CN104104108A - Feedforward voltage drop or surge compensation device based on wind power, and method - Google Patents

Abstract

The invention discloses a feedforward voltage drop or surge compensation device based on wind power. The compensation device comprises a wind power generator, a rectification unit, an H bridge inversion unit, a transformer, a grid-connected inverter, a direct current chopper unit, a direct current detection device, a direct current voltage detection device, an alternating current voltage detection device and a controller, wherein the controller is connected with the direct current detection device, the direct current voltage detection device, the rectification unit and the wind power generator respectively, judges a working state of a grid according to an alternating current voltage value transmitted by the alternating current voltage detection device to control the H bridge inversion unit to output alternating current voltage to compensate voltage drop or surge of the grid, controls the grid-connected inverter to inject electric energy into the grid, and controls the direct current chopper unit to release the electric energy. The invention further discloses a method for compensating the voltage drop or the surge based on the compensation device.

Description

A kind of feed-forward type voltage based on wind-powered electricity generation falls surge compensation arrangement and method

Technical field

The present invention relates to a kind of voltage compensating device and method, relate in particular to a kind of voltage compensating device and method based on wind-powered electricity generation.

Background technology

Developed country is very high to the requirement of quality of power supply level, power quality problem not only can bring very large economic loss to industrial quarters, as stopped work and restarting, cause production cost to increase, the damage equipment that is quick on the draw, scrap semi-finished product, reduce product quality, cause marketing difficulty and infringement corporate image and and user's good commercial relations etc., and bring harm can to the equipment of the important electricity consumption such as medical treatment department, cause serious production and interruption of service.EPRI-Electric Power Research Institute (EPRI) studies show that, power quality problem causes American industry in data every year, and the loss in material and productivity reaches 30,000,000,000 dollars (Electric Power Research Institute, 1999); The developed countries such as Japan require also very high to the quality of power supply.Along with developing rapidly of China's high-technology industry, requirement to quality of power supply level is more and more higher, voltage falls, surge is subject matter wherein, although voltage falls, the surge duration is short, but it can cause interruption or the shut-down of industrial process, and cause industrial process downtime be far longer than of accident itself time, the loss therefore causing is very large.

Traditional method, as voltage regulator can not address these problems, though and uninterrupted power supply UPS device can address these problems, but its cost and operating cost are all extremely expensive.In order to address the above problem, dynamic voltage compensator has been carried out to research both at home and abroad.Than UPS, dynamic voltage compensator can effectively solve the problem that voltage is subside, and still, energy storage problem is perplexing the research of dynamic voltage compensator always, although someone proposes the advanced methods such as least energy injection method, extra energy storage affects all the time it and further promotes, develops.

Summary of the invention

One of object of the present invention is to provide a kind of feed-forward type voltage based on wind-powered electricity generation and falls surge compensation arrangement, and it utilizes wind power generation to fall surge to the voltage in electrical network and compensates, thereby guarantees that load voltage does not change, and then has protected load; Meanwhile, this device can utilize wind power generation to supply with for electrical network electric energy provides to supplement, thereby does not need to arrange extra energy-storage travelling wave tube.

Another object of the present invention is to provide and a kind ofly adopts the above-mentioned feed-forward type voltage based on wind-powered electricity generation to fall surge compensation arrangement to carry out the method that voltage falls surge compensation.

In order to achieve the above object, the invention provides a kind of feed-forward type voltage based on wind-powered electricity generation and fall surge compensation arrangement, it comprises:

Wind-driven generator, it is alternating current output by wind power transformation;

Rectification unit, its ac input end is connected with the output of described wind-driven generator, and the alternating current of wind-driven generator output output is converted to direct current output;

H bridge inversion unit, its DC bus is connected with the DC output end of described rectification unit;

Transformer, its primary coil is connected with the output of described H bridge inversion unit, and the secondary coil of transformer is used for being serially connected in electrical network;

Combining inverter, its DC bus is connected with the DC output end of described rectification unit, and the output of combining inverter is for being connected with electrical network;

