KR20020032129A - phase load management system in electric power line - Google Patents

Abstract

PURPOSE: A phase-by-phase load managing system for a distribute line is provided to minimize unbalance between phases, and address optimal phase during installment of a new transformer based on the load information for phases. CONSTITUTION: A phase-by-phase managing system for a distribute line comprises a system server for managing load for each phase, a DB server, and user terminals. The system server includes an inquiry unit(110) for inquiring load current, a phase-by-phase load managing unit(120), a circuit disconnection managing unit(130), a load statistics unit(140), and a central controller(150). The inquiry unit(110) supplies load current for each phase, each interval and each line. The managing unit(120) performs load management for each transformer. The managing unit(130) generates a circuit disconnection drawing and positions of switches, displays a single phase or 3-phase line, and calculates load capacitance for each interval. The load statistics unit(140) calculates unbalance between loads, high voltage line loss before and after correction, saved cost, and loss reduction advantage.

Description

Phase load management system in electric power line

The present invention relates to a load management system for each distribution line, in detail, to correct load inequality for each phase in a distribution line (D / L). And phase capacity of poles and transformers. D / L required for operation of loop switchgear in case of power failure due to sudden accident or load imbalance by developing contract power, load information, transmission SCADA system and optimal phase designation simulation tool of connection details (1st and 2nd) and main computer customer information By providing the load information for each section or the section, it provides the information for the system operation by constructing the optimal power supply route, and the optimal electricity supply line by simulation when establishing new electric supply expansion construction and distribution system investment plan. The present invention relates to a load line management system for each distribution line that calculates and provides power gain rate and loss rate for each line and section (whole line, phase unbalance rate for each section loop point).

In general, in order to supply power generated from a power plant to end users such as homes or factories, power transmission from a power plant to a substation is carried out at a high voltage, and a transmission and distribution line is converted from a substation to low power at low voltage to a customer. Do.

Conventionally, there is no systematic management of phase loads on distribution lines in various power distribution projects (new, planned, renovated, and troubled electric poles). As a result, new transformers are installed in arbitrary phases during new construction, so that the load is biased in the specific phase, and phase imbalance occurs after a certain period of time.

Accordingly, a power loss is generated for the unbalanced current of the high voltage line, a power failure occurs due to a malfunction of the relay and the protective device due to the unbalance of the load current, and the reliability of the line-linked operation reliability during the summer peak load is reduced.

The present invention has been made to solve this problem, the transmission of the SCDA, distribution system section loop to scientifically operate the distribution system line by receiving the data of each phase of the distribution line DB, receiving the data of each phase of the distribution line Using the simulation tool, the upper and lower points of the point and customer load data can be used to provide phase-specific decision-making data for power distribution construction (new and renovated) to minimize phase unbalance and to designate the optimum phase when installing a transformer by phase load information. It is for that purpose.

1 is an overall system block diagram for phase load management in accordance with the present invention.

Figure 2 is a detailed block diagram of a phase load management system server according to the present invention

3 is a distribution diagram for explaining various examples of load management of a phase load management system according to the present invention.

4 is a prize column information input screen according to the present invention.

5 is a transformer information output screen according to the present invention.

6 is a load inquiry screen according to the present invention.

<Explanation of symbols for main parts of the drawings>

100: phase load management system server 110: load current inquiry unit

120: load management unit 130: disconnection management unit for each line

140: load statistics statistical unit 150: distribution system management central control unit

200: data DB dedicated server 300: user department

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall system block diagram for phase load management according to the present invention, as shown in the phase load management system server 100 and phase load management system 100 to provide phase load management services of the distribution command room as shown in FIG. It consists of a data DB dedicated server 200 that stores data of various distribution systems required for phase load management, and each user terminal 300 that uses various necessary information by accessing the phase load management system 100.

2 is a detailed block diagram of the phase load management system server 100. The load current inquiry unit 110 inquiring the load current, the phase load management unit 120 managing the phase load, and the disconnection for each line are managed. The circuit breaker unit 130 includes a circuit breaker 130 for each line, a load statistics unit 140 for performing statistics on loads, and a distribution system management central controller 150.

In the load current inquiry unit 110, when the user inquires the load information at the switchgear point by phase, section and line, the phase, section and line according to the user's inquiry conditions from the distribution system DB dedicated server 200. It performs the function of providing load information at each switchgear point.

