CN104617605A - Microgrid control system and method - Google Patents

Abstract

The invention discloses microgrid control system and method. The system comprises an AC microgrid, a generator set, a DC microgrid, a communication network and a network server; the AC microgrid is electrically connected with the DC microgrid; the generator set is electrically connected with the DC microgrid to be used as a backup power supply; the communication network is electrically connected with the AC microgrid and the DC microgrid and used for reporting the operation state of the AC microgrid and/ or the DC microgrid to the network server. With the adoption of the system and method, the problem that AC cannot be compatible, and the load accessing the power supply network cannot be ensured to run normally when leaving the mains supply network, can be solved.

Description

Microgrid control system and method

Technical field

The present invention relates to circuit application technical field, in particular to a kind of microgrid control system and method.

Background technology

Along with extensive utilization and the popularization of existing DC micro-electric network technology, due to the photovoltaic power supply technical energy saving environmental protection in DC micro-electric network technology, make to obtain great attention in field of renewable energy especially practice, but how existing direct current photovoltaic micro technology and traditional AC network technology are carried out being fused in order to current problem demanding prompt solution.

Provide a kind of photovoltaic direct current micro-grid system in the related, relate to photovoltaic generation, specifically as shown in Figure 1, wherein, Figure 1 shows that the structure chart of technique scheme, a kind of photovoltaic direct current micro-grid system, relates to photovoltaic generation.Be provided with high voltage direct current micro-capacitance sensor electric power system, DC application unit, system monitoring and energy consumption measurement unit, DC bus, DC/DC commutation system.

But when running this photovoltaic DC micro-grid system, find to have the following disadvantages:

(1) technique scheme can only realize the direct current supply of direct-current grid; (2) technique scheme can not from network operation, if the electrical network that city powers has a power failure for a long time, photovoltaic DC micro-grid system will also can be out of service; (3) what the energy utilization rate of this system just improve photovoltaic utilizes overall efficiency, and does not have photovoltaic in rainy weather and night, and energy utilization rate reduces greatly, and then impact load running within the system; (4) data monitor center can not realize remote monitoring and administration, makes cannot adjust as early as possible during this system malfunctions; (5) this system is applicable to the control and management of direct-flow air conditioner, but is not suitable for the control and management of fixed frequency air conditioner.

Cannot ensure to access due to incompatible alternating current the problem that the load of supply network normally runs in prior art when being in and departing from mains-supplied network, not yet propose effective solution at present.

Summary of the invention

Main purpose of the present invention is to provide a kind of microgrid control system and method, to solve due to incompatible alternating current and cannot ensure the problem that the load accessing supply network normally runs when being in and departing from mains-supplied network.

To achieve these goals, according to an aspect of the embodiment of the present invention, a kind of microgrid control system is provided.Microgrid control system according to the present invention comprises: exchange microgrid, generating set, direct-current micro-grid, communication network and the webserver, and wherein, interchange microgrid is set up with direct-current micro-grid and is electrically connected; Generating set is set up with direct-current micro-grid and is electrically connected, for making stand-by power supply; Communication network respectively with exchange microgrid and direct-current micro-grid and set up and be electrically connected, for the running status exchanging microgrid and/or direct-current micro-grid is reported to the webserver.

To achieve these goals, according to another aspect of the embodiment of the present invention, provide a kind of microgrid control method.The method is applicable to above-mentioned microgrid control system, and microgrid control method according to the present invention comprises: detect current microgrid control system and whether be in island mode operation; When testing result is for being, the direct-current micro-grid in triggering microgrid control system, the generating set be connected with direct-current micro-grid run; The running status of current microgrid control system is reported by communication network; Receive the processing instruction returned by communication network; Perform processing instruction.

According to inventive embodiments, whether be in island mode operation by detecting current described microgrid control system; When testing result is for being, triggers the direct-current micro-grid in described microgrid control system, the generating set that is connected with described direct-current micro-grid runs; The running status of current described microgrid control system is reported by communication network; Receive the processing instruction returned by described communication network; Perform described processing instruction, solve due to incompatible alternating current and the problem that the load accessing supply network normally runs cannot be ensured when being in and departing from mains-supplied network, reach and promote microgrid control system compatibility, and after disengaging mains-supplied network, the load of access supply network still keeps the normal effect run.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the structure chart of the microgrid control system according to the embodiment of the present invention;

Fig. 2 is the structure chart according to the interchange microgrid in the microgrid control system of the embodiment of the present invention;

Fig. 3 is the structure chart according to the direct-current micro-grid in the microgrid control system of the embodiment of the present invention;

Fig. 4 is the structure chart according to the generating set in the microgrid control system of the embodiment of the present invention;

Fig. 5 is the structure chart according to the Boost circuit in the microgrid control system of the embodiment of the present invention;

Fig. 6 is the structure chart according to the Buck circuit in the microgrid control system of the embodiment of the present invention;

Fig. 7 is the structure chart according to the two-way Buck/Boost circuit in the microgrid control system of the embodiment of the present invention;

Fig. 8 is the structure chart according to the communication network in the microgrid control system of the embodiment of the present invention;

The structure chart of a kind of microgrid control system that the embodiment of the present invention of Fig. 9 provides; And,

Figure 10 is the flow chart of the microgrid control method according to the embodiment of the present invention.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

It should be noted that, term " first ", " second " etc. in specification of the present invention and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged, in the appropriate case so that embodiments of the invention described herein.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

The name word concept related in the microgrid control system that the embodiment of the present invention provides, method and apparatus is as follows:

Microgrid, refers to electrical network form micro power, load and energy storage device combined, and it is independently overall as one, can be incorporated into the power networks, and also can run by island mode.

Intelligent micro-grid, the i.e. intellectuality of microgrid, by adopting advanced power technology, the communication technology, computer technology, automatic control technology and original transmitted, distribution basis facility to be highly integrated form, it can improve efficiency of energy utilization, improve fail safe and power supply reliability, reduce the impact on environment, reduce power loss, realize the interaction between user, and to provide value added service and other advantages for user.

Single-phase load, all have two lead-out wires, if 220V electric light, electric fan etc. are all single-phase loads.

Threephase load, has three terminals, if threephase motor etc. is all threephase load.

MPPT, MPPT maximum power point tracking controller for solar, Maximum Power Point Tracking.

Embodiment one

Embodiments provide a kind of microgrid control system.

