CN104868503A - Wind turbine generating set testing power supply with functions of energy storage and load simulation and method - Google Patents

Abstract

The invention disclose a wind turbine generating set testing power supply with the functions of energy storage and load simulation and a testing method. The testing power supply comprises an energy storage unit, a power conversion unit and a simulate resistor unit, wherein the energy storage unit comprises a lithium battery and a super capacitor; the power conversion unit comprises one or more DC/AC convertors and one or more DC/DC convertors; the DC/AC convertors and the DC/DC convertors are connected in parallel to the DC side of a major loop; the DC/AC convertors are used for converting DC output by the lithium battery connected to the DC side of the major loop into three-phase AC which is output to a transformer on the AC side of the major loop; the output ends of the DC/DC convertors are connected with the lithium battery through a fourth AC switch, connected with the super capacitor through a fifth AC switch, and connected with the simulate resistor unit through a third AC switch. The testing power supply integrates the functions of energy storage and energy discharging into a whole; due to the design of the energy storage unit, the fluctuating load adaptive capacity of the testing power supply is greatly enhanced.

Description

A kind of wind turbine generator testing power supply with energy storage and fictitious load and method

Technical field

The present invention relates to wind power system test field, particularly the testing power supply that generates electricity of a kind of wind power generation set grid-connection and method of testing.

Background technology

Along with the change of world energy sources general layout, the focus that wind power generation Yi Cheng various countries competitively study, develop.After wind energy turbine set capital construction completes, before access bulk power grid, the Static and dynamic debugging of the equipment such as water circuit system, master control system, blower fan electricity boat system, wind electric converter must be completed, guarantee safe and punctual operation after electricity generation system access bulk power grid, reduce debug time.Wind energy turbine set is mostly remote, bad environments, has wanted grid-connected front debugging efforts, needs to use energy storage inverter and artifical resistance unit, the industrial-frequency alternating current of electric energy inversion needed for debugging that the former will be stored in energy-storage units, energy ezpenditure unnecessary for wind turbine generator falls by the latter.

Blower fan integrated testing power supply and load (i.e. wind turbine generator and wind electric converter) thereof can regard a microgrid as, and energy storage inverter system is the important step regulating testing power supply performance, guaranteed load power supply quality.The single energy storage of the many employings of existing energy storage inverter (as depicted in figs. 1 and 2), also part case is had to adopt by DC/DC hybrid energy-storing (as shown in Figure 3) in parallel, but (as wind electric converter+generator etc. can the load of follow-up power output) this specific loads situation of all not considering that load energy is instead filled with, limits energy storage inverter in the larger load of fluctuation, the application had in the anti-load of filling with of energy.

The energy storage inverter of existing techniques in realizing, the single energy-storage units of a general configuration, or realize hybrid energy-storing by many group DC/DC, but be not all furnished with high-power artifical resistance unit.When the bearing power of power-supply system ask for instantaneous larger time, easily single energy-storage units is caused damage (flow valuve as resistance in battery protecting plate not then occurs that battery cuts out system and causes power supply to be shut down); When system load has that power is counter fills with, if energy-storage units charge power is less than and instead fills with power, then busbar voltage can be caused to arch up, the useful life of power device, energy-storage units is impacted; When energy-storage travelling wave tube memory capacity is inadequate, out of servicely must can charge to it, use other set of device or a whole set of testing power supply system is cut out, connecting electrical network and energy-storage units is charged, so not only time-consuming but also require great effort, have impact on system service efficiency, engineering efficiency.

Summary of the invention

First object of the present invention is to provide a kind of super capacitor to combine energy storage with lithium battery, carry high-power fictitious load, the energy storage inverter system of three-phase bridge inverter and the combination of Buck/Boost converter, be applied to Wind turbines testing power supply device, energy storage part diversity high energy density characteristic and high power density characteristic are in one, Buck/Boost converter integrates the functions such as the controlled discharge of lithium battery and super capacitor discharge and recharge and artifical resistance unit, energy-storage units and artifical resistance unit coordinate the energy in bidirectional flow realizing testing power supply system mutually, complete the debugging efforts of wind farm grid-connected front each system.Another object of the present invention is to provide the method for testing of above-mentioned testing power supply.

