CN111884186A - Power distribution network node network management method - Google Patents

Abstract

The invention discloses a power distribution network node network management method, which comprises the following steps: and configuring terminal node information, network fault adjustment and network fault adjustment. According to the power distribution network node network management method, mapping list network management is carried out on nodes, faults are located through mapping node characteristics in a list, fault area isolation is completed, and quick adjustment and updating of loads are achieved through active response.

Description

Power distribution network node network management method

Technical Field

The invention relates to the field of power distribution networks, in particular to a power distribution network node network management method.

Background

The distributed power supplies can be divided into black-start distributed power supplies and non-black-start distributed power supplies according to whether the distributed power supplies can be used as standby power supplies of the system after the fault occurs, and all the distributed power supplies on the feeder line where the fault point is located must be tripped under any fault condition.

At present, an effective management mode is lacked for the networking of power grid equipment, especially when a fault occurs, a user or a line maintenance worker does not necessarily realize the existence of distributed power supply, the support of a large power grid is not provided, the distributed power supply is easy to forget and has low efficiency, and a large amount of uncontrollable and high-hidden-risk operations exist.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the invention provides a power distribution network node network management method, which comprises the following steps.

S1, configuring terminal node information.

(1) And establishing a directed node mapping list for the terminal. And establishing a directed mapping node data sharing area for storing the received mapping node real-time data according to the directed node list. Wherein the directed mapping node comprises: a forward node, a backward node, and a parallel node.

(2) And receiving and splitting mapping node information, and storing split mapping node information fields into a mapping node data sharing memory area. And sending the over-current protection action telemetering, the power flow direction and the switch position information of the node to the mapping node according to a preset time interval.

(3) And acquiring and judging overcurrent action logic and power flow direction, and if the terminal has a protection overcurrent action signal, sending the overcurrent action telemetering, the power flow direction and the switch position information to the mapping node according to a preset time interval.

And S2, network fault adjustment.

(1) After a fault occurs, if the distributed power supply on the fault feeder line is a non-black start distributed power supply, directly tripping off an outlet breaker of the distributed power supply; and for the black start distributed power supply, a grid-connected circuit breaker is disconnected, and an island operation mode of a circuit breaker interface is adopted to supply power to local users. And when the capacity of the black-start distributed power supply is smaller than the load power of the local user, carrying out load shedding operation. The distributed power sources on the non-faulty feeders can continue to remain in grid-tied operation.

(2) After fault location, fault area isolation is carried out, reclosing charging is started, whether reclosing locking is triggered or not is judged according to the state of a switch after closing and the position of the switch, and if not, the reclosing meets the charging condition; and after the terminal is tripped due to fault, after the reclosing is charged, entering reclosing logic, and if the fact that the single side of the reclosing is electrified is detected, reclosing acts after the reclosing delay is set. After reclosing action, for transient faults, reclosing is successful, and a reclosing success command is sent to the mapping node; for the persistent fault, the action of the accelerating device is carried out after the reclosing, the reclosing switch is opened again, and the reclosing is locked in an opening state. After the adjacent switches receive a reclosing success command, if the reason that the last switch tripping is detected is that a switch tripping command of the node is received, executing a closing command; if the fault is a persistent fault, the interconnection switch detects the voltage loss of a single side, and if the switch interconnection tripping and switch locking command does not exist, the interconnection switch is switched on after the set time delay.

(3) If there is no adjusting area in the network, go to step (4), otherwise go to step (5).

(4) And (4) considering all black start distributed power supplies on the fault feeder line, searching an adjustment path for the unadjusted area, if the adjustment path is found, entering a multi-user island operation mode, and otherwise, maintaining the current operation state.

(5) And performing synchronous operation on all the non-black start distributed power supplies in the network, and connecting the grid again. At this stage, the optimal switching strategy is continuously searched, if the switching state changes, the switching state is adjusted after the grid connection is finished, otherwise, the current state is kept.

(6) And after the fault is cleared, adjusting to the operation mode before the fault.

And S3, adjusting the load of the terminal.

(1) And monitoring the bus frequency, voltage, active power, reactive power and terminal running state of the system in real time, and actively responding to the input switch by the terminal when the frequency or voltage of the system is abnormal to a terminal response action value due to disturbance.

