CN107465212A - Wind turbines microgrid operation virtual inertia control system and method based on virtual synchronous generator techniques - Google Patents

Abstract

The invention discloses the operation virtual inertia control system of the Wind turbines microgrid based on virtual synchronous generator techniques and method, use for reference virtual synchronous generator techniques on going result, module is given by adding additional droop characteristic, design energy storage device autonomous control algorithm and power, blower fan group virtual inertia, energy storage device virtual inertia and VSG inertial responses are cooperated, virtual inertia algorithm is successfully managed and is difficult to compatibling problem with maximal power point tracking algorithm couples, with energy storage algorithm.The present invention can successfully manage various wind speed and load changing problems, limiting AC side frequency discontinuity amplitude, strengthen the autonomous regulating power of micro-grid system, help to expand the contribution that wind power plant adjusts source net G system stability and frequency.Also, it need not be exceeded the speed limit in advance or the measure such as off-load, it is not necessary to add award setting, energy storage device utilization rate and wind energy utilization can be effectively improved.

Description

Wind turbines microgrid operation virtual inertia control based on virtual synchronous generator techniques System and method

Technical field

Sent out the present invention relates to a kind of virtual inertia control method of distributed micro-grid system, more particularly to based on virtual synchronous The Wind turbines microgrid operation virtual inertia control method and system of motor technology, belong to distributed power generation microgrid field.

Background technology

With the fast development of distributed power source and microgrid, new energy power generation technology not only needs to face the energy and hair The electric technical barrier of itself, with greater need for response and the performance for considering source-net-G system overall structure and its each side. In recent years, the utilization rate Continued of regenerative resource, the intermittence of the energy, fluctuation, particularity and customer charge Diversity, dynamic, and the extensive access of the new load such as electric automobile, frequency control, make conventional synchronization generator in power network Installation ratio gradually reduce, spinning reserve capacity and rotary inertia are relative to be reduced, and the stability to source-net-G system is brought Huge challenge.

In traditional wind power plant, combining inverter uses P/Q type Double-loop Control Strategies more.Although this algorithm can be stablized Convey the power that maximal power point tracking (Maximum Power Point Tracking, MPPT) algorithm obtains, but Wind turbines Rotating speed with exchange that lateral load is full decoupled, micro-grid system is turned into an isolated constant power source, it will system is lost completely Lose the interaction to alternating voltage and enabling capabilities.When AC load is mutated, chugging is all by same caused by sudden load change Step generator and power network undertake, and cause AC frequency to decline, and threaten the stability of micro-grid system, synchronous generator and power network. And the power output of blower fan group is constant, sudden load change will not be responded, almost has no to contribute for the regulation of AC frequency.Therefore, Interaction capability of the Wind turbines to power network and load is how improved, strengthens the stability of source-net-G system, builds " power network close friend Type " wind power plant is the important topic that current new energy development utilizes.

In recent years, scholar proposes virtual synchronous generator (Virtual Synchronous Generator, VSG) skill Art.The technology fully merges Power Electronic Technique advantage and conventional synchronization generator operation feature, makes the algorithm of combining inverter Design can refer to the theoretical and conventional operating experience of synchronous generator.Its own possesses inertial response and primary frequency modulation characteristic, can have Effect improves and the inertia of network interface and damping, mitigates burden of the AC load mutation to power network.VSG technologies are introduced to distributed electrical Source system, can effectively solve the problem of its close friend's consumption, and have broad application prospects.

The content of the invention

The technical problems to be solved by the invention are to provide the Wind turbines microgrid fortune based on virtual synchronous generator techniques Row virtual inertia control method and system, VSG technology novelty achievements are used for reference, by adding additional droop characteristic, design energy storage fills Put autonomous control strategy and power gives module, it is virtual to give full play to blower fan group virtual inertia, energy storage device virtual inertia and VSG Inertia, successfully manage virtual inertia algorithm and be difficult to compatibling problem with maximal power point tracking algorithm couples, with energy storage algorithm.The present invention Various wind speed and load changing problems can be successfully managed, limiting AC side frequency discontinuity amplitude, strengthen micro-grid system from main regulation Ability, help to expand the contribution that wind power plant adjusts source net G system stability and frequency.Also, it need not be surpassed in advance The measure such as speed or off-load, it is not necessary to add award setting, energy storage device utilization rate and wind energy utilization can be effectively improved.

