CN204578110U - A kind of converter system and double-feedback aerogenerator group - Google Patents

Abstract

A kind of converter system and double-feedback aerogenerator group, converter system comprises current transformer, stator circuit breaker, rotor-side switch and net side protective device, the rotor of the double-fed generator supporting with converter system, the stator winding turn ratio is greater than 1, current transformer machine-side converter connects the rotor windings of double-fed generator, grid side converter connects the electric Rendezvous Point of rotor branch road, stator circuit breaker is connected between the stator winding of double-fed generator and the electric Rendezvous Point of rotor branch road, net side protective device is connected between grid side converter and the electric Rendezvous Point of rotor branch road, rotor-side switch is connected between machine-side converter and double-fed generator rotor windings, double-feedback aerogenerator group comprises tower cylinder, blower fan, gear box, double-fed generator, transformer, vane change device, master controller and above-mentioned converter system.The utility model reduces existing converter system and whole wind turbine generator construction cost, improves system economy; Safe and reliable to operation, easy to use.

Description

A kind of converter system and double-feedback aerogenerator group

Technical field

The utility model relates to a kind of converter system for wind power generation, also relates to the double-feedback aerogenerator group using this converter system.

Background technology

As new forms of energy that are clean, renewable, that have great potential, wind power generation obtains swift and violent development in worldwide.MW class wind turbine group mainly contains double-feedback aerogenerator group and total power formula wind turbine generator.As shown in Figure 1, double-feedback aerogenerator group is primarily of compositions such as tower cylinder (not shown), blower fan, gear box, double-fed generator and converter system, transformer, vane change device and master controllers.Wherein, transformer primary side connects the external electrical network of high pressure, and pair side connects the internal electric network of low pressure, and double-fed generator and converter system, at blower fan, between gear box and internal electric network, are the core systems realizing energy converting between mechanical and control.

Be illustrated in figure 2 existing double-fed generator and converter system.The armature spindle of double-fed generator and blower fan, gear box are mechanically connected, and accept mechanical energy, stator winding, rotor windings all can be fed to electric energy; Converter system generally comprises current transformer, net side fuse FU2, stator contactor K1 and stator circuit breaker Q F1.Wherein current transformer comprises the machine-side converter and grid side converter that are electrically connected by DC bus, is responsible for the power on process doubly-fed generation machine rotor branch road.The stator winding of double-fed generator is connected to the electric Rendezvous Point of rotor branch road by stator contactor K1 and stator circuit breaker Q F1, the rotor windings of double-fed generator then needs to be connected to the electric Rendezvous Point of rotor branch road by current transformer, and the electric Rendezvous Point of this rotor branch road is positioned at the internal electric network of double-feedback aerogenerator group.Usually, between the range of speeds that double-fed generator normally runs is 0.8 to 1.2 times of synchronous speed, namely slip is between 0.2 to-0.2, and between the range of speeds that the limit is run is 0.67 to 1.33 times of synchronous speed, namely slip is between 0.33 to-0.33.According to the power relation characteristic of double-fed generator, namely the ratio of rotor processing power and stator processing power is that it runs the absolute value of slip, therefore converter subsystem needs maximum power to be processed to be about 1/4 of system total power.Meanwhile, the rotor port voltage of double-fed generator and the ratio of stator voltage are the product of rotor windings and the no-load voltage ratio of stator winding and the absolute value of double-fed generator actual motion slip.The rotor windings of general double-fed generator and the no-load voltage ratio of stator winding are about 3:1.Like this, on the range of speeds border that the limit of double-fed generator is run (absolute value of corresponding slip is generally 0.33), the rotor port voltage of double-fed generator and the ratio of stator voltage are near 1, and namely now the numerical value of rotor port voltage and stator voltage and internal electric network voltage is suitable.Usual internal electric network is configured to the alternating current that rated value is 690V, and like this, the voltage of the machine-side converter in current transformer and the required process of grid side converter is all in 690V rank.Above-mentioned design, has fully demonstrated the economy advantage of double-feedback aerogenerator group relative to total power wind turbine generator.