Direct current chopper unit, its DC bus is connected with the DC output end of described rectification unit;

Direct current detection device, it is connected with the DC output end of rectification unit, to detect the electric current of rectification unit output;

DC voltage detecting device, it is connected with the DC output end of rectification unit, to detect the voltage of rectification unit output;

Alternating voltage checkout gear, it is in order to be connected with electrical network, with the voltage of detection of grid;

Controller, it is connected with wind-driven generator with described direct current detection device, DC voltage detecting device, rectification unit respectively, described controller receives DC current values and the DC voltage value of direct current detection device and DC voltage detecting device transmission, regulates the rotating speed of wind-driven generator so that rectification unit is carried out to maximal power tracing control; Described controller is also connected with alternating voltage checkout gear, H bridge inversion unit, combining inverter and direct current chopper unit, described controller is according to the operating state of the ac voltage judgement electrical network of alternating voltage checkout gear transmission, to control H bridge inversion unit output AC voltage, line voltage is fallen or surge compensates, described controller is also controlled combining inverter and is injected electric energy to electrical network, and controls direct current chopper unit release electric energy.

Feed-forward type voltage based on wind-powered electricity generation of the present invention falls in surge compensation arrangement, and described controller can be electronic device or the smart machines such as digital signal processor, single-chip microcomputer, computer; Describedly judge that the operating state of electrical network comprises that whether detection of grid voltage U s is normal, as whether having voltage to fall or surge.The electric energy that device of the present invention produces wind-driven generator is controlled distribution; Controller is according to the operating state of alternating voltage checkout gear output judgement electrical network; The operating state of judgement electrical network is when normal, and controller is controlled the electric energy that wind-driven generator produces and injected to electrical network by combining inverter; When judgement electrical network generation voltage falls, control the electric energy of wind-driven generator generation and export fast corresponding bucking voltage amount by H bridge inversion unit and transformer, the voltage of load end is remained unchanged, thereby protected load, the electric energy of simultaneously controlling wind-driven generator generation injects to electrical network by combining inverter; During judgement electrical network generation voltage surge, control the electric energy of wind-driven generator generation and export fast corresponding bucking voltage amount by H bridge inversion unit and transformer, the voltage of load end is remained unchanged, thereby protected load, utilize direct current Chopper unit to discharge the unnecessary energy of DC bus simultaneously, maintain the stable of DC bus-bar voltage; Described DC bus is the DC bus of H bridge inversion unit, combining inverter and direct current chopper unit simultaneously.

Device of the present invention has utilized the wind energy of environmental protection, has solved line voltage and has fallen compensation and the energy storage problem with surge, and the combining inverter in device is taked feed-forward mode in addition, thereby does not increase the overhead provision of transformer and H bridge inversion unit.

Further, at the above-mentioned feed-forward type voltage based on wind-powered electricity generation, fall in surge compensation arrangement, described controller comprises digital signal processor.

Further, at the above-mentioned feed-forward type voltage based on wind-powered electricity generation, fall in surge compensation arrangement, described controller comprises single-chip microcomputer.

Further, at the above-mentioned feed-forward type voltage based on wind-powered electricity generation, fall in surge compensation arrangement, described direct current detection device comprises DC current sensor.

Further, at the above-mentioned feed-forward type voltage based on wind-powered electricity generation, fall in surge compensation arrangement, described DC voltage detecting device comprises direct current voltage sensor.

Further, at the above-mentioned feed-forward type voltage based on wind-powered electricity generation, fall in surge compensation arrangement, described alternating voltage checkout gear comprises AC voltage sensor.