The technical scheme that the present invention solves above-mentioned technical problem is as follows：

On the one hand, the invention provides the Wind turbines microgrid based on virtual synchronous generator techniques to run virtual inertia control System processed, the system include wind energy conversion system, blower fan group, pusher side inverter, energy storage device, DC/DC converters, dc bus, net Side inverter, transformer, AC load and its sensor, filter capacitor, maximal power point tracking module, blower fan group control module, Autonomous control module, power give module, blower fan group virtual inertia control module, virtual synchronous alternator control modules.

The wind energy conversion system is sequentially connected electrically with the blower fan group, pusher side inverter, filter capacitor, dc bus, the storage Energy device is sequentially connected electrically with the DC/DC converters, filter capacitor, dc bus, the dc bus and the filtered electrical Appearance, net side inverter, transformer, AC load and its sensor are sequentially connected electrically；

The maximal power point tracking module is connected with the blower fan group control module, and output signal is used to drive pusher side inversion Device；The autonomous control module is used to drive DC/DC converters；The maximal power point tracking module, autonomous control module, blower fan Group virtual inertia control module and the power give module and are connected, the power gives module, at AC load sensor and The virtual synchronous alternator control modules are connected, and output signal is used to drive net side inverter.

On the other hand, the invention provides the Wind turbines microgrid based on virtual synchronous generator techniques to run virtual inertia Control method, methods described specifically include：

S1, start wind energy conversion system, blower fan group, blower fan group control module and pusher side inverter, complete building for blower fan group and press through journey And stable DC busbar voltage；

S2, access network side inverter, start virtual synchronous alternator control modules, make net side inverter no-load running, adjust Save AC output voltage；

S3, start maximal power point tracking module, access transformer, AC load and its sensor, now system is to exchange Load provides energy；

S4, by energy storage device and DC/DC converter access systems, start autonomous control module, blower fan group virtual inertia control Molding block and power give module, system stable operation；

S5, detect that AC load is mutated, blower fan group virtual inertia module provides temporary with blower fan group rotor kinetic energy automatically State virtual inertia supports, and wind generating unit speed enters transient state regulation process；

S6, detect that wind speed mutation or AC frequency discontinuity exceed setting range, autonomous control module automatically adjusts micro- Net internal system power-balance, continuation regulation AC frequency discontinuity amplitude.

Further, autonomous control module described in the S4 is specially the Hysteresis control strategy based on buck-boost, According to AC difference on the frequency, automatically select buck patterns or boost patterns and export corresponding power, promote power in micro-grid system Balance.

Further, blower fan group virtual inertia control module described in the S4 is specially in virtual synchronous generator control Additional droop characteristic is added during the power of module is given to strengthen the equivalent sagging coefficient of virtual synchronous alternator control modules, The rotor kinetic energy of blower fan group is absorbed or discharged in the transient process of AC load mutation, to provide the support of transient state virtual inertia.

Further, it is virtual to comprehensive blower fan group virtual inertia and energy storage device to give module for power described in the S4 Inertia properties, provide the support of blower fan group virtual inertia during system transient modelling, and it is virtual that energy storage device is exported during systematic steady state Inertial supports, with reference to maximal power point tracking algorithm power output, automatically generate the power of virtual synchronous alternator control modules to It is fixed.

Beneficial effects of the present invention：

The negative effect of wind speed and load changing problem to power network in the case of 1. the present invention effectively can suppress various, limitation is handed over Side frequency discontinuity amplitude is flowed, strengthens the autonomous regulating power of micro-grid system.