Fig. 1 is the structure chart of the microgrid control system according to the embodiment of the present invention.As shown in Figure 1, this microgrid control system comprises as follows: exchange microgrid 12, generating set 14, direct-current micro-grid 16, communication network 18 and the webserver 20, wherein,

Interchange microgrid 12 is set up with direct-current micro-grid 16 and is electrically connected; Generating set 14 is set up with direct-current micro-grid 16 and is electrically connected, for making stand-by power supply; Communication network 18 respectively with exchange microgrid 12 and direct-current micro-grid 16 and set up and be electrically connected, for the running status exchanging microgrid 12 and/or direct-current micro-grid 16 is reported to the webserver 20.

Concrete, the interchange microgrid 12 that the embodiment of the present invention provides and direct-current micro-grid 16 are while meeting DC load, can compatible with alternating load, and with when exchanging city's power supply grid power-off that microgrid 12 connects, by generating set 14 can for direct-current micro-grid 16 with exchange microgrid 12 power supply be provided, if when direct-current micro-grid 16 and/or interchange microgrid 12 break down or state changes, by communication network 18, the running status of current direct-current micro-grid 16 and/or interchange microgrid 12 can be sent to the webserver 20, wherein, be sent to the webserver 20 and there is following one of at least processing mode:

Mode one, the running status of current direct-current micro-grid 16 and/or interchange microgrid 12 is sent to the webserver 20, make to safeguard that business obtains faulty circuit in time or knows the state variation of current electric grid, and generate should the processing instruction of fault to faulty circuit, or, generate the adjustment instruction of the micro-direct-current micro-grid 16 of adjustment and/or interchange microgrid 12 running status, further this processing instruction or adjustment instruction are back to direct-current micro-grid 16 and/or interchange microgrid 12 by communication network 18, and fixed a breakdown according to this processing instruction by direct-current micro-grid 16 and/or interchange microgrid 12, or the running status of direct-current micro-grid 16 and/or interchange microgrid 12 is regulated according to this adjustment instruction.

Mode two, the running status of current direct-current micro-grid 16 and/or interchange microgrid 12 is sent to the webserver 20, make user by the client of carrying of mobile terminal, obtain faulty circuit by the webserver 20 or know the state variation of current electric grid, further to faulty circuit setting to should the processing instruction of fault, or, the adjustment instruction of the setting micro-direct-current micro-grid 16 of adjustment and/or interchange microgrid 12 running status, thus this processing instruction or adjustment instruction are back to direct-current micro-grid 16 and/or interchange microgrid 12 by communication network 18, and fixed a breakdown according to this processing instruction by direct-current micro-grid 16 and/or interchange microgrid 12, or the running status of direct-current micro-grid 16 and/or interchange microgrid 12 is regulated according to this adjustment instruction.

Mode three, in mode one with on the basis of mode two, the running status of current direct-current micro-grid 16 and/or interchange microgrid 12 is sent to the webserver 20, make to safeguard that business obtains faulty circuit in time or knows the state variation of current electric grid, and user is by the client of carrying of mobile terminal, obtain faulty circuit by the webserver 20 or know the state variation of current electric grid, safeguard that business can by the state variation of the faulty circuit that gets or current electrical network, the client that the mobile terminal used to user carries provides the suggestion instruction of setting/amendment, the client of finally being carried by mobile terminal by user sets should the processing instruction of fault to faulty circuit, or, the adjustment instruction of the setting micro-direct-current micro-grid 16 of adjustment and/or interchange microgrid 12 running status, thus this processing instruction or adjustment instruction are back to direct-current micro-grid 16 and/or interchange microgrid 12 by communication network 18, and fixed a breakdown according to this processing instruction by direct-current micro-grid 16 and/or interchange microgrid 12, or the running status of direct-current micro-grid 16 and/or interchange microgrid 12 is regulated according to this adjustment instruction.

As from the foregoing, the embodiment of the present invention will be by exchanging microgrid 12, direct-current micro-grid 16 and communication network 18 merge, not only meet the user demand of AC load, AC-DC conversion can also be carried out by exchanging between microgrid 12 and direct-current micro-grid 16, complement each other supply of electric power, and, when can avoid utility grid power failure by generating set 14, maintain the normal operation exchanging microgrid 12 and direct-current micro-grid 16, solve due to incompatible alternating current and the problem that the load accessing supply network normally runs cannot be ensured when being in and departing from mains-supplied network.The effect of the remote monitoring that microgrid controls is realized finally by communication network 20.

The interchange microgrid 12, Fig. 2 provided based on above-described embodiment is the structure chart according to the interchange microgrid in the microgrid control system of the embodiment of the present invention.As shown in Figure 2, the interchange microgrid 12 that the embodiment of the present invention provides can comprise: the corresponding load 123 of transformer 121, three-phase alternating current bus 122, three-phase alternating current bus, single phase alternating current (A.C.) bus 124, the corresponding load 125 of single phase alternating current (A.C.) bus and alternating current-direct current DC/AC transducer 126, wherein

Transformer 121 is set up with three-phase alternating current bus 122 and is electrically connected; The load 123 that three-phase alternating current bus 122 is corresponding with three-phase alternating current bus is set up and is electrically connected, for providing three phase supply to the load 123 corresponding to three-phase alternating current bus; Single phase alternating current (A.C.) bus 124 is set up with the bus 122 of three-phase alternating current and is electrically connected, for providing single phase power supply to the load 125 corresponding to single phase alternating current (A.C.) bus; Two-way DC/AC transducer in alternating current-direct current DC/AC transducer 126 is set up with three-phase alternating current bus 122 and single phase alternating current (A.C.) bus 124 and is electrically connected, for the alternating current of three phase network being converted to direct current access direct-current micro-grid 16.

Wherein, transformer 121 is set up with three phase network and is electrically connected, for three-phase alternating current bus 122 required voltage is down to or is risen to the alternating current voltage in three phase network, then power demands is provided via the load 123 of three-phase alternating current bus 122 corresponding to three-phase alternating current bus, single phase alternating current (A.C.) bus 124 is set up with three-phase alternating current bus 122 and is electrically connected, further, powered by the corresponding load 125 of access three-phase alternating current bus 122 pairs of single phase alternating current (A.C.) buses, finally set up with three-phase alternating current bus 122 and single phase alternating current (A.C.) bus 124 the alternating current-direct current DC/AC transducer 126 be electrically connected respectively, for providing direct current supply voltage for direct-current micro-grid 16.

Concrete, in the scheme that the embodiment of the present invention provides, when three phase mains is become two-phase access by needs, only the air switch of the air switch of a live wire and zero line need be closed, then connected two phase loads can carry out work, complete the conversion of three-phase to two-phase.Process basic simlarity from three-phase to two-phase.As shown in Figure 2, three-phase alternating current bus 122 and single phase alternating current (A.C.) bus 124 is devised.To learn from else's experience the three-phase alternating current composition three-phase alternating current bus 122 after transformer 121 (transformer 121 that the embodiment of the present invention provides can be isolating transformer); To get fire line and zero line two lines composition single phase alternating current (A.C.) buses 124.