Correspondingly, the present invention also provides a kind of and has adopted the above-mentioned feed-forward type voltage based on wind-powered electricity generation to fall surge compensation arrangement to carry out the method that voltage falls surge compensation, and it comprises step:

Adopting wind-driven generator is alternating current output by wind energy transformation;

Adopt rectification unit that the alternating current of wind-driven generator output is converted to galvanic current, and rectification unit is carried out to maximal power tracing control so that the direct current active power of rectification unit output is maximum;

Adopt H bridge inversion unit and combining inverter to change the direct current of rectification unit output into alternating current;

Detection of grid voltage U _swhether normal: if be judged as YES, making controller control H bridge inversion unit is zero to the alternating voltage of electrical network output, and controls whole electric energy injection electrical networks that combining inverter produces wind-driven generator; If be judged as NO, further judge that electrical network voltage has occurred and fallen or voltage surge has occurred: if be judged as voltage, fall, control H bridge inversion unit to the alternating voltage U of electrical network output _j=U _s0-U _s, and control the remaining electric energy injection electrical network that combining inverter produces wind-driven generator; If be judged as voltage surge, control H bridge inversion unit to the alternating voltage U of electrical network output _j=U _s0-U _s, and control the unnecessary electric energy that direct current chopper unit discharges wind-driven generator generation, to maintain the stable of DC bus-bar voltage; U wherein _s0for electrical network standard alternating supply voltage value.

Voltage of the present invention falls surge compensation method and utilizes the feed-forward type voltage based on wind-powered electricity generation of the present invention to fall the realization of surge compensation arrangement.Described DC bus is the DC bus of H bridge inversion unit, combining inverter and direct current chopper unit simultaneously; Line voltage Us detects by alternating voltage checkout gear.

Further, the described step that rectification unit is carried out to maximal power tracing control is: controller detects the active power of rectification unit output, judge whether the active power of this output is greater than the active power of output last time, if be judged as YES, increase the rotating speed of wind-driven generator, if be judged as NO, the rotating speed that maintains wind-driven generator is constant.

Further, at above-mentioned voltage, fall in surge compensation method, adopt respectively direct current detection device and DC voltage detecting device to detect the galvanic electric current I of rectification unit output _wand voltage U _w, to obtain the active-power P of rectification unit output _w=U _w* I _w.

Further, at above-mentioned voltage, fall in surge compensation method, work as 90%U _s0≤ U _s≤ 110%U _s0, judge that line voltage Us is for normal; Work as U _s< 90%U _s0, be judged as voltage and fall; Work as U _s> 110%U _s0, be judged as voltage surge.

Feed-forward type voltage based on wind-powered electricity generation of the present invention falls surge compensation arrangement, has the following advantages:

1) can effectively solve line voltage and fall the compensation problem with surge, thus protection load;

2) adopt transformer mode, make applicable voltage range wider;

3) effectively utilized the wind energy of environmental protection, energy-storage units can be additionally set;

4) combining inverter in device is taked feed-forward mode, thereby does not increase the overhead provision of transformer and H bridge inversion unit.

Feed-forward type voltage based on wind-powered electricity generation of the present invention falls surge compensation method and has equally above-mentioned advantage based on said apparatus.

Accompanying drawing explanation

Fig. 1 is that the feed-forward type voltage based on wind-powered electricity generation of the present invention falls the structural representation of surge compensation arrangement under a kind of execution mode.

Fig. 2 is the H bridge inversion unit topological diagram that the feed-forward type voltage based on wind-powered electricity generation of the present invention falls surge compensation arrangement.

Fig. 3 is the combining inverter topological diagram that the feed-forward type voltage based on wind-powered electricity generation of the present invention falls surge compensation arrangement.

Fig. 4 is that the feed-forward type voltage based on wind-powered electricity generation of the present invention falls the flow chart of surge compensation method under a kind of execution mode.

Embodiment

By the feed-forward type voltage based on wind-powered electricity generation of the present invention being fallen to surge compensation arrangement according to specific embodiment and Figure of description, be described further below, but this explanation does not form inappropriate limitation of the present invention.

Fig. 1 has shown that the feed-forward type voltage based on wind-powered electricity generation of the present invention falls a kind of embodiment of surge compensation arrangement.Fig. 2 and Fig. 3 have shown respectively H bridge inversion unit 3 in this embodiment and the topological diagram of combining inverter 8.