(2) The electric energy meter acquires terminal capacity information participating in active response, calculates a load adjustment sensitivity index according to local frequency, voltage, active power and reactive power of each bus provided with a switching device, and uploads the capacity information and the load adjustment sensitivity index to a coordination center.

(3) Different local devices acquire local state information quantity of frequency, voltage, active power, reactive power and the like in real time, and the current response load priority is calculated. And when the frequency or voltage value reaches the action value of the device, determining the load amount required to be put into the device under the current working condition according to the response load priorities of different buses. And calculating the optimized load adjustment amount by combining the terminal response information and the load adjustment sensitivity index, and updating the load adjustment strategy.

(4) And transmitting the optimized load adjustment strategy to each local device. And the local device receives the instruction, updates the action value of each round, and acts to put in the load after a preset time delay.

Further, the network fault adjustment also comprises.

The terminal judges the power flow direction, if the power flow direction is a forward overcurrent protection action, the forward fault processing step (1) is carried out; and (4) if the backward overcurrent protection acts, entering a backward fault processing step (2).

(1) Judging whether all the mapping forward nodes of the node have forward protection overcurrent action information according to the directed node mapping list, and if any one forward node has a forward protection overcurrent mark, judging that the areas of the node and all the forward nodes are non-fault areas and returning; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node; completing the isolation of the fault area.

(2) Judging whether all mapping backward nodes of the node have backward overcurrent action marks or all mapping parallel nodes have forward action marks according to the directed node mapping list, and judging that the node, all backward nodes and parallel node areas are non-fault areas and returning if any backward node has a backward protection overcurrent mark or any parallel node has a forward action mark; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node and the parallel node backwards; completing the isolation of the fault area.

(3) And if the terminal does not detect the fault current, the switching connection jump command of the adjacent mapping node is received and then the connection jump command is executed, and the isolation of the fault area is completed by matching with the local device.

According to the power distribution network node network management method, mapping list network management is carried out on nodes, faults are located through mapping node characteristics in a list, fault area isolation is completed, and quick adjustment and updating of loads are achieved through active response.

Drawings

Fig. 1 is a flowchart of a power distribution network node network management method according to the present invention.

Detailed Description

As shown in fig. 1, a method for managing a node network of a power distribution network includes.

S1, configuring terminal node information.

(1) And establishing a directed node mapping list for the terminal. And establishing a directed mapping node data sharing area for storing the received mapping node real-time data according to the directed node list. Wherein the directed mapping node comprises: a forward node, a backward node, and a parallel node.

(2) And receiving and splitting mapping node information, and storing split mapping node information fields into a mapping node data sharing memory area. And according to a preset time interval, the over-current protection action telemetering (the over-current protection action is set to be 1 when the over-current protection action is not set to be 0), the power flow direction and the switch position information of the node are sent to the mapping node.

(3) And acquiring and judging overcurrent action logic and power flow direction, and if the terminal has a protection overcurrent action signal, sending the overcurrent action telemetering, the power flow direction and the switch position information to the mapping node according to a preset time interval.

And S2, network fault adjustment.

(1) After a fault occurs, if the distributed power supply on the fault feeder line is a non-black starting distributed power supply, in order to ensure the electric energy quality, an outlet breaker of the distributed power supply is directly tripped; and for the black start distributed power supply, a grid-connected circuit breaker is disconnected, and an island operation mode of a circuit breaker interface is adopted to supply power to local users. And when the capacity of the black-start distributed power supply is smaller than the load power of the local user, carrying out load shedding operation. The distributed power sources on the non-faulty feeders can continue to remain in grid-tied operation.

(2) After fault location, fault area isolation is carried out, reclosing charging is started, whether reclosing locking is triggered or not is judged according to the state of a switch after closing and the position of the switch, and if not, the reclosing meets the charging condition; and after the terminal is tripped due to fault, after the reclosing is charged, entering reclosing logic, and if the fact that the single side of the reclosing is electrified is detected, reclosing acts after the reclosing delay is set. After reclosing action, for transient faults, reclosing is successful, and a reclosing success command is sent to the mapping node; for the persistent fault, the action of the accelerating device is carried out after the reclosing, the reclosing switch is opened again, and the reclosing is locked in an opening state. After the adjacent switches receive a reclosing success command, if the reason that the last switch tripping is detected is that a switch tripping command of the node is received, executing a closing command; if the fault is a persistent fault, the interconnection switch detects the voltage loss of a single side, and if the switch interconnection tripping and switch locking command does not exist, the interconnection switch is switched on after the set time delay.