The phase load management unit 120 receives the loop connection information, the phase point at the phase change point, the skyda information, the high pressure water, the line, the phase load of the switch, and performs the load management for the transformer from the manager.

The line disconnection management unit 130 manages a line such as creating a disconnection diagram for each line, creating a position of a switch, displaying a single-phase or three-phase line, and calculating load capacity for each section.

The load statistics unit 140 calculates the load imbalance, calculates the load amount before and after the visibility, calculates the loss of the power cable, calculates the saving amount, and calculates the loss reduction gain amount.

The distribution system management central control unit 150 receives data of each phase of the distribution line from each unit and simulates the upper and lower loads of the transmission point SCDA, the loop point of each distribution system section, and the customer load data so as to scientifically operate the distribution system line. Provide tool-specific decision-making data during power distribution construction (new and renovated) by using tools, construct optimal routes based on phase load information of loop lines in case of system accidents, and prevent malfunctions of relays and protective devices due to load imbalance. do.

The operation and effects of the load management system for each distribution line according to the present invention configured as described above will be described. Hereinafter, various examples will be mentioned, but the present invention will not be limited thereto.

First, in order to perform load management for each distribution line, phase data for each distribution line must be input to the phase load management unit 120. This should be done by the administrator to input the loop connection information, the phase point at the phase change point, the skida information, the high pressure water, the line and the phase load of the switchgear.

If the content is input to the phase load management unit 120, if there is a new transformer inputs the capacity information of the new transformer. In addition, if there is a high pressure receptionist, enter information such as S / S name, D / L name, section number, pole number, computerization number, and contract power of the high pressure recipient. This information is stored in the data-only DB server 200 through the phase load management unit 120.

In addition, the data to be input includes symbols of phase change points and related information. In order to input the phase change point, S / S name, D / L name, section number, pole number, computerization number, power supply side and load side position information are inputted.

The data to be entered also contains loop switch-related information. The S / S name, the D / L name, the type designation information of the switch, the number of the switch, and the connected D / L information are input to the loop switch input.

In addition, the data to be input includes prizewinner information. Referring to FIG. 4, the S / S name, the D / L name, the section number, the pole number, and the computer number are input to the winning column.

The data to be entered also contains phase inequality correction information. Input of inequality correction information for each phase includes S / S name, D / L name, section number, pole number, computerization number, work type (new, change, demolition) information, load input information (single phase, three phase), load A phase The power of B phase C phase, etc. are input.

When phase load information of each of the various distribution lines is input, corresponding information may be output in accordance with a search condition.

The information that can be output includes the information of the transformer. Referring to FIG. 5, detailed information of a transformer for each D / L or a section may be output. Therefore, if the S / S name, D / L name, section number, etc. is input at the time of inquiry, various information linked to the transformer can be viewed. For example, the pole number or the A phase B phase C phase capacity may be known.

The high-pressure water content information can be output to the information which can be output. Also, detailed information of transformer by D / L or section can be outputted. If you input S / S name, D / L name, section number, etc. at the time of inquiry, you can see various information linked to the high voltage consumer. have. For example, the pole number and the received electric power can be known.

Detailed information of the phase change point can also be obtained by inquiring. You can see the changes on the left, center, and right of each line of the phase change point.

The information on the loop breaker can also be obtained by inquiring. If you enter the S / S name, D / L name at the time of inquiry, you can see a variety of information corresponding to the switch. For example, the switch number and the connection D / L can be known.

The calculation of the load and the load unbalance rate information can also be output. Referring to FIG. 6, when the S / S name, D / L name, section number, etc. are input at the time of inquiry, the complaint rate in the current section, the complaint rate in the entire track, the complaint rate in the supply range, and the SCADA data You can find the complaint rate.

Load information of the loop switch can also be obtained. If you input S / S name, D / L name, section number, etc. at the time of inquiry, you can know the current D / L process, D / L total process, SCADA process, etc.

Also, information on correcting load inequality can be known. If you inquire, you can find the section number, work date and time, pole number, work type, computer number, phase current information before and after correction for the track you want to inquire. In addition, the operation time after correction, the gain power, the amount of gain power, and the budget savings calculated accordingly can be informed.