As shown in Figure 1, this device comprises: controller 1, rectification unit 2, H bridge inversion unit 3, transformer 4, direct current voltage sensor 5, DC current sensor 6, AC voltage sensor 7, combining inverter 8, direct current Chopper unit 9 and wind-driven generator 10, wherein, controller 1 is realized by CPU, and its core is digital signal processor, the rectification control end of controller 1 is connected with the corresponding control end of rectification unit 2, and the H bridge inversion control end of controller 1 is connected with the corresponding control end of H bridge inversion unit 3, the DC voltage input end of controller 1 is connected with the output of direct current voltage sensor 5, the direct current input of controller 1 is connected with the output of DC current sensor 6, the alternating current input of controller 1 is connected with the output of AC voltage sensor 7, the rotor speed of controller 1, rotor angle input signal input is connected with the code-disc output that tests the speed of wind-driven generator 10, the parallel network reverse control end of controller 1 is connected with the corresponding control end of combining inverter 8, the direct current Chopper unit controls end of controller 1 is connected with the corresponding control end in direct current Chopper unit 9, the ac input end of rectification unit 2 is connected with the output of wind-driven generator 10, and the DC output end of rectification unit 2 is connected with H bridge inversion unit 3, combining inverter 8 and the DC bus end of direct current Chopper unit 9, the ac output end of H bridge inversion unit 3 is connected with the two ends of the primary coil of transformer 4, the secondary coil of transformer 4 is serially connected in the power transmission line of electrical network, is connected respectively with the feeder ear S of electrical network with load end L, the input of direct current voltage sensor 5 is connected with the DC output end of rectification unit 2, the input of DC current sensor 6 is serially connected with the DC output end of rectification unit 2, the input of AC voltage sensor 7 is connected with mains supply end S, the DC bus end of combining inverter 8 is with the DC bus end of H bridge inversion unit 3, the DC bus end of the DC output end of rectification unit 2 and direct current Chopper unit 9 is connected, and the ac output end of combining inverter 8 is connected with mains supply end S.As shown in Figure 2, the topological structure of H bridge inversion unit 3 comprises some triodes, and its connected mode is as figure, and in figure, DC+ and DC-are respectively positive pole and the negative pole of DC bus; AC is ac output end.As shown in Figure 3, the topological structure of combining inverter 8 comprises some triodes, and its connected mode is as figure, and in figure, DC+ and DC-are respectively positive pole and the negative pole of DC bus; AC is ac output end.

During this device work, the alternating current that rectification unit 2 produces wind-driven generator 10 is converted to direct current output; Controller 1 receives DC current values and the DC voltage value of DC current sensor 6 and direct current voltage sensor 5 transmission, regulates the rotating speed of wind-driven generator 10 so that rectification unit 2 is carried out to maximal power tracing control; Controller 1 is also according to the operating state of the ac voltage judgement electrical network of AC voltage sensor 7 transmission, to control H bridge inversion unit 3 output AC voltages, line voltage is fallen or surge compensates, specifically, controller 1 judges that, when the operating state of electrical network is normal, the electric energy that controller 1 is controlled wind-driven generator 10 generations injects to electrical network by combining inverter 8; When judgement electrical network generation voltage falls, control the electric energy of wind-driven generator 10 generations by H bridge inversion unit 3 and the corresponding bucking voltage amount of transformer 4 quick output, make the voltage U of load end L _lremain unchanged, thereby protected load, the electric energy of simultaneously controlling wind-driven generator 10 generations injects to electrical network by combining inverter 8; During controller 1 judgement electrical network generation voltage surge, control the electric energy of wind-driven generator 10 generations by H bridge inversion unit 3 and the corresponding bucking voltage amount of transformer 4 quick output, make the voltage U of load end L _lremain unchanged, thereby protected load, utilize direct current Chopper unit 9 to discharge the unnecessary energy of DC bus simultaneously, maintain the stable of DC bus-bar voltage.

Fig. 4 is that the feed-forward type voltage based on wind-powered electricity generation of the present invention based on said apparatus falls the flow chart of surge compensation method under a kind of execution mode.