Above-mentioned existing converter system is when double-feedback aerogenerator group is shut down; stator contactor K1 on stator branch road and stator circuit breaker Q F1 wherein one of at least must disconnect; otherwise the high rotor voltage (can reach 2100V) caused due to the large-slip state (slip is 1) be connected to residing for the double-fed generator in internal electric network is directly applied to converter subsystem; converter subsystem can be damaged, more serious accident even occurs.Because the wind behaviour fluctuation of part wind energy turbine set is comparatively frequent; this can cause wind turbine generator to open machine, shutdown frequently; and often there is limited machinery and the restriction of electrical action number of times in stator circuit breaker Q F1; therefore stator circuit breaker Q F1 generally main defencive function when bearing the system failure and maintenance, stator contactor K1 then bears that wind turbine generator normally opens machine, closed, opening operation (now impulse current is often little) when shutting down.Because the action frequency restriction ratio circuit breaker of contactor can exceed a more than order of magnitude, the designed life of system can be ensured like this.

Above-mentioned existing converter system is used widely in wind-powered electricity generation industry, but stator contactor K1 wherein, because its rated current is comparatively large, industrially overall consumption is less, production cost is often higher, have impact on the economy of converter system and even whole double-feedback aerogenerator group.For 2.0MW double-fed generator and converter system, generally need use the stator contactor of 2100A, its price is large about more than 30,000 yuans at present, and small area analysis contactor can be higher relative to the action frequency restriction of big current contactor.

Utility model content

One of the technical problems to be solved in the utility model is, provides a kind of converter system, overcomes existing stator contactor cost high, affects the defect of converter system and even whole wind turbine generator economy.

Two of the technical problems to be solved in the utility model is, provides a kind of double-feedback aerogenerator group, overcomes existing stator contactor cost high, affects the defect of wind turbine generator economy.

The utility model solves the technical scheme that one of its technical problem adopts: construct a kind of converter system, comprises current transformer, stator circuit breaker and net side protective device;

This current transformer comprises the machine-side converter and grid side converter that are connected by DC bus, and this machine-side converter connects the rotor windings of double-fed generator, and this grid side converter connects the electric Rendezvous Point of rotor branch road;

This stator circuit breaker is connected between the stator winding of double-fed generator and the electric Rendezvous Point of rotor branch road;

This net side protective device is connected between this grid side converter and the electric Rendezvous Point of this rotor branch road;

The rotor windings of the double-fed generator supporting with described converter system and the turn ratio of stator winding are greater than 1;

It is characterized in that, this converter system also comprises rotor-side switch, and this rotor-side switch is connected between this machine-side converter and rotor windings of double-fed generator.

In converter system of the present utility model, described net side protective device is circuit breaker or fuse.

In converter system of the present utility model, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

In converter system of the present utility model, described rotor-side switch is contactor or thyristor switch.

The utility model solves the technical scheme that its technical problem two adopts: construct a kind of double-feedback aerogenerator group, comprise tower cylinder, blower fan, gear box, double-fed generator, converter system, transformer, vane change device and master controller; The rotor windings of this double-fed generator and the turn ratio of stator winding are greater than 1; This converter system comprises current transformer, stator circuit breaker and net side protective device; This current transformer comprises the machine-side converter and grid side converter that are connected by DC bus, and this machine-side converter connects the rotor windings of double-fed generator, and this grid side converter connects the electric Rendezvous Point of rotor branch road;

This stator circuit breaker is connected between the stator winding of double-fed generator and the electric Rendezvous Point of rotor branch road;

This net side protective device is connected between this grid side converter and the electric Rendezvous Point of this rotor branch road;

It is characterized in that, this converter system also comprises rotor-side switch, and this rotor-side switch is connected between this machine-side converter and rotor windings of double-fed generator.

In double-feedback aerogenerator group of the present utility model, described net side protective device is circuit breaker or fuse.

In double-feedback aerogenerator group of the present utility model, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

In double-feedback aerogenerator group of the present utility model, described rotor-side switch is contactor or thyristor switch.

