CN203761041U - Self-saturated reactor type fault current limiter - Google Patents

Abstract

The utility model discloses a self-saturated reactor type fault current limiter which comprises a first branch, a second branch and a reactor Lc which is connected in series with the first branch and the second branch, wherein the first branch and the second branch are mutually connected in parallel. The first branch comprises a current limiting protection reactor Lb2, a self-saturated reactor Lsat and a restoration current reducing resistor Rj, wherein the current limiting protection reactor Lb2, the self-saturated reactor Lsat and the restoration current reducing resistor Rj are successively connected in series. The second branch comprises a capacitor C1 and a current limiting protection reactor Lb1, wherein the capacitor C1 and the current limiting protection reactor Lb1 are successively connected in series. The self-saturated reactor comprises an iron core and two winding coils. The self-saturated reactor type fault current limiter provided by the utility model has the characteristic of simple circuit structure, outstanding current limiting effect, being reliable and stable, wide practicability and the like, and can adapt to input voltage of a wide range.

Description

Autotransducer type fault current limiter

Technical field

The utility model relates to power transmission and distribution equipment protection field, in particular to a kind of autotransducer type fault current limiter.

Background technology

Along with the increase of electricity needs, energy output increases day by day.Be accompanied by the growth of energy output, fault current levels improves thereupon.Equipment fault, bad weather, accident or malicious sabotage all can cause power to change.These faults can be damaged expensive key element, if can not be removed in time, may cause having a power failure and causing huge economic loss for a long time.Therefore ensure power system safety and stability operation, limiting short-circuit current level just becomes the extremely urgent problem of current power system fast.

In electric power system both at home and abroad, fault current limiter mainly contains following several at present: controllable resistor type superconducting fault current limiter: referring to Fig. 1, by high-temperature superconductor current－carrying conductor 2 is sealed in to protected major loop, under normal circumstances, high-temperature superconductor current－carrying conductor resistance is zero, circuit is not produced to any impact; In the time breaking down, electric current increases and causes high-temperature superconductor current－carrying conductor quench suddenly, and resistance moment sports very large, thereby reaches the effect of fault current limiting.Bypass impedance plays afterflow effect.Direct current winding starts to control preparing high-temp superconduction current－carrying conductor and limits different fault current effects.Copper cash current limliting winding 1(is bypass impedance), high-temperature superconductor current－carrying conductor 2, high-temperature superconductor winding 3, D.C. regulated power supply 4 and low temperature liquid nitrogen container;

But there is following technological deficiency in this controllable resistor type superconducting fault current limiter: above-mentioned controllable resistor type superconducting fault current limiter is containing superconductive element, this superconductive element (being superconductor) refrigeration process complexity, troublesome maintenance; Most importantly, after superconductor quench, reenter the superconducting state time long, do not meet the time requirement that superconductive current limiter needs are resumed work within a few tens of milliseconds.

There is in addition a kind of parallel resonance short-circuit fault current limiter with series compensating function; Referring to Fig. 2, in the time that electric power system normally moves, capacitor C and L2 series resonance, flow restricter impedance is zero or approaches zero, circuit do not exerted an influence.In the time that electric power system is short-circuited fault, turn-off thyristor (GTO, Gate Turn-Off Thyristor) conducting, L1 and capacitor C parallel resonance, parallel resonance impedance is very large, thus fault current limiting.In above-mentioned fault current limiter structure, there are turn-off thyristor GTO or silicon controlled rectifier (SCR, Silicon Controlled Rectifier) so single maximum working voltage of power electronic device is no more than 6kV, at high pressure 35kV in the circuit of 800kV, need multiple power electronic device series connection, so control complexity, cost is high, failure rate is high, the extra high system of this security requirement of improper high-tension line.

Also has in addition a kind of fault current limiter; As shown in Figure 3, in the time that system is normally moved, capacitor C and LS series resonance, flow restricter impedance is zero or approaches zero, circuit do not exerted an influence.In the time being short-circuited fault, saturable reactor LB is saturated, and capacitor C is equivalent to by short circuit, and series resonance is destroyed, and electric current mainly flows through from LB and LS, also can play metering function.But in above-mentioned fault current limiter structure, capacitor C is bypassed, after LB is saturated, can not send parallel resonance with capacitor C, in the situation that short circuit current is very large, depends merely on LS and carry out current limliting, current limitation effect is not obvious, and metering function is little.