The present invention specifically adopts following technical scheme:

With a wind turbine generator testing power supply for energy storage and fictitious load, comprise energy-storage units, power conversion unit and artifical resistance unit, it is characterized in that:

Described energy-storage units comprises lithium battery and super capacitor, described power conversion unit comprises at least one DC/AC converter and at least one DC/DC converter, described DC/AC converter and DC/DC converter are at major loop DC side parallel, the direct current that the lithium battery being connected to major loop DC side exports is converted to three-phase alternating current and outputs to major loop AC transformer by described DC/AC converter, and the output of DC/DC converter connects lithium battery through the 4th alternating-current switch, connects super capacitor, through the 3rd alternating-current switch connecting analog resistance unit through the 5th alternating-current switch.

During test, start when wind electric converter net side starts, closed 5th alternating-current switch, by super capacitor for wind electric converter provides impact energy; When wind electric converter net side starts successfully, disconnect the 5th alternating-current switch; When starting after fan starting that energy is counter fills with, by major loop to lithium cell charging, be full of rear closed 5th alternating-current switch to charge to super capacitor, if also have excess energy after being full of, disconnect the 4th alternating-current switch and the 5th alternating-current switch, closed 3rd alternating-current switch simultaneously, utilizes artifical resistance unit to release unnecessary energy.

The blower fan system debugging efforts of application of power of the present invention before wind energy turbine set connects bulk power grid, comprises and becomes oar and the debugging of yaw system, the grid-connected test of small-power of wind electric converter, and the system debug work etc. of complete machine.The primary power completing debugging is provided by lithium battery and bank of super capacitors, when blower fan generated energy is counter fill with time charge to energy-storage units, be greater than " asking " for preventing anti-energy " confession " of filling with, artifical resistance unit provides that lets out can passage.This power acquisition voltage-type three phase full bridge current transformer, DC side is connected with lithium battery group, be connected with super capacitor and artifical resistance unit by DC/DC, AC is connected with three-phase three winding isolating transformer after filter, form the topological structure of similar energy storage inverter system, export 380Vac and 690Vac three-phase main-frequency AC power.

Beneficial effect of the present invention:

(1) energy-storage units is in parallel by power switch with artifical resistance unit, integrating energy storage and let out can, before tested system does not access bulk power grid, provide energy to support and stored energy, when system load generation energy is counter fill with time provide that let out can passage, and by connecing the electric current of artifical resistance unit to DC/DC institute and power controls, realize the charging current to energy-storage units and power control.

(2) super capacitor is in parallel with lithium battery by two-way DC/DC converter, realizes the perfect unity of high energy density characteristic and high power characteristic, greatly strengthen the fluctuating load adaptive capacity of system.

(3) adopt three road DC/DC as the switch of 3 road artifical resistances, achieve the timesharing incision of artifical resistance unit, the large raising of equivalent switching frequency, for three times of single channel, instantaneous and the stable state that can better realize electric current and power controls, reduce the power of single channel ohmic load simultaneously, contribute to the design of cooling system, improve economic performance.

(4) Buck/Boost circuit and artifical resistance cell discharge loop share 3 road DC/DC switches, realize its time-sharing multiplex, decrease the usage quantity of DC/DC filter and IGBT, saved cost by alternating-current switch.

(5) power device DC side, AC all have electromagnetic interface filter, effectively reduce high fdrequency component to the negative effect exporting the quality of power supply, suppress electromagnetic interference on the impact of control system.

(6) DC/DC outlet side adopts the coupling inductance of band common mode inductance, runs in an interleaved manner, thus under the constant condition of common mode inductance (DC filtering inductance), differential mode current sharing inductor is increased, total inductor size reduction; Use alternating expression method to run, improve the equivalent switching frequency of coupling inductance, the noise produced when inductance is worked reduces.

Accompanying drawing explanation

Fig. 1 is traditional single energy storage inverter topological structure 1;

Fig. 2 is traditional single energy storage inverter topological structure 2;

Fig. 3 is conventional hybrid energy storage inverter topological structure;

Fig. 4 is power-supply system topological structure of the present invention;

Fig. 5 is three-phase bridge inversion unit structure chart;

Fig. 6 is two-way DC/DC cellular construction figure.