It exchanges on the ac bus in microgrid 12 and connects AC load, mainly contains fixed frequency air conditioner, illumination, kitchen appliance, AC electric equipment etc.Wherein, three phase network interface circuit is connected with isolating transformer, High Level AC Voltage is converted to civil power for AC load, two-way DC/AC converter 126 at three-phase alternating current bus 122, play bridge beam action between single phase alternating current (A.C.) bus 124 and direct-current micro-grid 16, is responsible for the bi-directional energy conversion between micro-capacitance sensor.Be connected with mains-supplied electrical network by an intelligent switch with the hybrid system that direct-current micro-grid 16 forms by interchange microgrid 12, when mains-supplied electrical network normally works, exchange microgrid 12 and/or direct-current micro-grid 16 and can realize the optimal utilization of energy with mains-supplied electrical network; When mains-supplied grid collapses, intelligent switch disconnects, and micro-capacitance sensor departs from mains-supplied electrical network, but still can carry out energy conversion between alternating current-direct current microgrid.

The direct-current micro-grid 16, Fig. 3 provided based on above-described embodiment is the structure chart according to the direct-current micro-grid in the microgrid control system of the embodiment of the present invention.As shown in Figure 3, the direct-current micro-grid 16 that the embodiment of the present invention provides can comprise: the load 162 that multistage DC bus 161, multistage DC bus are corresponding, direct current DC/DC transducer 163, the power supply 164 that opens the light, AC/DC AC/DC transducer 165 and energy storage device 166, wherein

First order DC bus in multistage DC bus 161 is set up with the two-way DC/AC transducer in DC/AC transducer 126 and is electrically connected, for receiving the direct current supply changed by three phase network; Generating set 14 is set up with first order DC bus by AC/DC transducer 165 and is electrically connected, for providing direct current supply for direct-current micro-grid 16; Energy storage device 166 accesses first order DC bus, for storing the direct current produced by generating set 14 by the two-way DC/DC transducer in DC/DC transducer 163; Second level DC bus in multistage DC bus 161 is set up with energy storage device 166 and is electrically connected; Second level DC bus is set up with the third level DC bus in multistage DC bus 161 by the unidirectional DC/DC transducer in DC/DC transducer 163 and is electrically connected, and provides direct current supply for the load corresponding for access third level DC bus; Fourth stage bus in multistage DC bus 161 accesses third level DC bus by the power supply 164 that opens the light, and to be set up with first order DC bus by the power supply that opens the light and be electrically connected, and provides direct current supply for the load corresponding for access fourth stage DC bus.

Wherein, first order DC bus, second level DC bus, third level DC bus and fourth stage DC bus-bar voltage grade reduce successively.

Concrete, in direct-current micro-grid 16, embodiments provide level Four DC bus, this level Four DC bus is divided into level Four according to the rated power supply demand of DC load, wherein, the electric pressure of first order DC bus can be set as 400 ~ 750V, and first order DC bus is connected to diesel engine generator, wind-driven generator, electric automobile charge and discharge power station, the solar-energy photo-voltaic cell group distributed energy, and the interface reserved by energy storage device 166.Wherein, first the alternating current sent by unidirectional AC/DC transducer 165, is converted to direct current by diesel engine generator and wind-driven generator, the direct current after conversion is passed through unidirectional DC/DC converter, changes into the voltage being applicable to being incorporated to first order DC bus; Second level DC bus can be set as V2 (200-380V), obtained by carrying out DC/DC conversion to first order DC bus, the second DC bus mainly can access for the indoor set of air-conditioning, high power DC LED illumination, household DC equipment and user interface; Third level DC bus can be set as V3 (240V) and V4 (72V), and third level DC bus can be mainly used in the charging pile and electrical bike charger etc. in garage; Fourth stage DC bus can be set as V5 (48V), V6 (24V) and V7 (12V), Power Level on this fourth stage DC bus, can directly be exported by the high power switching power supply being connected to V1 and V2, this fourth stage DC bus can be mainly used in small power DC illumination LED, computer and direct current office equipment etc.

The DC bus number that the embodiment of the present invention provides, for level Four DC bus, is as the criterion to realize microgrid control system, does not specifically limit.

Preferably, Fig. 4 is the structure chart according to the generating set in the microgrid control system of the embodiment of the present invention.As shown in Figure 4, the generating set 14 that the embodiment of the present invention provides can comprise: renewable energy power generation unit 141 and non-regeneration energy generating set 142, wherein, renewable energy power generation unit 141 at least comprises: photovoltaic generation unit, wind turbine generator, and wherein photovoltaic generation unit comprises energy-storage module.

The generating set 14 that the embodiment of the present invention provides is calling on engine type and preferentially can use according to regenerative resource, and non-regeneration energy takes second place, and energy storage device is supplementary and for subsequent use is order, to improve the power supplying efficiency that generating set 14 is powered.

Based on the photovoltaic generation unit that above-described embodiment provides, the photovoltaic generation unit that the embodiment of the present invention provides can by the unidirectional DC/DC transducer access first order DC bus in DC/DC transducer 163, wherein, unidirectional DC/DC transducer comprises: DC boosting Boost circuit.

Concrete, Boost circuit effect in embodiments of the present invention carries out MPPT control to photovoltaic generation unit.Energy-storage module (photovoltaic battery panel) in photovoltaic generation unit is connected on first order DC bus by Boost circuit, and Boost circuit has MPPT to control and voltage droop control two kinds of patterns, and during grid-connect mode, Boost circuit is operated in MPPT pattern; During island mode, when the first DC bus-bar voltage is higher than stability contorting value, adopt droop control pattern; When DC bus-bar voltage is lower than stability contorting value, adopt MPPT control model, Maximum Power Output, stablizes the first DC bus-bar voltage.

Wherein, Fig. 5 is the structure chart according to the Boost circuit in the microgrid control system of the embodiment of the present invention.As shown in Figure 5, Boost circuit can comprise energy storage inductor L, diode D2, device for power switching T1, storage capacitor Cs, for promoting input voltage.Operation principle is: when switch transistor T 1 conducting, and electric current forms loop by Vi through inductance L and switch transistor T 1, and inductance L carries out energy storage; When switch transistor T 1 turns off, jointly power to the load after the back electromotive force that inductance L produces and direct current power source voltage series connection, due to the mutual superposition identical with direct current power source voltage direction of back electromotive force when switch transistor T 1 turns off, thus obtain the voltage higher than power supply in load-side.When the effect of diode is the T1 conducting of blocking swtich pipe, the discharge loop of electric capacity.