Utility model content

The purpose of this utility model is to provide a kind of autotransducer type fault current limiter, to solve the problems of the technologies described above.

In order to achieve the above object, the technical solution of the utility model is achieved in that

A kind of autotransducer type fault current limiter that the utility model provides, comprises the first branch road parallel with one another and the second branch road, and the reactor Lc connecting with described the first branch road and the second branch road;

Leakage resistance Rj falls in described the first branch road when comprising current-limiting protection reactor Lb2, the autotransducer Lsat of series connection successively and recovering; Described the second branch road comprises capacitor C1 and the current-limiting protection reactor Lb1 of series connection successively, wherein:

Described autotransducer comprises an iron core and two winding coils.

Preferably, on described the first branch road, be also in series with damping circuit D.

Preferably, the two ends of the capacitor C1 on described the second branch road are also parallel with respectively lightning arrester MOVC and controllable spark gap G.

Preferably, the two ends of described reactor Lc are also parallel with respectively lightning arrester MOVL and capacitor for voltage protection C2.

Preferably, also comprise ON-OFF control circuit, described ON-OFF control circuit comprises by-pass knife switch MBS, wherein:

The two ends of described by-pass knife switch MBS are electrically connected with the input of described damping circuit D and the output of reactor Lc respectively.

Preferably, described ON-OFF control circuit also comprises bypass breaker B, wherein:

The two ends of described bypass breaker are electrically connected with the input of current-limiting protection reactor Lb1 and the output of described autotransducer Lsat respectively.

Compared with prior art, the advantage of the utility model embodiment is:

The autotransducer type fault current limiter that the utility model provides, the structure of analyzing above-mentioned autotransducer type fault current limiter is known: thus it utilizes autotransducer Lsat self-excitation electric current can make the extremely low characteristic of core sataration impedance trend, on this basis, specially designed major diameter constant impedance coil, ensures that it is zero function that autotransducer is unlikely to impedance.Be equivalent to an air core reactor and iron core reactor to be combined into one.This reactor voltage during lower than certain set point (from approaching zero to the numerical value being no more than capacitor C1 capacitive reactance, the number of turn and diameter that winding is set by adjustment come real), core of reactor is unsaturated, reactor impedance is very big, be equivalent to be bypassed, to ultra-high-tension power transmission line system without any adverse effect.In the time of line failure, the most of voltage of circuit is added on this reactor, far beyond set point, now iron core is completely saturated, the hindrance function that iron core rose loses completely, be close to zero, large-diameter coil is now equivalent to an air core reactor, the resistance value of this air core coil of appropriate design, make this reactor complete or incomplete parallel resonance to occur with capacitor C 1 in parallel, now the resistance value of the current limiting system of capacitor in parallel and reactor composition is very large, thereby plays the effect of significant fault current limiting.

In addition, when recovery, fall leakage resistance Rj and also played key effect: after failure removal, electric current when absorption capacitor C1 and autotransducer Lsat resonance, makes flow restricter quick-recovery soon, reenters the operating state of awaiting orders.

Because above-mentioned autotransducer type fault current limiter has avoided using GTO or the such power electronic device of SCR, but adopt the structure (being autotransducer) of capacitor and reactor associating current limliting to realize larger current limitation effect, and then can adapt to 10kV to 800kV high-voltage large-capacity transmission line system.

Brief description of the drawings

Fig. 1 is the circuit theory diagrams of controllable resistor type superconducting fault current limiter in prior art;

Fig. 2 is the circuit theory diagrams in prior art with the parallel resonance short-circuit fault current limiter of series compensating function;

Fig. 3 is the circuit theory diagrams in prior art with the parallel resonance short-circuit fault current limiter of series compensating function;

The circuit theory diagrams of the autotransducer type fault current limiter that Fig. 4 provides for the utility model embodiment;

The plan structure schematic diagram of the autotransducer in the autotransducer type fault current limiter that Fig. 5 provides for the utility model embodiment;

The side-looking structural representation of the autotransducer in the autotransducer type fault current limiter that Fig. 6 provides for the utility model embodiment in Fig. 5;

The winding diagram of the autotransducer in the autotransducer type fault current limiter that Fig. 7 provides for the utility model embodiment in Fig. 5.