Embodiment

Below in conjunction with specific embodiment, the present invention is further detailed.

Fig. 4 is the topological structure block diagram of technical solution of the present invention, forms primarily of energy-storage units, power conversion unit, three-phase three winding isolating transformer TM, artifical resistance unit (bleeder resistance) LOAD and first ~ the 5th alternating-current switch QF1 ~ QF5.

Energy-storage units is made up of lithium battery Battery and super capacitor Super Capacitors, power conversion unit is made up of DC/AC converter U1 and DC/DC converter U2, DC/AC converter and DC/DC converter are at major loop DC side parallel, lithium battery is connected to major loop DC side, and first, second alternating-current switch QF1, QF2 are positioned on major loop.The direct current that lithium battery exports is through direct current electromagnetic interface filter (not shown in FIG.) ingoing power converter unit bus.As shown in Figure 5, DC/AC converter adopts three-phase bridge inversion unit, the DC inverter exported by lithium battery is the three-phase alternating current with rated voltage, frequency, three-phase three winding isolating transformer alternating current being sent into major loop AC after LC filter and interchange electromagnetic interface filter (not shown in FIG.) carries out power distribution, exports 380Vac and 690Vac three-phase main-frequency alternating current respectively by two, secondary limit winding.As shown in Figure 6, DC/DC converter is made up of the three staggered two-way chopper circuits in tunnel, and its output (not with the parallel connection of DC/AC converter one end) is connected lithium battery through the 4th alternating-current switch, connects super capacitor through the 5th alternating-current switch, through the 3rd alternating-current switch connecting analog resistance unit.Three, the input side of the 4th, the 5th alternating-current switch QF3 ~ QF5 is in parallel, the three road positive poles rear output in parallel respectively of the 4th, the 5th alternating-current switch QF4, QF5 outlet side.DC/DC converter adopts the LC filter circuit of band magnetic coupling inductance, and equivalence improves switching frequency, greatly reduces du/dt, reduce simultaneously artifical resistance unit let out can time bus direct voltage fluctuation, decrease the noise of inductance simultaneously.In Fig. 4, Cd1 and Cd2 represents the filter capacitor in this LC filter circuit.

During test, make power conversion unit time-sharing multiplex by the three ~ five alternating-current switch (circuit breaker or contactor) QF3 ~ QF5, realize energy-storage units discharge and recharge (comprising energy-storage units initial charge) and artifical resistance unit and let out and can timesharing carry out.

When giving energy-storage units initial charge, by DC/DC converter and the 4th alternating-current switch QF4 to lithium cell charging, charged to super capacitor by DC/DC converter and the 5th alternating-current switch QF5.

When wind electric converter starts PWM rectification and excitation (net side starts and starts), closed 5th alternating-current switch QF5, by super capacitor for wind electric converter provides impact energy, when wind electric converter net side starts successfully, disconnects the 5th alternating-current switch QF5.When starting after fan starting that energy is counter fills with, by major loop to lithium cell charging, be full of rear closed 5th alternating-current switch QF5 to charge to super capacitor, if also have excess energy after being full of, disconnect the 4th alternating-current switch QF4 and the 5th alternating-current switch QF5, closed 3rd alternating-current switch QF3 simultaneously, utilizes artifical resistance unit to release unnecessary energy.

When the power of filling with when wind electric converter is counter is greater than the charge power of lithium battery, the the 4th, the 5th alternating-current switch QF4, QF5 is kept to disconnect, closed 3rd alternating-current switch QF3 simultaneously, regulating by changing DC/DC duty ratio power of releasing, making instead to fill with power and lithium cell charging power, power of releasing reach balance.

DC side and the AC of major loop all join electromagnetic interface filter, for suppressing high fdrequency component to power device, the negative effect exporting the quality of power supply.System exports and connects three-phase three winding isolating transformer, realize energy storage inverter system, wind electric converter, by the electrical isolation between electric loading, filtering electricity consumption load bring three integral multiple subharmonic.