The load 162 that the multistage DC bus provided based on above-described embodiment is corresponding can be corresponding by the unidirectional DC/DC transducer access in DC/DC transducer 163 multistage DC bus, wherein, unidirectional DC/DC transducer comprises: buck converter Buck circuit.

Concrete, Buck circuit function is that the input voltage of DC bus at different levels is carried out step-down.The effect of Buck circuit is that the input voltage of DC bus at different levels is carried out step-down process in embodiments of the present invention, thus obtains the supply voltage of applicable DC load at different levels.

Wherein, Fig. 6 is the structure chart according to the Buck circuit in the microgrid control system of the embodiment of the present invention.As shown in Figure 6, Buck circuit, comprises energy storage inductor L, diode D2, device for power switching T1, storage capacitor Cs, and this Buck circuit working principle is when device for power switching T1 conducting, and photovoltaic cell to be powered to inductance L through T1 and made its storing energy.Electric capacity Cs maintains output voltage substantially constant simultaneously.After this, T1 is turned off, the energy stored in inductance L discharges to load, by the make and break period of by-pass cock pipe T1, can adjust DC load side output current and voltage swing.

The energy storage device 166 provided based on above-described embodiment can by the two-way DC/DC transducer access first order DC bus in DC/DC transducer 163, wherein, two-way DC/DC transducer comprises: two-way Buck/Boost circuit, when two-way Buck/Boost circuit is Buck pattern, energy storage device 166 performs charging operations; When two-way Buck/Boost circuit is Boost pattern, energy storage device 166 performs discharge operation.

Concrete, the effect in embodiments of the present invention of two-way Buck/Boost circuit is: when the electric energy that the photovoltaic battery panel in photovoltaic generation unit exports is more than energy needed for DC load, remaining energy just charges to the storage battery in energy storage device 166, and now two-way Buck/Boost circuit equivalent is a Buck circuit; When the electric energy energy be less than needed for DC load that photovoltaic battery panel exports even does not export electric energy, battery discharging is powered to DC load, and now two-way Buck/Boost circuit equivalent is a Boost circuit.

Wherein, Fig. 7 is the structure chart according to the two-way Buck/Boost circuit in the microgrid control system of the embodiment of the present invention.As shown in Figure 7, in two-way Buck/Boost circuit, during Buck circuit working, energy storage device 166 is in charged state, and T2 is in off state always, and T1 is operated in PWM operating state.T1 is open-minded, and DC side is charged to through energy storage inductor to energy storage device; T1 turns off, and energy storage inductor continues to charge to energy storage device 166 through D2 diode continuousing flow.Vi is an ideal voltage source.

During Boost circuit work, energy storage device 166 discharges, and DC side is equivalent to a resistive load, and T1 is in off state always, and T2 is operated in pulse duration modified tone (Pulse Width Modulation is called for short PWM) operating state.T2 conducting, super capacitor, energy storage inductor, T2 form path, and energy storage device 166 provides energy to energy storage inductor, and T2 turns off, and energy storage device 166 and energy storage inductor all provide energy to DC side.

Relative to the energy storage device that the embodiment of the present invention provides, the energy storage device that present stage is commonly used is storage battery, and some can use ultracapacitor, and their discharge and recharge form is as follows:

For battery, can not unconfined charge or discharge, battery charging and discharging current-voltage correlation and battery charge state (State Of Charge is called for short SOC) have close relationship.Charging main process is two stages, constant current charge and constant voltage charges.In the ideal case, battery SOC is directly proportional to electric current, and that is, charging current is larger, and battery SOC change is faster, and the charging interval is shorter.And battery terminal voltage slowly rises with the rising of electricity, until reach setting SOC value, or battery maximum voltage value, battery will switch to constant voltage charge pattern, and during constant voltage charge pattern, DC side power reaches maximum, and now electric current continues to rise, or voltage continues to rise, fail to reach good control, the generation overcharging phenomenon will be caused, affect battery life.

The charge and discharge process of super capacitor is a physical process, memory-less effect.The charge and discharge process of ultracapacitor is very quick and efficiency is very high, and ultracapacitor both end voltage can increase along with the electric charge of storage inside and rise, and each ultracapacitor has oneself optimum operating voltage value.Therefore, in order to make the longer service life of ultracapacitor, need the magnitude of voltage at Detection capacitance two ends in charging process in case overshoot causes the damage of ultracapacitor.According to the characteristic of ultracapacitor, constant current, constant voltage or invariable power charging can be utilized, its large physical capacitors characteristic also can be utilized to be charged by large impulse circuit.

Photovoltaic generation unit in the energy storage device 166 provided based on above-described embodiment and generating set 14, in the distributed energy resource system that the embodiment of the present invention provides, the application of corresponding various energy storage device 166, to " peak load shifting " of microgrid control system, maintain the stable of system and play significant role.Energy storage device 166 is connected with first order DC bus by two-way Buck/Boost circuit, maintains the stable of busbar voltage.Photovoltaic battery panel is connected with Boost circuit, and the effect of Boost circuit is control photovoltaic battery panel being carried out to maximal power tracing (MPPT).

Specifically as shown in table 1, table 1 be the first DC bus and photovoltaic battery panel and with the operating state of energy storage device 166 under different working modes, specific works pattern is as shown in table 1:

Table 1:

Mode of operation	Photovoltaic array	Energy storage device
			Pattern 1	MPPT	Do not work
Pattern 2	MPPT	Charging
			Mode 3	Do not work	Do not work/charge
Pattern 4	Droop control	Do not work/charge
			Pattern 5	MPPT	Droop control
Pattern 6	Do not work	Electric discharge

Wherein, pattern 1: during grid-connect mode, if illumination is sufficient, the Boost circuit be now connected with photovoltaic battery panel is operated in MPPT pattern, to ensure to utilize solar energy to generate electricity to greatest extent, the DC load on guarantee first DC bus is charged to energy storage device 166 while powering;

Pattern 2: when the energy that photovoltaic generation unit exports is greater than the energy needed for DC load, and energy storage device 166 is in full state, then carried to direct-current micro-grid 16 with the form of unity power factor by unnecessary electric energy, the grid-connected voltage namely to direct-current micro-grid 16 conveying is identical with the voltage of mains-supplied electrical network;

Mode 3: when the energy shortage that photovoltaic generation unit sends is to maintain the demand of DC load, carry out work by the other types generator of generating set 14, energy storage device 166 does not work;

Pattern 4: during island mode, adopt voltage droop method, when the first DC bus-bar voltage is greater than first order DC bus-bar voltage threshold value, photovoltaic generation unit operates in sagging pattern, according to the first DC bus-bar voltage regulation output electric current.Now, energy storage device 166 does not work or is in charged state;

Wherein, island mode refers to when mains-supplied mains supply trips because of failure accident or power failure maintenance, the distributed grid-connected electricity generation system of each user side is failed to detect power down mode in time thus self is cut off mains-supplied network, and final formation is made up of the isolated island electricity generation system of a self-energizing distributed power station grid-connected system and its connected load.Namely island mode in the embodiment of the present invention refers to, when mains-supplied mains supply trips because of failure accident or power failure maintenance, and the state residing for the electric power system be made up of interchange microgrid 12, generating set 14 and direct-current micro-grid 16 in microgrid control system.