2. the present invention cooperates blower fan group virtual inertia, energy storage device virtual inertia and VSG inertial responses, mitigate negative Lotus accesses and influence of the sudden load increase to synchronous generator and power network, help to expand wind power plant to source net G system stability and The contribution of frequency regulation.

3. the present invention can successfully manage virtual inertia algorithm be difficult to maximal power point tracking algorithm couples, with energy storage algorithm it is simultaneous Appearance problem, make virtual inertia control algolithm independently of each other and can cooperate, collectively form an entirety.

4. the present invention can make energy storage device be provided simultaneously with virtual inertia enabling capabilities and energy storage capacity, in complicated running environment In will not produce logical miss, it is possible to provide energy storage device utilization rate.

5. the present invention need not be exceeded the speed limit in advance or the measure such as off-load, it is not necessary to adds award setting, control structure It is simple and reliable.

Brief description of the drawings

Fig. 1 is the main circuit structure block diagram of the present invention；

Fig. 2 is the energy storage device autonomous control algorithm schematic diagram of the present invention；

Fig. 3 is the additional droop characteristic schematic diagram of the present invention；

The power that Fig. 4 is the present invention gives module frame chart；

Fig. 5 is the virtual inertia control strategy entire block diagram of the present invention.

Embodiment

The principle and feature of the present invention are described below in conjunction with accompanying drawing, the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the present invention.

Embodiment 1, the Wind turbines microgrid operation virtual inertia control system based on virtual synchronous generator techniques.Below It is described in detail with reference to Fig. 1 to Fig. 5 systems provided the present embodiment.

Referring to Fig. 1 to Fig. 5, the Wind turbines microgrid operation virtual inertia control system based on virtual synchronous generator techniques System, it is characterised in that the system includes wind energy conversion system, blower fan group, pusher side inverter, energy storage device, DC/DC converters, direct current Bus, net side inverter, transformer, AC load and its sensor, filter capacitor, maximal power point tracking module, blower fan group control Molding block, autonomous control module, power give module, blower fan group virtual inertia control module, virtual synchronous generator control mould Block.

The wind energy conversion system is sequentially connected electrically with the blower fan group, pusher side inverter, filter capacitor, dc bus, the storage Energy device is sequentially connected electrically with the DC/DC converters, filter capacitor, dc bus, the dc bus and the filtered electrical Appearance, net side inverter, transformer, AC load and its sensor are sequentially connected electrically；

The maximal power point tracking module is connected with the blower fan group control module, and output signal is used to drive pusher side inversion Device；The autonomous control module is used to drive DC/DC converters；The maximal power point tracking module, autonomous control module, blower fan Group virtual inertia control module and the power give module and are connected, the power gives module, at AC load sensor and The virtual synchronous alternator control modules are connected, and output signal is used to drive net side inverter.Above-mentioned maximal power point tracking mould Block is realized using the maximal power point tracking algorithm of conventional ripening, mainly by the approximate control of Wind turbine power output in the present embodiment The cube for being made as wind speed is realized again；Blower fan group control module select outer voltage current inner loop twin nuclei, the blower fan and Its a whole set of control algolithm topological structure is referring to patent document (Application No. 201410643081.7).

Embodiment 2, the Wind turbines microgrid operation virtual inertia control method based on virtual synchronous generator techniques.Below It is described in detail with reference to Fig. 1 to Fig. 5 methods provided the present embodiment.

Referring to Fig. 1 to Fig. 5, the Wind turbines microgrid operation virtual inertia controlling party based on virtual synchronous generator techniques Method, methods described specifically include：

S1, start wind energy conversion system, blower fan group, blower fan group control module and pusher side inverter, complete building for blower fan group and press through journey And stable DC busbar voltage；

Specifically, wind energy conversion system mathematical modeling is as follows

Wherein, T_mFor wind energy conversion system torque, ρ is atmospheric density, and A is swept area of rotor, V_windFor wind speed, C_p(λ, β) is wind Can usage factor, λ is tip speed ratio, and β is paddle pitch angle, ω_rFor rotating speed, R is wind wheel radius.