The present invention is when testing Wind turbine small-power and generating electricity by way of merging two or more grid systems, before not connecing artifical resistance unit, two-way DC/DC converter is only connected with super capacitor, lithium battery and super capacitor realize the controlled discharge of lithium battery and super capacitor by this converter, realize the functions such as the controlled charging of super capacitor simultaneously, complete the hybrid energy-storing of the two, realize the perfect adaptation of high-energy-density and high power density.

When generating electricity by way of merging two or more grid systems, through the switching of switch, energy-storage units realizes in parallel with ohmic load by two-way DC/DC converter.Before two-way DC/DC converter is connected on artifical resistance unit, let out can overcharge to prevent energy-storage units by passage when system load has can to provide when power is counter fills with, and by connecing the electric current of artifical resistance unit to DC/DC institute and power controls, realize the charging current to energy-storage units and power control.

By analysis, adopt time-sharing multiplex topological structure, a set of two-way DC/DC current transformer can be saved compared to traditional approach, save hardware cost; The time-sharing multiplex of two-way DC/DC, decreases the use of copper bar and cable, also saves cost while improving the utilization rate of device.

Claims (10)

1. the wind turbine generator testing power supply with energy storage and fictitious load, comprises energy-storage units, power conversion unit and artifical resistance unit, it is characterized in that:

Described energy-storage units comprises lithium battery and super capacitor, described power conversion unit comprises at least one DC/AC converter and at least one DC/DC converter, described DC/AC converter and DC/DC converter are at major loop DC side parallel, the direct current that the lithium battery being connected to major loop DC side exports is converted to three-phase alternating current and outputs to major loop AC transformer by described DC/AC converter, and the output of DC/DC converter connects lithium battery through the 4th alternating-current switch, connects super capacitor, through the 3rd alternating-current switch connecting analog resistance unit through the 5th alternating-current switch.

2. the wind turbine generator testing power supply of band as claimed in claim 1 energy storage and fictitious load, is characterized in that described DC/DC converter is made up of the three staggered two-way chopper circuits in tunnel.

3. the wind turbine generator testing power supply of band as claimed in claim 2 energy storage and fictitious load, is characterized in that described DC/DC converter adopts the LC filter circuit of band magnetic coupling inductance.

4. the wind turbine generator testing power supply of band as claimed in claim 1 energy storage and fictitious load, is characterized in that major loop DC side, AC is all furnished with electromagnetic interface filter.

5. the wind turbine generator testing power supply of band as claimed in claim 1 energy storage and fictitious load, is characterized in that the input side of the 3rd, the 4th, the 5th alternating-current switch is in parallel.

6. the wind turbine generator testing power supply of band as claimed in claim 1 energy storage and fictitious load, is characterized in that the positive pole of the 4th, the 5th alternating-current switch outlet side is in parallel respectively.

7. the wind turbine generator testing power supply of band as claimed in claim 1 energy storage and fictitious load, it is characterized in that described transformer adopts three-phase three winding isolating transformer, secondly limit winding exports 380Vac and 690Vac three-phase main-frequency alternating current respectively.

8. the method for testing of testing power supply as claimed in claim 1, is characterized in that:

Start when wind electric converter net side starts, closed 5th alternating-current switch, by super capacitor for wind electric converter provides impact energy; When wind electric converter net side starts successfully, disconnect the 5th alternating-current switch; When starting after fan starting that energy is counter fills with, by major loop to lithium cell charging, be full of rear closed 5th alternating-current switch to charge to super capacitor, if also have excess energy after being full of, disconnect the 4th alternating-current switch and the 5th alternating-current switch, closed 3rd alternating-current switch simultaneously, utilizes artifical resistance unit to release unnecessary energy.

9. method of testing as claimed in claim 8, is characterized in that:

When the power of filling with when wind electric converter is counter is greater than the charge power of lithium battery, the the 4th, the 5th alternating-current switch is kept to disconnect, closed 3rd alternating-current switch simultaneously, regulates by changing DC/DC duty ratio power of releasing, and makes instead to fill with power and lithium cell charging power, power of releasing reach balance.

10. method of testing as claimed in claim 8, is characterized in that, when giving energy-storage units initial charge, by DC/DC converter and the 4th alternating-current switch to lithium cell charging, is charged to super capacitor by DC/DC converter and the 5th alternating-current switch.