Pattern 5: when the voltage of the first DC bus is less than the voltage threshold of first order DC bus, photovoltaic array operates in MPPT pattern, and energy storage device 166 operates in sagging pattern;

Pattern 6: when the voltage of the first DC bus continues to fall.Photovoltaic generation unit quits work, and energy storage device 166 is in discharge condition, maintains the energy balance of microgrid control system.

Preferably, Fig. 8 is the structure chart according to the communication network in the microgrid control system of the embodiment of the present invention.As shown in Figure 8, communication network 18 comprises: direct-current micro-grid state collecting device 181, interchange microgrid state collecting device 182, communicator 183, wherein, communicator 183 respectively with direct-current micro-grid state collecting device 181 with exchange microgrid state collecting device 182 and set up and be electrically connected, for by direct-current micro-grid 16 and the running status report network server 20 exchanging microgrid 12.

The microgrid control system that the embodiment of the present invention provides, in practical operation, this microgrid control system is according to host-slave parallel method and voltage droop control principle, economic operation model and maximum performance operational mode are set, operationally be defaulted as economic operation model, automatically manage under this pattern, preferentially use with regenerative resource, non-regeneration energy takes second place, energy storage device electric energy supplement and for subsequent use for order, when meeting " fill out peak and cut paddy ", order has suitable adjustment.Realize not depending on mains-supplied electrical network electric energy as far as possible, to generate electricity by way of merging two or more grid systems and from network operation.Maximum performance operational mode, is guided by software prompt, and user is set to main.All generating sets, implement scattered resettlement, centralized management by electric loading, remote monitoring, and its monitoring information uploads dedicated management website, the Internet and cell phone managing software.The switching of grid-connected switch is managed by software supervision; The selection of various distributed energy, management; The transformation of grid-connect mode and island mode period control method; On the basis meeting the multiple demands such as customer power supply, heat supply, refrigeration, improve energy utilization rate, Optimization of Energy Structure, decreasing pollution discharges, and realizes energy-saving and cost-reducing target.

To sum up, the microgrid control system shown in composition graphs 1 to Fig. 8, the structure chart of a kind of microgrid control system provided for the embodiment of the present invention of Fig. 9 is analyzed.Generating set is comprised in Fig. 9, wherein generating set can comprise: diesel engine generator, wind-driven generator and photovoltaic generation unit, consist of the electric power system of microgrid control system in conjunction with energy storage device, above-mentioned generating set and energy storage device support each other, realize the two-way exchange of energy.

Microgrid operational mode has: grid-connect mode, island mode and isolated island/grid-connected switch mode.

Wherein, table 2 is depicted as energy storage device and the generating set running status when grid-connected and island mode.

Table 2:

Such as, using diesel engine as stand-by power supply, when wind turbine generator and photovoltaic battery array are subject to ectocine generation deficiency or energy storage device energy is inadequate time, starting diesel engine provides emergency electric power, maintain balance and the power supply reliability of microgrid control system energy, reduce the probability of cutting load.Due to diesel engine and non-clean energy, contaminated environment and fuel consumption, should reduce the use of diesel engine, therefore microgrid is in being incorporated into the power networks, and diesel engine does not start.

When micro-grid connection is run, storage battery only plays the effect improving the quality of power supply, and when mains-supplied electrical grid failure, microgrid enters islet operation pattern, now storage battery needs to regulate its power output, make the power supply and demand in microgrid reach balance, thus maintain the voltage of microgrid and the stable of frequency.

Ordinary circumstance, the switching of microgrid operational mode is under a certain mode of operation, under two kinds of operational modes, adopt different control methods to complete switching to distributed power source.

Divide from distributed electrical operated control method, mainly contain following control mode: 1) power limitation control (PQ control).Control objectives is that wind-driven generator and photovoltaic power generating are maximized, and when wind energy and solar energy abundance, maintains its maximal power tracing.2) the permanent FREQUENCY CONTROL (V/f control) of constant voltage.Main purpose makes when connect distributed power source changes, and the ac bus voltage that power supply connects and frequency remain unchanged.3) droop control (Droop control).During islet operation, be equivalent to each distributed power source all in parallel, by the droop characteristic of frequency and voltage, reasonable distribution that is meritorious and reactive power carried out to distributed power source.

Divide from microgrid mode of operation, mainly contain with under type: 1) master & slave control.Distributed power source in microgrid is mostly crossed inverter and is incorporated to microgrid, and master & slave control is exactly in these inverters, select a controller as master controller, and other controller is as from controller.2) voltage droop method.This kind ofly automatically realizes energy-optimised control method, and in direct-current micro-grid, each converter can along with in the input coefficient falling one by one/organize of DC bus-bar voltage.Control first to arrange a threshold voltage, threshold voltage should from the power-supply controller of electric that priority level is the highest, the voltage of the power supply that priority level is the highest is exactly the rated voltage of system works, then set the threshold voltage of next priority successively, the setting of the threshold voltage of next stage needs to use a threshold voltage value.

Following formula is followed in the setting of threshold voltage:

U _ref(n)＝U _ref(n-1)-U _(n-1)-U _e

Wherein, the supply voltage threshold values of Uref (n) to be priority level be n; The threshold voltage of Uref (n-1) to be priority the be power supply of n-1; U (n-1) represents the pressure drop that the line impedance between two converters causes; Undulating value and the measure error sum of first order DC bus-bar voltage that what Ue represented is.

Table 3 is for conventional photovoltaic battery panel, storage battery and diesel engine generator, when being described in droop control, and the running status of system, in table, state 1 ~ 6 is expressed as:

Table 3:

State	Photovoltaic battery panel	Storage battery	Diesel engine generator
				State 1	Maximum power	Current-limiting charge	Off-line
State 2	Maximum power	Sagging charging	Off-line
				State 3	Maximum power	Off-line	Off-line
State 4a	Maximum power	Sagging electric discharge	Off-line
				State 4b	Maximum power	Sagging electric discharge	Minimum constant power output
State 5	Maximum power	Current limliting is discharged	Droop control

State one: when the duty ratio of system is lighter time, the generated output of photovoltaic battery panel is greater than the maximum charge power of storage battery.Because storage battery has maintained maximum power charging, unnecessary power can cause the rising of the first order DC bus-bar voltage of system, in order to prevent the impact of first order DC bus-bar voltage rising on system, needs the voltage of system to maintain a rated value.Now system needs to take non-MPPT to control to photovoltaic battery panel, or increase load consumes unnecessary energy, makes first order DC bus-bar voltage maintain Uref1.Generally speaking the problem of the capacity of each power supply in consideration system is needed when system.