Incorporated by reference to Fig. 1, with reference to figure 4, the method is applied to said apparatus, passes through surveyed direct voltage U _wwith direct current I _wcalculate the power P w of rectification unit output, and it is carried out to maximal power tracing control; By the alternating supply voltage U of detection of grid _s, judge that whether grid ac voltage is normal, when finding that line voltage falls or during surge, controller 1 is controlled the corresponding alternating voltage variable quantity of H bridge inversion unit 3 output, this variable quantity is by 4 couples of load terminal voltage U of transformer _lcompensate, thereby make load terminal voltage U _lbe not subject to line voltage anomalous effects, control combining inverter 8 simultaneously the electric energy of wind-driven generator 10 outputs is injected into electrical network; When line voltage surge causes that DC bus-bar voltage rises, by direct current Chopper unit 9, unnecessary energy is discharged.

Concrete steps are as follows:

1) by controller 1, measure alternating supply voltage U _s, rectification unit 2 output direct voltage U _wwith direct current I _w, wind-driven generator 10 rotating speed and rotor angle;

2) by controller 1, calculate rectification unit 2 active power of output P _w: P _w=U _w* I _w;

3) by controller 1, control the maximal power tracing that rectification unit 2 carries out wind-powered electricity generation:

Judge this rectification unit 2 active power of output P _wwhether be greater than output valve last time, if continue to increase the rotating speed of wind-driven generator 10; Otherwise the rotating speed that maintains wind-driven generator 10 is constant;

4) establish U _s0for electrical network alternating supply voltage value when normal, controller 1 is by AC voltage sensor 7 detection of grid voltage U _swhether normal:

If alternating supply voltage U _slower than normal voltage U _s090% time, be judged as line voltage and fall, controller 1 is controlled electric energy that wind-driven generator 10 produces by the 3 output compensation of H bridge inversion unit, makes the voltage of transformer 4 outputs meet U _j=(U _s0-U _s) (phase place of the alternating voltage of now transformer 4 outputs is identical with line voltage), unnecessary wind-powered electricity generation is passed through to combining inverter 8 to electrical network injecting power simultaneously;

If alternating supply voltage U _shigher than normal voltage U _s0110% time, be judged as line voltage surge, controller 1 is controlled electric energy that wind-driven generator 10 produces by the 3 output compensation of H bridge inversion unit, makes the voltage of transformer 4 outputs meet U _j=(U _s0-U _s) (phase place of the alternating voltage of now transformer 4 outputs is contrary with line voltage), by direct current Chopper unit 9, discharge unnecessary energy, thereby it is stable to maintain DC bus-bar voltage simultaneously.

If below either way do not meet, be judged as line voltage U _snormally, i.e. alternating supply voltage U _smeet 90%U _s0≤ U _s≤ 110%U _s0, controller 1 control H bridge inversion unit 3 is exported and is compensated for as zero, and making transformer 4 inject supply and AC line voltage distributions is zero, the electric energy of wind-driven generator 10 generations is passed through to combining inverter 8 to electrical network injecting power simultaneously.

It should be noted that above cited embodiment is only specific embodiments of the invention.Obviously the present invention is not limited to above embodiment, and the similar variation of thereupon making or distortion are that those skilled in the art can directly draw or be easy to from content disclosed by the invention and just associate, and all should belong to protection scope of the present invention.

Claims (10)

1. the feed-forward type voltage based on wind-powered electricity generation falls a surge compensation arrangement, it is characterized in that, comprising:

Wind-driven generator, it is alternating current output by wind power transformation;

Rectification unit, its ac input end is connected with the output of described wind-driven generator, and the alternating current of wind-driven generator output output is converted to direct current output;

H bridge inversion unit, its DC bus is connected with the DC output end of described rectification unit;

Transformer, its primary coil is connected with the output of described H bridge inversion unit, and the secondary coil of transformer is used for being serially connected in electrical network;

Combining inverter, its DC bus is connected with the DC output end of described rectification unit, and the output of combining inverter is for being connected with electrical network;