Embodiment

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

Referring to Fig. 4, the utility model embodiment provides a kind of autotransducer type fault current limiter 10, comprises the first branch road parallel with one another and the second branch road, and the reactor Lc(connecting with above-mentioned the first branch road and the second branch road is for series resonance); Described the first branch road comprises that the capacitor C1(of series connection is successively for series resonance) and current-limiting protection reactor Lb1; Leakage resistance Rj falls in described the second branch road when comprising current-limiting protection reactor Lb2, the autotransducer Lsat of series connection successively and recovering.

Described autotransducer comprises that an iron core 100 and two larger-diameter winding coil 200(are referring to Fig. 5, Fig. 6 and Fig. 7).

It should be noted that, as shown in Figure 4, after whole flow restricter system is mainly connected with current-limiting protection reactor Lb2 by autotransducer Lsat, then with the capacitor C1 parallel connection of the current-limiting protection reactor Lb1 that connected.This doublet is connected with reactor Lc again, adds some switches and protection device, forms whole flow restricter system.

(1), in the time that electric power system normally moves, autotransducer Lsat is in undersaturated condition, the now impedance of Z (Lsat) trend is infinitely great, is equivalent to be bypassed, and system is not produced to any adverse effect; Meanwhile, the capacitive reactance of C1 and the induction reactance of Lc be designed to size the same, now the impedance Z 0 of whole flow restricter is: Z0=Z _c1-Z _lc≈ 0; Wherein:

$Z_{C1}=\frac{1}{\mathrm{j\ωC}1};$ Z _Lc=jωLc

Now flow restricter is equivalent to a wire, and whole circuit is had no adverse effect;

(2), in the time that electric power system is short-circuited, most of line voltage distribution is added on flow restricter, now the voltage on Lsat is far longer than the design load when unsaturated, under high pressure moment enters hypersaturated state to the iron core of autotransducer Lsat, iron core produces impedance and trends towards zero, the impedance of autotransducer Lsat is determined by the leakage reactance of winding completely, design suitable leakage reactance value, make to have on autotransducer Lsat leakage reactance winding just there is complete or incomplete parallel resonance with capacitor C1 moment, thereby make parallel impedance be Zb be infinitely great or a larger definite value ( ), concrete condition is decided by the cut-off current of the line system of detailed programs.

Analyze above-mentioned technology contents known: suitable Lsat and C1 value are set, make ω ²l _satvalue that C1 and 1 differs is smaller or be the numerical value of needs, and the impedance of Zb is very large, has played the effect of fault current limiting.

In addition, if ω L is set _satvery little, approach zero, be equivalent to C1 and be bypassed.Now, fault current is only crossed Lsat(fraction by reactor Lc with most of logical autotransducer and is passed through C1), that play metering function is mainly Lc, so also can reach the object of fault current limiting.

The concrete structure of the autotransducer type fault current limiter below the utility model embodiment being provided is described further:

Referring to Fig. 4, on described the first branch road, be also in series with damping circuit D.The two ends of capacitor C1 on described the second branch road are also parallel with respectively lightning arrester MOVC and controllable spark gap G.It is metal-oxide semiconductor (MOS) rheostat that the two ends of described reactor Lc are also parallel with respectively lightning arrester MOVL(, MOV) and capacitor for voltage protection C2.

It should be noted that, the reactor Lb1 that current-limiting protection capacitor is used and current-limiting protection reactor Lb2 play current-limiting protection effect to C1 and Lsat respectively.Wherein Lb1 numerical value is less; Wherein Lb2 can be designed as a very little or larger numerical value, in the time that leakage reactance is not enough, provides part induction reactance.

Lightning arrester MOVC shields to C1, and lightning arrester MOVL and capacitor C2 shield to Lc.Controllable spark gap G, plays backup protection effect to the overvoltage of capacitor group.In addition, damping circuit D plays restriction damping discharging current, guarantees capacitor group, spark gap, autotransducer Lsat safe operation.

Preferably, also comprise ON-OFF control circuit, described ON-OFF control circuit comprises by-pass knife switch MBS, wherein:

The two ends of described by-pass knife switch MBS are electrically connected with the input of described damping circuit D and the output of reactor Lc respectively.

Described ON-OFF control circuit also comprises bypass breaker B, wherein:

The two ends of described bypass breaker are electrically connected with the input of current-limiting protection reactor Lb1 and the output of described autotransducer Lsat respectively.