State two: along with the load down of system or the power output of photovoltaic generation unit reduce, the power output of photovoltaic battery panel is less than maximum charge power and the bearing power sum of storage battery, and first order DC bus-bar voltage is lower than Uref1.Photovoltaic battery panel becomes maximum power control from Isobarically Control; Battery charge controller, the electric current of charging is less than maximum charging current.This is because falling of first order DC bus-bar voltage is caused, and the size of the charge and discharge control electric current of storage battery is relevant with first order DC bus-bar voltage difference.The final burning voltage of system is the some magnitudes of voltage between Uref1 and Uref2.

State three: this is the off-line state of storage battery.Load continues to increase the weight of or the power output of photovoltaic battery panel reduces, and the peak power output of photovoltaic cell equals the power output of load, and storage battery output current is zero, quits work.The powering mode of system is that the independent accumulators of photovoltaic battery panel is powered, and now the first order DC bus-bar voltage of system reduces along with increasing the weight of of load.Some magnitudes of voltage between the first order DC bus-bar voltage of system finally can be stabilized in as Uref2 and Uref3.

State four: this state is the discharge process of storage battery.Storage battery discharges with sagging control mode, to make up the underpower in system.Include two parts in this process: when first order DC bus-bar voltage be less than be operated between Uref3 and Uref41 time, storage battery with droop control to system power supply; When the voltage of system is lower than Uref41, fuel cell adopts economical operation power stage to put in system, reduces the discharge power of storage battery, makes the first order DC bus-bar voltage of system can be stabilized in a magnitude of voltage between Uref41 and Uref42.

State five: fuel cell droop control power output.When the power required for load is greater than the minimum output power of the output of photovoltaic cell and the maximum discharge power of storage battery and fuel cell, first order DC bus-bar voltage can continue to reduce.Fuel cell should be exported for droop control by constant power output.Now the operating voltage of first order DC bus is less than a magnitude of voltage of Uref42.When first order DC bus-bar voltage works in Uref5, be the voltage of the peak power output of fuel cell, if load down, then system will enter overload condition.

Once system has entered into overload condition, the voltage of system will there will be decline by a relatively large margin, cause the paralysis of system, therefore in order to maintain the stability of system, can ensure the reliability operation of system by cutting off unessential load.

In the embodiment of the present invention, interchange microgrid, direct-current micro-grid and the Internet are mixed, and exchanging the voltage bus marking off different electric pressure in microgrid and direct-current micro-grid respectively, meet the user demand of the different power device of different user, whole system realizes man-machine interaction by modern interconnected communication technology, has really accomplished the intellectuality of microgrid.The access of different distributed power sources, supports each other, makes system more stability and security.

Embodiment two

Embodiments provide a kind of microgrid control method.

Figure 10 is the flow chart of the microgrid control method according to the embodiment of the present invention.As shown in Figure 10, a kind of microgrid control method that the embodiment of the present invention provides is applicable to the microgrid control system described in embodiment corresponding to Fig. 1 one, and it is as follows that this microgrid control method comprises step:

Step S1002, detects current microgrid control system and whether is in island mode operation;

Concrete, because microgrid operational mode has: grid-connect mode, island mode and isolated island/grid-connected switch mode.Wherein, island mode refers to when mains-supplied mains supply trips because of failure accident or power failure maintenance, the distributed grid-connected electricity generation system of each user side is failed to detect power down mode in time thus self is cut off mains-supplied network, and final formation is made up of the isolated island electricity generation system of a self-energizing distributed power station grid-connected system and its connected load.Namely island mode in the embodiment of the present invention refers to, when mains-supplied mains supply trips because of failure accident or power failure maintenance, detects the state residing for electric power system be made up of interchange microgrid, generating set and direct-current micro-grid in microgrid control system.

Step S1004, when testing result is for being, the direct-current micro-grid in triggering microgrid control system, the generating set be connected with direct-current micro-grid run;

Concrete, based on step S1002, when detecting that current microgrid control system is in island state, namely, when mains-supplied electrical network trips because of failure accident or power failure maintenance, direct-current micro-grid in triggering microgrid control system, the generating set be connected with direct-current micro-grid run, and wherein, are that microgrid control system is powered for ensureing that generating set is enabled in the normal operation of microgrid control system.

Step S1006, is reported the running status of current microgrid control system by communication network;

Concrete, integrating step S1004, actual user's demand is met in order to ensure microgrid control system, therefore the running status of current microgrid control system is reported to the webserver, with the running status making the client place used at maintenance website or user can obtain current microgrid control system in time, further generate/arrange corresponding processing instruction according to this running status.

Step S1008, receives the processing instruction returned by communication network;

Step S1010, performs processing instruction.

Concrete, the running status of the current microgrid control system reported to the webserver in corresponding step S1006, receives this processing instruction by step S1008, performs the running status adjustment being in the microgrid control system of island mode according to this processing instruction.

Embodiments providing microgrid control method, whether being in island mode operation by detecting current described microgrid control system; When testing result is for being, triggers the direct-current micro-grid in described microgrid control system, the generating set that is connected with described direct-current micro-grid runs; The running status of current described microgrid control system is reported by communication network; Receive the processing instruction returned by described communication network; Perform described processing instruction, solve due to incompatible alternating current and the problem that the load accessing supply network normally runs cannot be ensured when being in and departing from mains-supplied network, reach and promote microgrid control system compatibility, and after disengaging mains-supplied network, the load of access supply network still keeps the normal effect run.

Preferably, step S1002 detect current microgrid control system whether be in island mode run after, the microgrid control method that the embodiment of the present invention provides also comprises:

Step S1001, when testing result is no, judges whether microgrid control system is in grid-connect mode and runs;

Concrete, as the operational mode of the microgrid that step S1002 provides, be no in testing result, namely when current microgrid control system is not in island state, then need to judge whether current microgrid control system is in grid-connect mode, wherein, grid-connect mode namely, mains-supplied electrical network with exchange microgrid and set up and be electrically connected, exchange microgrid and direct-current micro-grid is run simultaneously.