Direct current chopper unit, its DC bus is connected with the DC output end of described rectification unit;

Direct current detection device, it is connected with the DC output end of rectification unit, to detect the electric current of rectification unit output;

DC voltage detecting device, it is connected with the DC output end of rectification unit, to detect the voltage of rectification unit output;

Alternating voltage checkout gear, it is in order to be connected with electrical network, with the voltage of detection of grid;

Controller, it is connected with wind-driven generator with described direct current detection device, DC voltage detecting device, rectification unit respectively, described controller receives DC current values and the DC voltage value of direct current detection device and DC voltage detecting device transmission, regulates the rotating speed of wind-driven generator so that rectification unit is carried out to maximal power tracing control; Described controller is also connected with alternating voltage checkout gear, H bridge inversion unit, combining inverter and direct current chopper unit, described controller is according to the operating state of the ac voltage judgement electrical network of alternating voltage checkout gear transmission, to control H bridge inversion unit output AC voltage, line voltage is fallen or surge compensates, described controller is also controlled combining inverter and is injected electric energy to electrical network, and controls direct current chopper unit release electric energy.

2. the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 falls surge compensation arrangement, it is characterized in that, described controller comprises digital signal processor.

3. the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 falls surge compensation arrangement, it is characterized in that, described controller comprises single-chip microcomputer.

4. the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 falls surge compensation arrangement, it is characterized in that, described direct current detection device comprises DC current sensor.

5. the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 falls surge compensation arrangement, it is characterized in that, described DC voltage detecting device comprises direct current voltage sensor.

6. the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 falls surge compensation arrangement, it is characterized in that, described alternating voltage checkout gear comprises AC voltage sensor.

7. adopt the feed-forward type voltage based on wind-powered electricity generation as claimed in claim 1 to fall surge compensation arrangement and carry out the method that voltage falls surge compensation, it is characterized in that, comprise step:

Adopting wind-driven generator is alternating current output by wind energy transformation;

Adopt rectification unit that the alternating current of wind-driven generator output is converted to galvanic current, and rectification unit is carried out to maximal power tracing control so that the direct current active power of rectification unit output is maximum;

Adopt H bridge inversion unit and combining inverter to change the direct current of rectification unit output into alternating current;

Detection of grid voltage U _swhether normal: if be judged as YES, making controller control H bridge inversion unit is zero to the alternating voltage of electrical network output, and controls whole electric energy injection electrical networks that combining inverter produces wind-driven generator; If be judged as NO, further judge that electrical network voltage has occurred and fallen or voltage surge has occurred: if be judged as voltage, fall, control H bridge inversion unit to the alternating voltage U of electrical network output _j=U _s0-U _s, and control the remaining electric energy injection electrical network that combining inverter produces wind-driven generator; If be judged as voltage surge, control H bridge inversion unit to the alternating voltage U of electrical network output _j=U _s0-U _s, and control the unnecessary electric energy that direct current chopper unit discharges wind-driven generator generation, to maintain the stable of DC bus-bar voltage; U wherein _s0for electrical network standard alternating supply voltage value.

8. method as claimed in claim 7, it is characterized in that, the described step that rectification unit is carried out to maximal power tracing control is: controller detects the active power of rectification unit output, judge whether the active power of this output is greater than the active power of output last time, if be judged as YES, increase the rotating speed of wind-driven generator, if be judged as NO, the rotating speed that maintains wind-driven generator is constant.

9. method as claimed in claim 8, is characterized in that, adopts respectively direct current detection device and DC voltage detecting device to detect the galvanic electric current I of rectification unit output _wand voltage U _w, to obtain the active-power P of rectification unit output _w=U _w* I _w.

10. method as claimed in claim 7, is characterized in that, works as 90%U _s0≤ U _s≤ 110%U _s0, judge line voltage U _sfor normally; Work as U _s< 90%U _s0, be judged as voltage and fall; Work as U _s> 110%U _s0, be judged as voltage surge.