The building of blower fan group described in the S1 presses through journey and specifically referred to, after wind generating unit speed is more than initial speed, rotating speed Will slowly it rise, now DC bus-bar voltage is raised slowly to set-point in the form of ramp function in blower fan group control algolithm, Journey is pressed through so as to complete building for DC bus-bar voltage.

S2, access network side inverter, start virtual synchronous alternator control modules, make net side inverter no-load running, adjust Save AC output voltage；

Specifically, the mathematical modeling of VSG control modules is as follows：

Wherein, P^*、Q^*To be active and idle given, D_p、D_qFor frequency-active and voltage-idle sagging coefficient, P, Q are to have Work(and idle feedback, J, K are the inertia coeffeicent of active ring and idle ring, ω^*, ω be specified angular rate and rotor electric angle speed Degree, V^*, V be rated voltage amplitude and output voltage amplitude, θ is now rotor position angle.

It is specially to add presynchronization algorithm that AC output voltage is adjusted described in the S2, in virtual synchronous generator control 3 pi regulators are built in molding block, adjust amplitude, frequency and the phase of AC output voltage respectively.

Specifically, presynchronization control method principle is as follows：

As shown in above formula, in control algolithm add two integration make its respectively with active sagging coefficient and idle sagging system Number forms two pi regulator regulation output voltage frequencies and angular speed, adds a pi regulator regulation output phase.

S3, start maximal power point tracking module, access transformer, AC load and its sensor, now system is to exchange Load provides energy；

S4, by energy storage device and DC/DC converter access systems, start autonomous control module, blower fan group virtual inertia control Molding block and power give module, system stable operation；

Autonomous control module described in the S4 is specially the Hysteresis control strategy based on buck-boost, according to AC Difference on the frequency, automatically select buck patterns or boost patterns and export corresponding power, promote power-balance in micro-grid system.

It is illustrated in figure 2 energy storage device autonomous control strategy schematic diagram.

Maximal power point tracking module, energy storage device and VSG are connected, then active ring expression formula, which can arrange, is

Wherein, P_mMachine torque, η are exported for wind energy conversion system_gFor wind unit efficiency, P_scFor energy storage device power.

By equation (4) Suo Shi, when Wind speed up AC load is constant, the constant AC load bust of wind speed, Wind speed up are handed over When power increment obtained by current load bust, Wind speed up is more than AC load power increment, Δ ω is negative, is required for storage Can device storage excess energy.As shown in inner ring in Fig. 2, as | Δ ω | more than buck branch road set-points absolute value when, start Buck branch roads, maintain the power-balance in microgrid.Similarly, when wind speed bust AC load is constant, the constant AC load of wind speed is dashed forward When increasing, wind speed bust AC load are uprushed, power increment obtained by Wind speed up is less than AC load power increment, Δ ω is just Number.As | Δ ω | more than boost branch road set-points absolute value when, start boost branch roads, energy storage device provides for micro-grid system Power supports.Also, electricity consumption angular velocity difference connects VSG droop characteristics and energy storage device control algolithm.Use energy storage device Power increment caused by sagging response is extracted, limits VSG droop characteristic response amplitudes, AC difference on the frequency mutational range is limited In in given range, the imbalance power in micro-grid system is transferred in energy storage device.Therefore, this programme can improve energy storage dress Utilization rate is put, it is provided simultaneously with energy storage effect and virtual inertia supporting role.

If energy storage device is just in storage energy, AC load is significantly uprushed, and energy needed for micro-grid system is more than wind speed institute Can provide energy, now VSG droop characteristics Δ ω saltus steps will be made to be positive number, autonomous control algorithm will automatically switch to boost Branch road, energy storage device start to provide corresponding power support for microgrid.Similarly, autonomous control algorithm can also be rapidly completed from Switching of the boost branch roads to buck branch roads.