Step S1003, when microgrid control system be in grid-connect mode run time, the photovoltaic battery panel enabled in the photovoltaic generation unit in generating set is that the load in microgrid control system is powered, and charges for energy storage device;

Concrete, based on step S1001, when current microgrid is in grid-connect mode operation, the microgrid control method provided due to the embodiment of the present invention preferentially uses with regenerative resource, non-regeneration energy takes second place, energy storage device electric energy supplement and for subsequent use for sequence call generating set, call photovoltaic generation unit so limited in the step s 1003, and to enable photovoltaic battery panel be that load in microgrid control system is powered, and charge for energy storage device.

Wherein, power supply care is carried out in the load in step S1003 in photovoltaic battery panel and microgrid control system can be as follows:

Mode one, when the amount of power supply of the photovoltaic generation unit in microgrid control system is greater than the amount of power supply needed for load, and energy storage device is in full state, the photovoltaic generation unit amount of power supply be greater than needed for load is delivered to direct-current micro-grid and/or exchanges microgrid;

Concrete, be in and net state due to current, when the amount of power supply of photovoltaic generation unit is greater than the amount of power supply needed for load, constant for ensureing direct-current micro-grid builtin voltage, therefore the photovoltaic generation unit amount of power supply be greater than needed for load be delivered to direct-current micro-grid and/or exchange microgrid, or this is greater than the required amount of power supply of load to increase load consumption in microgrid control system.

Mode two, when the amount of power supply of the photovoltaic generation unit in microgrid control system is less than the amount of power supply needed for load, starter-generator group is that microgrid control system is powered.

Concrete, the embodiment of the present invention is when the amount of power supply of photovoltaic generation unit is less than the amount of power supply needed for load, starter-generator group is that microgrid control system is powered, wherein, this generating set is to non-regeneration energy generating set, such as diesel engine generator, do not enable herein energy storage device be microgrid control system power be due to, energy storage device is stand-by power supply, only have when generating set all cannot meet microgrid control system power time, energy storage device is just triggered, and electric discharge ensures the load electricity consumption in microgrid control system.

Preferably, trigger the step that the direct-current micro-grid in microgrid control system and the generating set that is connected with direct-current micro-grid run in step S1004 to comprise:

Step S10041, when testing result is for being, when the voltage of the first order DC bus in direct-current micro-grid is more than or equal to predetermined threshold value, by adjusting photovoltaic generation unit in sagging pattern, carrys out regulation output electric current;

Concrete, when microgrid control system is in island mode, if the voltage of first order DC bus is more than or equal to predetermined threshold value, for ensureing the direct-current micro-grid voltage constant belonging to the first DC bus, then photovoltaic generation unit is adjusted to sagging pattern, the electric current and voltage reducing photovoltaic generation unit exports, thus ensures the effective use of electric energy.

Step S10042, when the first order DC bus-bar voltage in direct-current micro-grid is less than predetermined threshold value, operates in controller for solar MPPT pattern by the photovoltaic generation unit in direct-current micro-grid, and energy storage device is operated in sagging pattern;

Concrete, based on step S10041, if further first order DC bus-bar voltage is less than predetermined threshold value, for ensureing the direct-current micro-grid voltage constant belonging to the first DC bus, photovoltaic generation unit is adjusted to MPPT pattern, namely photovoltaic generation unit is controlled with maximum power output, thus ensure direct-current micro-grid voltage constant, now energy storage device can be in off position or charged state, to ensure that energy storage device has the direct-current micro-grid belonging to enough electricity supply first order DC buss when the voltage of first order DC bus continues to reduce.

Step S10043, when the first order DC bus-bar voltage in direct-current micro-grid continues to reduce, control photovoltaic generation unit and quit work, concurrent energy storage device discharges to microgrid control system.

Concrete, from step S10042, if first order DC bus-bar voltage continues to reduce, because photovoltaic generation unit is according to the power demands that cannot meet current direct-current micro-grid, put a little, to ensure direct-current micro-grid voltage constant so trigger energy storage device.

Preferably, the running status of current microgrid control system is comprised following at least one mode by the step that communication network carries out reporting by step S1006:

Mode one: the server running status of current microgrid control system being reported to maintenance site by communication network, running status is used to indicate maintenance site and sends the processing instruction whether adjusting the configuration of microgrid control system;

Concrete, the running status of current direct-current micro-grid and/or interchange microgrid is sent to the webserver, make to safeguard that business obtains faulty circuit in time or knows the state variation of current electric grid, and generate should the processing instruction of fault to faulty circuit, or, generate the adjustment instruction of the micro-direct-current micro-grid of adjustment and/or interchange microgrid running status.

Mode two: the running status of current microgrid control system is reported to subscription client by communication network, running status is used to indicate subscription client and sends the processing instruction whether adjusting the configuration of microgrid control system.

Concrete, be different from mode one, mode two is by current direct-current micro-grid and/or exchanges the running status of microgrid and be sent to the webserver, makes user by the client of carrying of mobile terminal, by obtaining faulty circuit to the webserver or knowing the state variation of current electric grid.

Except this mode one and mode two, also comprise: the running status of current direct-current micro-grid and/or interchange microgrid is sent to the webserver, make to safeguard that business obtains faulty circuit in time or knows the state variation of current electric grid, and user is by the client of carrying of mobile terminal, obtains faulty circuit by the webserver or know the state variation of current electric grid.

Preferably, the step performing processing instruction in step S1010 comprises following at least one mode:

Mode one, triggers droop control according to processing instruction, and generating set and energy storage device being accessed successively microgrid control system is load supplying in microgrid control system;

Concrete, after step S1008 receives processing instruction, fixed a breakdown according to this processing instruction by direct-current micro-grid and/or interchange microgrid, or regulate direct-current micro-grid according to this adjustment instruction and/or exchange the running status of microgrid.

Mode two, when powering needed for load during electric set electric supply is lower than microgrid control system, triggering energy storage device and putting a little.

Concrete, after step S1008 receives processing instruction, be different from mode one, used the processing instruction of client feedback by user, fixed a breakdown according to this processing instruction by direct-current micro-grid and/or interchange microgrid, or regulate direct-current micro-grid according to this adjustment instruction and/or exchange the running status of microgrid.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (13)

1. a microgrid control system, is characterized in that, comprising: exchange microgrid, generating set, direct-current micro-grid, communication network and the webserver, wherein,

Described interchange microgrid is set up with described direct-current micro-grid and is electrically connected;

Described generating set is set up with described direct-current micro-grid and is electrically connected, for making stand-by power supply;

Described communication network is set up be electrically connected, for the running status of described interchange microgrid and/or described direct-current micro-grid is reported to the described webserver with described microgrid and the described direct-current micro-grid of exchanging respectively.

