CN101453121B

CN101453121B - A Low-Voltage Load Shedding System for Metropolitan Power Network

Info

Publication number: CN101453121B
Application number: CN2007101715016A
Authority: CN
Inventors: 王伟; 俞旭峰; 陶玉华; 曹炜; 李建军
Original assignee: Tsinghua University; Shanghai Municipal Electric Power Co
Current assignee: Tsinghua University; State Grid Corp of China SGCC; Shanghai Municipal Electric Power Co
Priority date: 2007-11-30
Filing date: 2007-11-30
Publication date: 2011-06-22
Anticipated expiration: 2027-11-30
Also published as: CN101453121A

Abstract

The invention discloses a low-voltage load-shedding system for a large city power grid, which includes a substation. The substation includes a substation monitoring system and a main wiring part of the substation. The main wiring part of the substation includes a 35kV bus bar connected in parallel with a plurality of line loads, a transformer and a 220kV busbar connected in sequence. Or 110kV bus, characterized in that it also includes a low-voltage load shedding device, which is connected with a voltage transformer to detect the voltage of 220kV or 110kV bus, and calculates and processes the voltage, and the low-voltage load shedding device also outputs respectively The signal is sent to the line load of the 35kV bus and the substation monitoring system to monitor the operation and action of the low-voltage load shedding device. On the basis of the original substation, the present invention is designed and equipped with a low-voltage load shedding device, realizes the low-voltage load shedding function of the substation, ensures the safe and stable operation of the power grid in large cities, prevents voltage collapse of the system, and avoids the occurrence of large-scale blackout accidents.

Description

A kind of low voltage deloading system for urban electric grid

Technical field

The present invention relates to field of power, relate in particular to a kind of low voltage deloading system for urban electric grid.

Technical background

Urban distribution network generally all is a receiving-end system, and the topmost characteristics of receiving-end system are that load needs the remote input outside distinguishing by superhigh pressure interchange or DC line greatly, in order to support voltage, the local a large amount of reactive-load compensation equipment of installation that needs.For the consideration of cost of investment, actual greatly in these reactive-load compensation equipments is exactly capacitor.When certain disturbance makes the idle deficiency of receiving end electrical network, when voltage descends, the reactive power that capacitor provided but reduces rapidly with the quadratic form of voltage, causes voltage further to reduce, and this makes big load center be easier to occur the problem of idle enabling capabilities deficiency.The idle enabling capabilities deficiency of big load center electrical network will have a strong impact on the safe and stable operation of electric power system, cause system's generation voltage collapse accident, may cause the large-area power-cuts of electrical network, even may cause wider power failure on a large scale by zone of influence external power grid.For example Shanghai Power Network is through for many years sustained and rapid development, receiving end electrical network feature is constantly strengthened, during peak load, lack enough reserve capacitys, more can not satisfy the reasonable distribution requirement of big interval reserve capacity, Shanghai Power Network lacks enough dynamic reactive power supplys, and existing reactive power source also distributes inequality, and the especially yellow enough dynamic reactive regulating measures of subregion shortage of crossing of some subregions are brought out voltage easily and stablized accident.

Summary of the invention

The objective of the invention is to overcome the defective of prior art, and a kind of low voltage deloading system for urban electric grid is provided, ensure the safe and stable operation of big city electrical network, anti-locking system generation voltage collapse is avoided the generation of large area blackout.

The technical scheme that realizes above-mentioned purpose is: a kind of low voltage deloading system for urban electric grid, comprise transformer station, this transformer station comprises monitoring system of electric substation and transformer station's main electrical scheme part, described transformer station main electrical scheme partly comprises the 35KV bus that is parallel with a plurality of line loads that connects successively, transformer and 220KV or 110KV bus, wherein, also comprise a low pressure load-shedding equipment, this low pressure load-shedding equipment links to each other with a voltage transformer and detects the voltage of 220KV or 110KV bus, and this voltage is calculated and handles, and this low pressure load-shedding equipment also outputs signal to the line load of 35KV bus and monitoring system of electric substation respectively to monitor the operation and the action situation of low pressure load-shedding equipment.

Above-mentioned big city electrical network low-voltage off-load system, wherein, described low pressure load-shedding equipment detects the positive sequence voltage of 220KV or 110KV bus by voltage transformer.

Above-mentioned big city electrical network low-voltage off-load system, wherein, described low pressure load-shedding equipment calculates reprocessing with the voltage process of voltage 220KV or 110KV bus, this processing comprises: if this voltage satisfies the cutting load condition, then the low pressure load-shedding equipment sends actuating signal, excises the line load on the corresponding 35KV bus.

The low pressure off-load system of above-mentioned big city electrical network, wherein, this low pressure off-load system is adapted to the operational mode of the different bus wiring of transformer station.

