Google Patents

Description

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The invention relates to the field of electric power industry and, in particular, to direct-current power transmission lines with parallel intermediate converter stations.

A DC power transmission is known, containing a rectifier and an inverter substation, a line with isolated Polieses of the same polarity of the same voltage class and located along its length switching with jumpers equipped with switches connecting the poles of the line to each other, the presence of which allows you to save the power supply of the inverter substation in the event of the withdrawal of the individual sections of the poles of line 1. The disadvantage of this line is its limited scope, since this power transmission, is intended only for main seozoy. Circuits for parallel connection of intermediate substations to a DC power line 2 are also known.

The disadvantage of these schemes is that in case of emergency or planned output

Line poles, the power supply to the inverter and intermediate stations is terminated. .

DC power transmission is selected as the prototype.

The purpose of the present invention is to create a direct current transmission with parallel-connected converter stations, in which, in the case of withdrawal of individual sections of the line from operation, both end and intermediate power supply is maintained.

This goal is achieved by the fact that, in a DC power transmission containing a rectifying and inverting substation

Claims (2)

with converters, a line with insulated from each other poles of the same polarity of the same voltage class, and switching points with jumpers between the poles, for the length of the line, an intermediate node was additionally introduced, one of the jumpers is equipped with two switches and a converter is connected between their X-V connectors intermediate substation. In order to increase the MaHcepefinocTH in case of emergency situations on the line, the switching points of the different poles of the line are equipped with additional jumpers with two series-connected switches, and the points of connection of the switches of the indicated jumpers of the different poles are interconnected. The invention is illustrated in the drawings. FIG. 1 shows a bipolar unipolar sectioned line with an intermediate substation; FIG. 2 shows a bipolar partitioned line with a bipolar intermediate substation; FIG. 3 - interconnection of switching points installed at the poles of the line of different polarity. The bipolar unipolar DC line (Fig. I) contains two converters 1 and 2 at each terminal substation, one of which operates in a rectifier, the other in inverter mode, connected to the pole of the line and to the working grounding 3. On the line switching points 4 with jumpers are located; connecting the poles of the line between themselves. Switching devices (switches or disconnectors) 5 are installed at the inputs of the substation and switching points, switching devices (switches or disconnectors) 6 and 7 are installed at the poles of the switching points, and switching devices 8 are installed in the jumpers of switching points (convenience). repairs, it is possible to install two devices 8, connected in series). According to the invention, the switching point of the unit, to which --- --- --- ---- is connected, consists of two switching devices 9 connected in series, and the converter 10 of the intermediate substation is connected to this jumper at the point between the switching points 9 .. -The second pole of the converter 10. is connected to the working grounding 3. In FIG. 1 PRESENTED IN A VFIANT OF A LINE THEREIN WHICH ARE USING HIGH-SPEED COMMUNICATION DEVICES WITH. remote control, for example, disconnectors. When using fakHx switching devices (there are no DC switches), it is preferable for LINES to operate in normal PS open circuit mode (disconnectors 8 and one of disconnectors 9 are open with independent pole operation and connection of converters (or groups of converters) to different line poles. the need for emergency or scape-breaking of the pole of one of the Line sections, the power transfer goes to the operation mode according to the associated circuit (disconnectors 8 and 9 are closed), and the pole section of the line is disconnected on both sides by disconnectors 5. In this case, the full current of the line in the emergency section will pass through one pole. are performed during the pause of an emergency or artificial automatic reclosure of one of the poles, and in some emergency situations of both poles of the line. In the open-loop operation mode, converter 0 is connected to one of the poles of the line, and in connected-circuit operation mode, to both poles of the line and, thus, its power supply is maintained in all post-emergency situations. FIG. Figure 2 shows an example of connecting an intermediate substation to a partitioned bipolar line, a power transmission with switching points. In this example, disconnectors 5, 6, and 7 are replaced by DC breakers. In the presence of switches, the operation of the line according to the associated scheme is preferable. When an emergency or planned outage of a pole of one of the line sections is required, it is turned off on both sides by switches 5, while overloading the second pole of the same line segment saves the power supply of the Terminal and intermediate substations. .Switches 6 and 7 disconnect the converters in case they need to be taken out of operation. The circuits (Figs. 1 and 2) allow the inclusion of any number of transducers connected in parallel, both at the terminal and intermediate substations. Intermediate substations can operate in the inverter or. rectification mode. The maneuverability of the circuit in the bipolar version (Fig. 2) and its efficiency, in particular, in the fustial cases of simultaneous / failing of the same polarized lines in one section, can be enhanced by interconnecting (via switching devices) switching points installed at the poles of lines of different polarity. An example of such a connection is shown in FIG. 3. At the switching points, additional jumpers are installed in the form of two switching devices 11 connected in series (in the normal mode of operation, the lines are open) and disconnectors 12 (in the normal mode of operation, the lines are closed). The midpoints of the additional jumpers of the switching points, installed at the poles of the lines, are polarized; interconnected. If both poles of positive polarity get out of operation, on the section of the line between the switches. 5-5 (switches 5 open) in one of the poles of negative polarity, the switches are opened and then the disconnectors 12. Next, at the switching points of the poles of both polarities, the disconnectors are closed 11. After these operations, the power supply switches on the positive pole on the emergency section are wired LINES located between switches 5-- 5 As a possible area of application of the invention, it is necessary first of all to indicate the transmission of direct current ultra-high to A high transmission rate, ...., with a capacity of air lines, the length of which is 2.5 -4 thousand kilometers. The creation of such transmissions is envisaged, in particular, for transporting electricity from Siberia to the European Mouth of the USSR, and in the projects we are working on options for connecting intermediate converter stations to the line, approximately in the middle of its length. On the air lines of the voltage classes under consideration, it is possible to perform repair work at the disconnected pole of the line section if there is a working voltage at its other poles. At the specified line lengths emergency and scheduled repairs. with the disconnection of its separate sections, the asgdov will take a relatively long time and, consequently, the present invention, which allows in these situations to keep intermediate transformer substations in operation, can give a significant economic effect. . As the operating experience of dc and ac high-voltage power transmissions with overhead lines shows, damage occurs, as a rule, at one pole (one phase) of the line. Therefore, we can assume that the circuit of fig. 2 provides an adequate level of line reliability. If additional redundancy is required, it may be economically feasible to use the scheme of FIG. 3, first of all, at the switching points adjacent to the terminal and intermediate substations; and m. Claim I. Transmission of direct current, which includes a switching and inverter substation with converters, a line with poles of the same polarity of one class insulated from each other voltages and placed along the length of the line -. “-“ i-iT.fTT ry-vt I l hh - GTt TtT L G LTTTTTT C hGTOLLT ITITT about “Irt lf switching points with jumpers between the poles of the lines, with the fact that in order to ensure uninterrupted power supply In the event of separate sections of the line coming out of operation, an intermediate substation is additionally introduced into it, one of the jumpers is equipped with two series-connected switches and between the points, their connections are connected to an intermediate substation converter. 2. Power transmission under item I, distinguished by the fact that the switching points of different poles l (the sockets are equipped with additional jumpers with two series-connected switches, and the exact connection points of the switches are indicated by jumpers of different poles are interconnected. Sources of information taken into account during the examination 1. USSR author's certificate No. 316392, class H 02 J 1/00, 1972. 2.Posse A.V. Schemes and modes of direct current power transmission. M., “Energie, 1973, p. 15, p. 1-4-8, ©