It should be noted that, as shown in Figure 4, bypass breaker B and by-pass knife switch MBS, in the time of flow restricter maintenance or fault, ensure that circuit can normally move.Meanwhile, the multiple switching devices (for example: grounding switch ES1, grounding switch ES2 and isolation switch DS2) in this circuit structure are also to play isolation electric power system and flow restricter, convenient maintenance, and to this utility model, embodiment repeats no more.

In the utility model embodiment, above-mentioned autotransducer (Lsat) can play again in the time of fault can moment and parallel resonant capacitor, make flow restricter enter complete or incomplete parallel resonance state, produce great parallel resonance impedance and carry out fault current limiting.

The leakage reactance of this autotransducer (Lsat), after core sataration, the sky of coil is anti-: $\frac{{0.08d}_{\mathrm{cp}}^2\×n^2\text{\×}{10}^{-3}}{3d_{\mathrm{cp}}+9H+10d}\mathrm{mH};$

In above-mentioned formula, the thickness of d=winding; The number of turn of n=winding; The height of H=winding; The average diameter of dcp=winding.As can be seen here, improve the value of L, can realize by the number of turn that improves dcp and winding.It is larger that this single-phase reactor coil is overlooked diameter, to ensure that leakage reactance meets the demands; Iron core is without air gap; Wherein two coils are to link together, flow direction is identical, actual is that the structure of a winding (it should be noted that, Fig. 4 is the schematic diagram of single-phase access grid current limiting device system, flow restricter system in three-phase access electrical network is made up of three such flow restricters of Fig. 4 in addition, and to this utility model, embodiment repeats no longer one by one).

The autotransducer type fault current limiter that the utility model embodiment provides has comparatively superior practicality; illustrate: the flow restricter with a 220kv system is embodied as example: when single-phase shorted to earth fault occurs 220kv system; single-phase voltage to earth is 127kv; the circuit of system and power supply total impedance are 1.8 Ω, and short circuit current is 70.5kA; Series design value is that after the utility model flow restricter of 1.9 ohm, short circuit current can be reduced to 39.6kA.Fault current reduced rate is 43.8%.By designing different Lc and C1 resistance value, according to system actual demand, can obtain lower fault current.The utility model does not need superconductive element, enter operating state and the condition responsive speed of resuming work fast.

In the utility model, critical component is high impedance autotransducer, has replaced GTO of the prior art or SCR device.In existing production technology; can processing and have the similar reactor of 800kV to move in electrical network; the feature of reactor is exactly resistance to superhigh pressure; sturdy shock-resistant; Operation and Maintenance is simple; stable, can bring into play fully the shove effect of protector of electrical network that fault current limiter plays in transformer station.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims (6)

1. an autotransducer type fault current limiter, is characterized in that, comprises the first branch road parallel with one another and the second branch road, and the reactor Lc connecting with described the first branch road and the second branch road;

Leakage resistance Rj falls in described the first branch road when comprising current-limiting protection reactor Lb2, the autotransducer Lsat of series connection successively and recovering; Described the second branch road comprises capacitor C1 and the current-limiting protection reactor Lb1 of series connection successively, wherein:

Described autotransducer comprises an iron core and two winding coils.

2. autotransducer type fault current limiter according to claim 1, is characterized in that,

On described the first branch road, be also in series with damping circuit D.

3. autotransducer type fault current limiter according to claim 2, is characterized in that,

The two ends of capacitor C1 on described the second branch road are also parallel with respectively lightning arrester MOVC and controllable spark gap G.

4. autotransducer type fault current limiter according to claim 3, is characterized in that,

The two ends of described reactor Lc are also parallel with respectively lightning arrester MOVL and capacitor for voltage protection C2.

5. autotransducer type fault current limiter according to claim 4, is characterized in that,

Also comprise ON-OFF control circuit, described ON-OFF control circuit comprises by-pass knife switch MBS, wherein:

The two ends of described by-pass knife switch MBS are electrically connected with the input of described damping circuit D and the output of reactor Lc respectively.

6. autotransducer type fault current limiter according to claim 5, is characterized in that,

Described ON-OFF control circuit also comprises bypass breaker B, wherein:

The two ends of described bypass breaker are electrically connected with the input of current-limiting protection reactor Lb1 and the output of described autotransducer Lsat respectively.