The invention has the beneficial effects as follows: the present invention has added the low pressure load-shedding equipment through transforming on original transformer station basis, realized the low-voltage cutting load function of transformer station, ensure the safe and stable operation of big city electrical network, anti-locking system generation voltage collapse is avoided the generation of large area blackout.

Low pressure off-load system as electric power system " three lines of defence " is a kind of effective correction control measure that solve power system voltage collapse accident, when having disturbance and voltage drop, system is low to moderate some preset time, the action of low pressure load-shedding equipment, cut-out power consumer load, so that voltage is stable or return to normal level, keep the continuation safe and stable operation of electric power system.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Embodiment

The invention will be further described below in conjunction with accompanying drawing.

See also Fig. 1, there is shown a kind of low voltage deloading system for urban electric grid of the present invention, comprise transformer station 1, this transformer station 1 comprises monitoring system of electric substation 11 and transformer station's main electrical scheme part 12, transformer station's main electrical scheme part 12 comprises the 35KV bus 121 that is parallel with a plurality of line loads 122 that connects successively, transformer 123 and 220KV or 110KV bus 124, also comprise a low pressure load-shedding equipment 2, this low pressure load-shedding equipment 2 links to each other with a voltage transformer 21 and detects the positive sequence voltage of 220KV or 110KV bus 124, and this voltage is calculated and handles, this processing comprises: if this voltage satisfies the cutting load condition, then the low pressure load-shedding equipment sends actuating signal, excise the line load on the corresponding 35KV bus, this low pressure load-shedding equipment 2 also outputs signal to the line load 122 of 35KV bus 121 and monitoring system of electric substation 11 respectively to monitor the operation and the action situation of low pressure load-shedding equipment.But when system was short-circuited fault, busbar voltage reduced suddenly, and when voltage change ratio was excessive, low pressure load-shedding equipment 2 locking was immediately no longer carried out low-voltage and judged; And behind protection action excision fault element, the voltage that installs 2 installation places gos up rapidly, if recover less than normal numerical value; but when recovering definite value greater than voltage behind the failure removal; then install 2 unlockings immediately, allow device 2 loads of excision respective numbers fast, voltage is recovered.

In the present embodiment, the setting value of low pressure load-shedding equipment 2 is: the round of low pressure off-load is 3 to take turns, and the 1st takes turns definite value 0.9U _N, delayed time 5 seconds; The 2nd takes turns definite value 0.85U _N, delayed time 2 seconds; The 3rd takes turns definite value 0.80U _N, delayed time 0.5 second; Voltage slippage dU/dt 〉=0.8U _NThe time locking low pressure load-shedding equipment, corresponding recovery voltage is 0.7U _N, and delayed time 6 seconds.Low pressure load-shedding equipment 2 can adopt UFV-202A frequency and voltage emergency control equipment or the UFV-2A frequency and voltage emergency control equipment of Chuzhou Li Hua Electronics Co., Ltd. or the YPZ-1 microcomputer electric voltage frequency intelligence controlling device of Shanghai Hailan Electric Co., Ltd. of the RCS-994A type frequency and voltage emergency control equipment of the SSE520 frequency and voltage emergency control equipment of the southern automation of state electricity limited company or Nari Jibao Electric Co., Ltd or Chuzhou positive magnificent Electric Power Automation Equipment company.

Above embodiment is only for the usefulness that the present invention is described, but not limiting the scope of the invention.Relevant those skilled in the art under the situation that does not break away from the spirit and scope of the present invention, can also make various conversion or modification, and the technical scheme that all are equal to also should belong within the category of the present invention's protection, is limited by each claim.

Claims

1. a large city power grid low voltage load shedding system, comprising a substation, the substation includes a substation monitoring system and a substation main wiring part, and the described substation main wiring part comprises a 35KV bus bar, a transformer and a plurality of line loads connected in parallel in sequence. The 220KV or 110KV bus is characterized in that it also includes a low-voltage load shedding device, which is connected to a voltage transformer to detect the voltage of the 220KV or 110KV bus, and calculates and processes the voltage. The low-voltage load shedding The device also outputs signals to the line load of the 35KV bus and the substation monitoring system to monitor the operation and action of the low-voltage load shedding device;

The low-voltage load shedding device detects the positive sequence voltage of the 220KV or 110KV bus through a voltage transformer;

The low-voltage load shedding device calculates and processes the voltage of the 220KV or 110KV bus, and the processing includes: if the voltage meets the load shedding condition, the low-voltage load shedding device sends an action signal to cut off the line load on the corresponding 35KV bus ;

The low-voltage load shedding system is adapted to the operation modes of different busbar connections in substations.