2. system according to claim 1, it is characterized in that, described interchange microgrid comprises: transformer, three-phase alternating current bus, the corresponding load of described three-phase alternating current bus, single phase alternating current (A.C.) bus, the corresponding load of described single phase alternating current (A.C.) bus and AC/DC transducer, wherein

Described transformer is set up with described three-phase alternating current bus and is electrically connected;

The load that described three-phase alternating current bus is corresponding with described three-phase alternating current bus is set up and is electrically connected, for providing three phase supply to the load corresponding to described three-phase alternating current bus;

Described single phase alternating current (A.C.) bus is set up with the bus of described three-phase alternating current and is electrically connected, for providing single phase power supply to the load corresponding to described single phase alternating current (A.C.) bus;

Two-way DC/AC transducer in directly described/a-c transducer is set up with described three-phase alternating current bus and described single phase alternating current (A.C.) bus and is electrically connected, and accesses described direct-current micro-grid for the alternating current of three phase network is converted to direct current.

3. system according to claim 2, is characterized in that, described direct-current micro-grid comprises: multistage DC bus, load that described multistage DC bus is corresponding, direct current DC/DC transducer, the power supply that opens the light, AC/DC transducer and energy storage device, wherein,

First order DC bus in described multistage DC bus is set up with the two-way AC/DC transducer in described AC/DC transducer and is electrically connected, for receiving the direct current supply changed by described three phase network;

Described generating set to be set up with described first order DC bus by described AC/DC transducer and is electrically connected, for providing direct current supply for described direct-current micro-grid;

Described energy storage device accesses described first order DC bus, for storing the direct current produced by described generating set by the described bidirectional, dc transducer in described direct current transducer;

Second level DC bus in described multistage DC bus is set up with described energy storage device and is electrically connected;

Described second level DC bus is set up with the third level DC bus in described multistage DC bus by the Unidirectional direct-current transducer in described direct current transducer and is electrically connected, and provides direct current supply for the load for accessing described third level DC bus corresponding;

Open the light described in fourth stage bus in described multistage DC bus passes through third level DC bus described in plant-grid connection, and the power supply that opens the light described in passing through is set up with described first order DC bus and is electrically connected, for providing direct current supply for the load accessed corresponding to described fourth stage DC bus.

4. system according to claim 3, is characterized in that, described generating set comprises: renewable energy power generation unit and non-regeneration energy generating set, wherein,

Described renewable energy power generation unit at least comprises: photovoltaic generation unit, wind turbine generator, and wherein, described photovoltaic generation unit comprises energy-storage module.

5. system according to claim 4, it is characterized in that, described photovoltaic generation unit accesses described first order DC bus by the Unidirectional direct-current transducer in described direct current transducer, and wherein, described Unidirectional direct-current transducer comprises: DC boosting Boost circuit.

6. system according to claim 3, it is characterized in that, the load that described multistage DC bus is corresponding accesses corresponding described multistage DC bus by the Unidirectional direct-current transducer in described direct current transducer, and wherein, described Unidirectional direct-current transducer comprises: buck converter Buck circuit.

7. system according to claim 3, it is characterized in that, described energy storage device accesses described first order DC bus by the bidirectional, dc transducer in described direct current transducer, wherein, described bidirectional, dc transducer comprises: two-way Buck/Boost circuit, when described two-way Buck/Boost circuit is Buck pattern, described energy storage device performs charging operations; When described two-way Buck/Boost circuit is Boost pattern, described energy storage device performs discharge operation.

8. system according to claim 1, is characterized in that, described communication network comprises: direct-current micro-grid state collecting device, interchange microgrid state collecting device, communicator, wherein,

Described communicator is set up with described direct-current micro-grid state collecting device be electrically connected with the described microgrid state collecting device that exchanges respectively, for by described direct-current micro-grid and the described running status report network server exchanging microgrid.

9. a microgrid control method, is characterized in that, be applied to claim 1 to the arbitrary described microgrid control system of claim 8, described method comprises:

Detect current described microgrid control system and whether be in island mode operation;

When testing result is for being, triggers the direct-current micro-grid in described microgrid control system, the generating set that is connected with described direct-current micro-grid runs;

The running status of current described microgrid control system is reported by communication network;

Receive the processing instruction returned by described communication network;

Perform described processing instruction.

10. method according to claim 9, is characterized in that, after whether the current described microgrid control system of described detection is in island mode operation, described method also comprises:

When testing result is no, judge whether described microgrid control system is in grid-connect mode and runs;

When described microgrid control system be in described grid-connect mode run time, the photovoltaic battery panel enabled in the photovoltaic generation unit in described generating set is that the load in described microgrid control system is powered, and charges for energy storage device;

Wherein, when the amount of power supply of the described photovoltaic generation unit in described microgrid control system is greater than the amount of power supply needed for described load, and described energy storage device is in full state, the described photovoltaic generation unit amount of power supply be greater than needed for described load is delivered to described direct-current micro-grid and/or described interchange microgrid;

When the amount of power supply of the described photovoltaic generation unit in described microgrid control system is less than the amount of power supply needed for described load, starting described generating set is that described microgrid control system is powered.

11. methods according to claim 9, is characterized in that, the step that the direct-current micro-grid in described triggering described microgrid control system and the generating set be connected with described direct-current micro-grid run comprises:

When testing result is for being, when the voltage of the first order DC bus in described direct-current micro-grid is more than or equal to predetermined threshold value, by adjusting described photovoltaic generation unit in sagging pattern, carry out regulation output electric current;

When the described first order DC bus-bar voltage in described direct-current micro-grid is less than predetermined threshold value, the described photovoltaic generation unit in described direct-current micro-grid is operated in controller for solar MPPT pattern, and described energy storage device is operated in described sagging pattern;

When the described first order DC bus-bar voltage in described direct-current micro-grid continues to reduce, control described photovoltaic generation unit and quit work, concurrent described energy storage device discharges to described microgrid control system.

12. methods according to claim 9, is characterized in that, the described running status by current described microgrid control system comprises following at least one mode by the step that described communication network carries out reporting:

Mode one: the server running status of current described microgrid control system being reported to maintenance site by communication network, described running status is used to indicate described maintenance site and sends the processing instruction whether adjusting the configuration of described microgrid control system;

Mode two: the running status of current described microgrid control system is reported to subscription client by communication network, described running status is used to indicate described subscription client and sends the processing instruction whether adjusting the configuration of described microgrid control system.

13. methods according to claim 9, is characterized in that, the step of the described processing instruction of described execution comprises following at least one mode:

Mode one, triggers droop control according to described processing instruction, and described generating set and described energy storage device being accessed successively described microgrid control system is load supplying in described microgrid control system;

Mode two, when powering needed for load during described electric set electric supply is lower than described microgrid control system, triggering described energy storage device and putting a little.