Implement converter system of the present utility model and double-feedback aerogenerator group, compared with the prior art, its beneficial effect is:

1. for double-feedback aerogenerator group, in converter system, between the machine-side converter of current transformer and the rotor windings of doubly-fed generation, rotor-side switch is set, because current transformer needs maximum power to be processed to be only about 1/4 of system total power, therefore the switching current grade be arranged on dual feed wind generator rotor branch road is much smaller than the switching current grade on the stator branch road being arranged on double-fed generator, therefore the switch price that the utility model is arranged on generator amature side will far below the switch price be arranged on generator unit stator branch road, thus reduce the construction cost of existing converter system and whole wind turbine generator, improve system economy, for 2.0MW converter system, its rotor rated current can reach 520A, the rotor contact device of 630A can be used, its price is at present at about 0.5 ten thousand yuan, and the price of the stator contactor of the 2100A that existing system generally adopts is greatly about more than 30,000 yuan, and small area analysis contactor can be higher relative to the action frequency restriction of big current contactor, therefore its economy is appreciable,

2. system cloud gray model is safe and reliable; realized the connecting and disconnecting of current transformer and double-fed generator by the rotor-side switch on the road of the rotor arranged when wind turbine generator normally opens machine, shutdown; then can be realized disconnecting with the safety of electrical network by stator circuit breaker and net side protective device when system overhaul, easy to use.

Accompanying drawing explanation

Fig. 1 is double-feedback aerogenerator group basic composition structural representation.

Fig. 2 is the structural representation that existing converter system adds double-fed generator.

Fig. 3 is the structural representation that the utility model converter system adds double-fed generator.

Fig. 4 is the structural representation that the utility model converter system embodiment one adds double-fed generator.

Fig. 5 is the structural representation that the utility model converter system embodiment two adds double-fed generator.

Fig. 6 is the structural representation that the utility model converter system embodiment three adds double-fed generator.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

As shown in Figure 3, converter system of the present utility model comprises current transformer, stator circuit breaker 10 (QF1), net side protective device 16 and rotor-side switch 12.The rotor windings of double-fed generator 100 supporting with this converter system and the turn ratio of stator winding are greater than 1.

Current transformer comprises the machine-side converter 13 and grid side converter 15 that are connected by DC bus 14, and this machine-side converter 13 connects the rotor windings of double-fed generator 100, and grid side converter 15 connects the electric Rendezvous Point 11 of rotor branch road.

Stator circuit breaker 10 is connected between the stator winding of double-fed generator 100 and the electric Rendezvous Point 11 of rotor branch road of double-fed generator 100.

Net side protective device 16 is connected between grid side converter 15 and the electric Rendezvous Point 11 of rotor branch road.

Rotor-side switch 12 is connected between this machine-side converter and rotor windings of double-fed generator.

Embodiment one

As shown in Figure 4, in the present embodiment, rotor-side switch 12 adopts rotor contact device 121 (K2), and net side protective device 16 adopts net side circuit breaker 161.

By action rotor contact device 121; can reach double-feedback aerogenerator group normally open in machine, stopping process eliminate high induction voltage that dual feed wind generator large-slip state may cause on double-feed current transformer in the impact of machine-side converter and grid side converter, weaken the action demand to stator circuit breaker 10.Action frequency restriction because of contactor is generally far longer than the action frequency restriction of circuit breaker, thus ensures the designed life of double-fed generator and converter system.

Certainly, in the orderly closedown process of double-feedback aerogenerator group, also can according to application characteristic (as comparatively stable in site wind, wind turbine generator is without the need to the wind energy turbine set of frequent start-stop) each all to as described in stator circuit breaker 10 perform unconditional opening operation; Or system can shut down the features such as frequency, downtime duration or breaker actuation number of times record to the opening operation of electing property of stator circuit breaker 10 according to reality.

In other embodiments, netting side circuit breaker 161 can adopt net side fuse 162 to replace.

Embodiment two

As shown in Figure 5, in the present embodiment, rotor-side switch 12 adopts rotor contact device 121, and net side protective device 16 adopts net side circuit breaker 161.

In other embodiments, netting side circuit breaker 161 can adopt net side fuse 162 to replace.

The present embodiment is also provided with capacitance group 17, and this capacitance group adopts star connection, on the three-phase line between the stator winding being connected to stator circuit breaker 10 and double-fed generator 100.

After on three-phase line between stator winding capacitance group 17 being articulated in stator circuit breaker 10 and double-fed generator 100; the capacity current produced is designed to suitable with double-fed generator stator side exciting current; following technique effect can be reached: after wind turbine generator orderly closedown; disconnect rotor contact device 121; stator circuit breaker 10 can be kept to close; the capacity current basic neutralisation that the exciting current that now stator winding of double-fed generator is asked for can be produced by described capacitance group, thus substantially additional effect is not produced to external system.