After the fault area is successfully isolated, because more than 80% of faults of the power distribution network are transient faults, reclosure is adopted for power supply adjustment.

(3) If there is no adjusting area in the network, go to step (4), otherwise go to step (5).

(4) And (4) considering all black start distributed power supplies on the fault feeder line, searching an adjustment path for the unadjusted area, if the adjustment path is found, entering a multi-user island operation mode, and otherwise, maintaining the current operation state.

(5) And performing synchronous operation on all non-black start distributed power supplies (including an island operation unit and a tripped distributed power supply unit) in the network, and connecting the network again. At this stage, the optimal switching strategy is continuously searched, if the switching state changes, the switching state is adjusted after the grid connection is finished, otherwise, the current state is kept.

(6) And after the fault is cleared, adjusting to the operation mode before the fault.

And S3, adjusting the load of the terminal.

(1) And monitoring the bus frequency, voltage, active power, reactive power and terminal running state of the system in real time, and actively responding to the input switch by the terminal when the frequency or voltage of the system is abnormal to a terminal response action value due to disturbance.

(2) The electric energy meter acquires terminal capacity information participating in active response, calculates a load adjustment sensitivity index according to local frequency, voltage, active power and reactive power of each bus provided with a switching device, and uploads the capacity information and the load adjustment sensitivity index to a coordination center.

(3) Different local devices acquire local state information quantity of frequency, voltage, active power, reactive power and the like in real time, and the current response load priority is calculated. And when the frequency or voltage value reaches the action value of the device, determining the load amount required to be put into the device under the current working condition according to the response load priorities of different buses. And calculating the optimized load adjustment amount by combining the terminal response information and the load adjustment sensitivity index, and updating the load adjustment strategy.

(4) And transmitting the optimized load adjustment strategy to each local device. And the local device receives the instruction, updates the action value of each round, and acts to put in the load after a preset time delay.

Further, the network fault adjustment also comprises.

The terminal judges the power flow direction, if the power flow direction is a forward overcurrent protection action, the forward fault processing step (1) is carried out; and (4) if the backward overcurrent protection acts, entering a backward fault processing step (2).

(1) Judging whether all the mapping forward nodes of the node have forward protection overcurrent action information according to the directed node mapping list, and if any one forward node has a forward protection overcurrent mark, judging that the areas of the node and all the forward nodes are non-fault areas and returning; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node; completing the isolation of the fault area.

(2) Judging whether all mapping backward nodes of the node have backward overcurrent action marks or all mapping parallel nodes have forward action marks according to the directed node mapping list, and judging that the node, all backward nodes and parallel node areas are non-fault areas and returning if any backward node has a backward protection overcurrent mark or any parallel node has a forward action mark; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node and the parallel node backwards; completing the isolation of the fault area.

(3) And if the terminal does not detect the fault current, the switching connection jump command of the adjacent mapping node is received and then the connection jump command is executed, and the isolation of the fault area is completed by matching with the local device.

The feeder current direction from the forward terminal to the terminal is the same as the feeder current direction from the terminal to the next terminal, the feeder current direction from the backward terminal to the terminal is opposite to the feeder current direction from the terminal to the next terminal, and the parallel terminal and the terminal have the same backward terminal.

The terminal can be various electric equipment except local equipment in the power distribution network, such as primary equipment, secondary equipment and the like.

According to the power distribution network node network management method, mapping list network management is carried out on nodes, faults are located through mapping node characteristics in a list, fault area isolation is completed, and quick adjustment and updating of loads are achieved through active response.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims (2)

1. A power distribution network node network management method is characterized by comprising the following steps:

s1, configuring terminal node information:

(1) establishing a directed node mapping list for a terminal; establishing a directed mapping node data sharing area for storing the received mapping node real-time data according to the directed node list; wherein the directed mapping node comprises: a forward node, a backward node and a parallel node;

(2) receiving mapping node information, splitting the mapping node information, and storing split mapping node information fields into a mapping node data sharing memory area; according to a preset time interval, sending the over-current protection action telemetering, the power flow direction and the switch position information of the node to a mapping node;

(3) acquiring and judging overcurrent action logic and power flow direction, and if the terminal has a protection overcurrent action signal, sending the overcurrent action remote measurement, the power flow direction and the switch position information to a mapping node according to a preset time interval;

s2, network fault adjustment:

(1) after a fault occurs, if the distributed power supply on the fault feeder line is a non-black start distributed power supply, directly tripping off an outlet breaker of the distributed power supply; for a black start distributed power supply, a grid-connected circuit breaker is disconnected, and an island operation mode of a circuit breaker interface is adopted to supply power to local users; when the capacity of the black-start distributed power supply is smaller than the load power of a local user, carrying out load shedding operation; the distributed power supply on the non-fault feeder line can continuously keep grid-connected operation;

(2) after fault location, fault area isolation is carried out, reclosing charging is started, whether reclosing locking is triggered or not is judged according to the state of a switch after closing and the position of the switch, and if not, the reclosing meets the charging condition; after the terminal is tripped due to fault, the reclosing logic enters after the reclosing charging is finished, and if the single side of the reclosing is detected to be electrified, the reclosing acts after the reclosing delay is set; after reclosing action, for transient faults, reclosing is successful, and a reclosing success command is sent to the mapping node; for the persistent fault, accelerating the action of the device after reclosing, tripping off the reclosing switch again, and locking the reclosing in an opening state; after the adjacent switches receive a reclosing success command, if the reason that the last switch tripping is detected is that a switch tripping command of the node is received, executing a closing command; if the fault is a persistent fault, the interconnection switch detects the voltage loss of a single side, and if the command of switch connection tripping and switch locking does not exist, the interconnection switch is switched on after the delay is set;

(3) if the network has an unregulated region, turning to the step (4), otherwise, turning to the step (5);

(4) considering all black start distributed power supplies on a fault feeder line, searching an adjustment path for an unadjusted area, if the path is found, entering a multi-user island operation mode, otherwise, maintaining the current operation state;

(5) performing synchronous operation on all non-black start distributed power supplies in the network, and connecting the grid again; at this stage, the optimal switching strategy is continuously searched, if the switching state is changed, the switching state is adjusted after the grid connection is finished, otherwise, the current state is kept;

(6) after the fault is cleared, adjusting to the operation mode before the fault;

s3, terminal load adjustment:

(1) monitoring the system bus frequency, voltage, active power, reactive power and terminal running state in real time, and actively responding to the input switch by the terminal when the system frequency or voltage is abnormal to a terminal response action value due to disturbance;

(2) the electric energy meter acquires terminal capacity information participating in active response, calculates a load adjustment sensitivity index according to local frequency, voltage, active power and reactive power of each bus provided with a switching device, and uploads the capacity information and the load adjustment sensitivity index to a coordination center;

(3) different local devices acquire local state information quantity of frequency, voltage, active power, reactive power and the like in real time, and the current response load priority is calculated; when the frequency or voltage value reaches the action value of the device, determining the load amount to be input under the current working condition according to the response load priorities of different buses; calculating an optimized load adjustment amount by combining the terminal response information and the load adjustment sensitivity index, and updating a load adjustment strategy;

(4) the optimized load adjustment strategy is issued to each local device; and the local device receives the instruction, updates the action value of each round, and acts to put in the load after a preset time delay.

2. The method of claim 1, wherein the network fault adjustment further comprises:

the terminal judges the power flow direction, if the power flow direction is the forward overcurrent protection action, the forward fault processing step (1) is carried out; if the backward overcurrent protection action is carried out, the backward fault processing step (2) is carried out;

(1) judging whether all the mapping forward nodes of the node have forward protection overcurrent action information according to the directed node mapping list, and if any one forward node has a forward protection overcurrent mark, judging that the areas of the node and all the forward nodes are non-fault areas and returning; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node; completing the isolation of the fault area;

(2) judging whether all mapping backward nodes of the node have backward overcurrent action marks or all mapping parallel nodes have forward action marks according to the directed node mapping list, and judging that the node, all backward nodes and parallel node areas are non-fault areas and returning if any backward node has a backward protection overcurrent mark or any parallel node has a forward action mark; otherwise, the local area is a fault area, the local device is informed to execute switch tripping to carry out fault isolation, and a switch joint tripping command is sent to the mapping node and the parallel node backwards; completing the isolation of the fault area;

(3) and if the terminal does not detect the fault current, the switching connection jump command of the adjacent mapping node is received and then the connection jump command is executed, and the isolation of the fault area is completed by matching with the local device.

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