Blower fan group virtual inertia control module described in the S4 is specially the work(in virtual synchronous alternator control modules Additional droop characteristic is added during rate is given to strengthen the equivalent sagging coefficient of virtual synchronous alternator control modules, in AC load The rotor kinetic energy of blower fan group is absorbed or discharged in the transient process of mutation, to provide the support of transient state virtual inertia.

Additional droop characteristic is added on VSG active set-point as shown in Figure 3.When AC load is uprushed, AC Frequency drop makes Δ ω sport positive number, and positive active given increment Delta P will be fictionalized moments by now adding droop characteristic_g。 Due to the unsuitable Excessive sensitivity of energy storage device, sudden load change moment Δ P at dc bus in Fig. 1_gRely primarily on and extract blower fan group work( Rate obtains.According to traditional virtual inertia general principle, now blower fan group rotor will discharge kinetic energy.Similarly, when AC load is dashed forward During drop, additional droop characteristic equally can efficiently use blower fan group rotor kinetic energy, strengthen transient performance.Therefore the algorithm need not add Enter extra detection method, it is not necessary to the range of operation of complexity is derived, can real-time action promotion system transient power balance.

Additional droop characteristic expression formula is substituted into the active rings of VSG to represent to obtain

Abbreviation equation (5) can obtain

Therefore, droop characteristic is added equivalent to the equivalent frequency-active sagging coefficient for enhancing VSG, without disturbing VSG Operation.When the timing of power difference one caused by load changing, equivalent sagging coefficient is bigger, then Δ ω is smaller, meets conventional synchronization Generator operation experience.

Power described in the S4 gives module to integrate blower fan group virtual inertia and energy storage device virtual inertia performance, The support of blower fan group virtual inertia is provided during system transient modelling, the support of energy storage device virtual inertia is exported during systematic steady state, With reference to maximal power point tracking algorithm power output, the power for automatically generating virtual synchronous alternator control modules gives.

As shown in figure 4, transferring the rotor kinetic energy of blower fan group with additional droop characteristic, coordinate the quick-action of VSG inertial responses, Virtual inertia support is provided in transient process, improves transient performance.The virtual used of energy storage device is transferred with autonomous control algorithm Property, coordinate VSG droop characteristic, energy storage problem and virtual inertia problem is uniformly processed, the effectively control exchange in steady-state process Side frequency discontinuity amplitude.Maximal power point tracking is introduced into power and gives module, coordinates virtual inertia control strategy, makes micro-grid system Various wind speed mutation and AC load catastrophes can be flexibly tackled, lift the autonomous regulating power of micro-grid system, are improved micro- Contribution of the net system to source-net-G system stability.

S5, detect that AC load is mutated, blower fan group virtual inertia module provides temporary with blower fan group rotor kinetic energy automatically State virtual inertia supports, and wind generating unit speed enters transient state regulation process；

S6, detect that wind speed mutation or AC frequency discontinuity exceed setting range, autonomous control module automatically adjusts micro- Net internal system power-balance, continuation regulation AC frequency discontinuity amplitude.

The foregoing is only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all the present invention spirit and Within principle, any modification, equivalent substitution and improvements made etc., it should be included in the scope of the protection.

Claims (8)

1. the Wind turbines microgrid operation virtual inertia control system based on virtual synchronous generator techniques, it is characterised in that institute State system include wind energy conversion system, blower fan group, pusher side inverter, energy storage device, DC/DC converters, dc bus, net side inverter, Transformer, AC load and its sensor, filter capacitor, maximal power point tracking module, blower fan group control module, autonomous control mould Block, power give module, blower fan group virtual inertia control module, virtual synchronous alternator control modules；

The wind energy conversion system is sequentially connected electrically with the blower fan group, pusher side inverter, filter capacitor, dc bus, the energy storage dress Put and be sequentially connected electrically with the DC/DC converters, filter capacitor, dc bus, the dc bus and the filter capacitor, net Side inverter, transformer, AC load and its sensor are sequentially connected electrically；

The maximal power point tracking module is connected with the blower fan group control module, and output signal is used for driving machine side inverter； The autonomous control module is used to drive DC/DC converters；The maximal power point tracking module, autonomous control module, blower fan group Virtual inertia control module and the power give module and are connected, and the power gives module, sensor and institute at AC load State virtual synchronous alternator control modules to be connected, output signal is used to drive net side inverter.