In addition; after wind turbine generator orderly closedown, grid side converter also can be kept to maintain and to run, allow it export a certain amount of capacitive reactive power electric current; the capacity current that the above-mentioned capacitance group of all or part of replacement produces, equally for exciting current that the stator winding of offsetting double-fed generator is asked for.

In other embodiments, the capacitance group 17 of star connection can adopt the capacitance group of delta connection to replace.

Embodiment three

As shown in Figure 6, in the present embodiment, rotor-side switch 12 adopts rotor thyristor switch 122, and net side protective device 16 adopts net side fuse 162.

Because dual feed wind generator rotor branch current is generally about 1/3 of stator side branch current, therefore adopt the three-phase bidirectional switch be made up of thyristor inverse parallel, the present embodiment can reach the technique effect similar with embodiment one and economic benefit.

In other embodiments, rotor-side switch 12 can adopt other can the switch of frequent movement.

In other embodiments, netting side fuse 162 can adopt net side circuit breaker 161 to replace.

In other embodiments, also can arrange capacitance group, capacitance group adopts star connection, on the three-phase line between the stator winding being connected to stator circuit breaker 10 and dual feed wind generator 100.

In other embodiments, the capacitance group of star connection can adopt the capacitance group of delta connection to replace.

Double-feedback aerogenerator group of the present utility model comprises tower cylinder, blower fan, gear box, double-fed generator, converter system, transformer, vane change device and master controller.The annexation of tower cylinder, blower fan, gear box, double-fed generator, converter system, transformer, vane change device and master controller is prior art, converter system adopts above-mentioned converter system of the present utility model, its structure and conversion thereof, as above-mentioned, do not repeat them here.

Claims (10)

1. a converter system, comprises current transformer, stator circuit breaker and net side protective device;

This current transformer comprises the machine-side converter and grid side converter that are connected by DC bus, and this machine-side converter connects the rotor windings of double-fed generator, and this grid side converter connects the electric Rendezvous Point of rotor branch road;

This stator circuit breaker is connected between the stator winding of double-fed generator and the electric Rendezvous Point of rotor branch road;

This net side protective device is connected between this grid side converter and the electric Rendezvous Point of this rotor branch road;

The rotor windings of the double-fed generator supporting with described converter system and the turn ratio of stator winding are greater than 1;

It is characterized in that, this converter system also comprises rotor-side switch, and this rotor-side switch is connected between this machine-side converter and rotor windings of double-fed generator.

2. converter system as claimed in claim 1, it is characterized in that, described net side protective device is circuit breaker or fuse.

3. converter system as claimed in claim 1, it is characterized in that, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

4. converter system as claimed in claim 2, it is characterized in that, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

5. the converter system as described in one of Claims 1-4, is characterized in that, described rotor-side switch is contactor or thyristor switch.

6. a double-feedback aerogenerator group, comprises tower cylinder, blower fan, gear box, double-fed generator, converter system, transformer, vane change device and master controller; The rotor windings of this double-fed generator and the turn ratio of stator winding are greater than 1; This converter system comprises current transformer, stator circuit breaker and net side protective device; This current transformer comprises the machine-side converter and grid side converter that are connected by DC bus, and this machine-side converter connects the rotor windings of double-fed generator, and this grid side converter connects the electric Rendezvous Point of rotor branch road;

This stator circuit breaker is connected between the stator winding of double-fed generator and the electric Rendezvous Point of rotor branch road;

This net side protective device is connected between this grid side converter and the electric Rendezvous Point of this rotor branch road;

It is characterized in that, this converter system also comprises rotor-side switch, and this rotor-side switch is connected between this machine-side converter and rotor windings of double-fed generator.

7. double-feedback aerogenerator group as claimed in claim 6, it is characterized in that, described net side protective device is circuit breaker or fuse.

8. double-feedback aerogenerator group as claimed in claim 6, it is characterized in that, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

9. double-feedback aerogenerator group as claimed in claim 7, it is characterized in that, comprise capacitance group, this capacitance group is delta connection or star connection, is connected on the three-phase line between described stator circuit breaker and the stator winding of double-fed generator.

10. the double-feedback aerogenerator group as described in one of claim 6 to 9, is characterized in that, described rotor-side switch is contactor or thyristor switch.