3 is a distribution diagram for explaining various examples of load management of a phase load management system according to the present invention, and SCADA (Supervisory Control) for supplying A phase B phase C phase current to each substation (S / S) 1 is shown in FIG. And Data Acquisition (2), each relay (G1-G5) (3-7) connected to one substation (S / S) (1), adjacent (D / L) (8), high voltage (9) is shown.

Referring to Figure 3 will be described a variety of phase load management process according to the present invention.

If you want to know the load on a certain line in section 101 or section 102, you can inquire the load current inquiry unit 110 into the load amount of the line, and the load current inquiry unit 110 will send to the phase load management unit 120. This request will be sent and a response will be sent to inform the user.

Also, if you want to know the load of G (1) or less, or if you want to know the load of 102 sections, it is possible to know the load amount assigned to the section by specifying the search condition for each section.

In addition, it can know also when it wants to know the opening / closing point load amount in G (2). In addition, even if it is desired to know the load at the loop management point with the adjacent D / L as in G (3), this can be known by inquiring.

In addition, even when there is a high-pressure water customer, it is possible to effectively manage the high-pressure water customer by inquiring the load amount in the section.

Through the load management system of each distribution line, the distribution department constructs an optimal supply route using the load information of each line, thereby reducing the power loss through economic investment planning and load balancing of distribution facilities. It can improve high jack service by supplying high quality power and power outage caused by malfunction of relay and protection equipment due to phase imbalance.

In the distribution command room, it is possible to minimize the blackout area by changing the electricity supply route by using the load calculation information for each section of the system accident.

According to the present invention, it is possible to prevent the malfunction of the relay and the protective device due to the load unbalance during the distribution system power supply operation can improve the reliability of the power supply, the power loss can be reduced by minimizing the phase unbalance, Stable power can be supplied by phase load operation of each phase, optimal phase can be specified when new transformers are installed by phase load information, and work efficiency can be increased by scientific operation of the system operation.

As a result of using the simulation tool, the following effects were confirmed.

Conventionally, in order to manage phase data, it has to be confirmed with reference to related iron, but according to the present invention, it can be immediately confirmed by simulation. When inquiring the load current, the conventional method includes the time-consuming and computational error possibility by manual operation, but according to the present invention, it is possible to systematically manage human error prevention and phase, section, line, and switching point loads.

In addition, when designating a phase of a new transformer, the conventional designation includes the possibility of phase designation and unbalance by phase, whereas the present invention can provide optimal phase designation information through load information.

In addition, when calculating the load statistics, in the past, the time required by manual labor and the possibility of miscalculation were included. According to the present invention, the present invention can be immediately confirmed. But. The linkage process for the schematic and the progress is made, and in the past, loop operation in case of a track failure contained the possibility of phase unbalance, but it provides the effect of minimizing phase unbalance and rapid loop operation.

Claims (6)

A load current inquiry unit 110 for inquiring a load current; Phase load management unit 120 for managing the phase load, and Per line disconnection management unit 130 for managing disconnection per line, A load statistics unit 140 in charge of statistics of loads, In order to receive the data of each phase of the distribution line from each part, it is possible to scientifically operate the distribution system line. Distribution line phase load management system, characterized in that consisting of the distribution system management central control unit 150 to provide phase-specific decision data during the renovation. The method of claim 1, wherein the load current inquiry unit 110, When the user inquires the load information at the switchgear start point of each phase, section, and track, load information at the switchgear start point of each phase, section and line is matched to the user's inquiry condition from the distribution system DB dedicated server 200. Distribution line phase load management system, characterized in that to provide. According to claim 1, The phase load management unit 120, Distribution line phase load management system, characterized in that the administrator receives the loop connection information, the phase point at the phase change point, the skida information, the high-voltage water supply, the line, the phase load of the switchgear, and performs load management for each transformer. According to claim 1, wherein the disconnection management unit 130 for each line, Distribution line phase load management system, characterized in that the management of the line, such as creating a disconnection diagram for each line, the position of the switchgear, displaying the single-phase or three-phase line, calculate the load capacity for each section. The method of claim 1, wherein the load statistics unit 140, A load line system load management system characterized by calculating load imbalance, calculating load before and after visibility, calculating loss of a high voltage line, calculating a reduction amount, and calculating a loss reduction gain amount. The method of claim 1, wherein the distribution system management central control unit 150, Distribution line phase load management system, characterized in that it configures the optimal route based on phase load information of loop line in case of system accident, and designates relay and protection device due to load imbalance.