2. the Wind turbines microgrid operation virtual inertia control according to claim 1 based on virtual synchronous generator techniques System, it is characterised in that the autonomous control module is specially the Hysteresis control based on buck-boost, according to AC frequency Difference, automatically select buck patterns or boost patterns and export corresponding power, promote power-balance in micro-grid system.

3. the Wind turbines microgrid operation virtual inertia control according to claim 1 based on virtual synchronous generator techniques System, it is characterised in that the blower fan group virtual inertia control module is specially the work(in virtual synchronous alternator control modules Additional droop characteristic is added during rate is given to strengthen the equivalent sagging coefficient of virtual synchronous alternator control modules, in AC load The rotor kinetic energy of blower fan group is absorbed or discharged in the transient process of mutation, to provide the support of transient state virtual inertia.

4. the Wind turbines microgrid operation virtual inertia control according to claim 1 based on virtual synchronous generator techniques System, it is characterised in that the power gives module to integrate blower fan group virtual inertia and energy storage device virtual inertia performance, The support of blower fan group virtual inertia is provided during system transient modelling, the support of energy storage device virtual inertia is exported during systematic steady state, With reference to maximal power point tracking algorithm power output, the power for automatically generating virtual synchronous alternator control modules gives.

5. the Wind turbines microgrid operation virtual inertia control method based on virtual synchronous generator techniques, it is characterised in that institute The method of stating specifically includes：

S1, start wind energy conversion system, blower fan group, blower fan group control module and pusher side inverter, complete building for blower fan group and press through Cheng Bingwen Determine DC bus-bar voltage；

S2, access network side inverter, start virtual synchronous alternator control modules, make net side inverter no-load running, regulation is handed over Flow side output voltage；

S3, start maximal power point tracking module, access transformer, AC load and its sensor, now system is to AC load Energy is provided；

S4, by energy storage device and DC/DC converter access systems, start autonomous control module, blower fan group virtual inertia control mould Block and power give module, system stable operation；

S5, detect that AC load is mutated, it is empty that blower fan group virtual inertia module provides transient state with blower fan group rotor kinetic energy automatically Intend inertial supports, wind generating unit speed enters transient state regulation process；

S6, detect that wind speed mutation or AC frequency discontinuity exceed setting range, autonomous control module automatically adjusts microgrid system Internal power of uniting balances, continuation regulation AC frequency discontinuity amplitude.

6. the Wind turbines microgrid operation virtual inertia controlling party based on virtual synchronous generator techniques as claimed in claim 5 Method, it is characterised in that autonomous control module described in the S4 is specially the Hysteresis control based on buck-boost, according to exchange Side difference on the frequency, automatically select buck patterns or boost patterns and export corresponding power, promote power-balance in micro-grid system.

7. the Wind turbines microgrid operation virtual inertia controlling party based on virtual synchronous generator techniques as claimed in claim 5 Method, it is characterised in that blower fan group virtual inertia control module described in the S4 is specially in virtual synchronous generator control mould Additional droop characteristic is added during the power of block is given to strengthen the equivalent sagging coefficient of virtual synchronous alternator control modules, is being handed over The rotor kinetic energy of blower fan group is absorbed or discharged in the transient process of stream load mutation, to provide the support of transient state virtual inertia.

8. the Wind turbines microgrid operation virtual inertia controlling party based on virtual synchronous generator techniques as claimed in claim 5 Method, it is characterised in that power described in the S4 gives module and is virtually used to comprehensive blower fan group virtual inertia and energy storage device Property performance, the support of blower fan group virtual inertia is provided during system transient modelling, energy storage device is exported during systematic steady state and is virtually used to Property support, with reference to maximal power point tracking algorithm power output, the power for automatically generating virtual synchronous alternator control modules gives.