CN105375490B - A kind of energy conservation transmission voltage compensation method - Google Patents
A kind of energy conservation transmission voltage compensation method Download PDFInfo
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- CN105375490B CN105375490B CN201510979068.3A CN201510979068A CN105375490B CN 105375490 B CN105375490 B CN 105375490B CN 201510979068 A CN201510979068 A CN 201510979068A CN 105375490 B CN105375490 B CN 105375490B
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J3/00—Circuit arrangements for ac mains or ac distribution networks
- H02J3/12—Circuit arrangements for ac mains or ac distribution networks for adjusting voltage in ac networks by changing a characteristic of the network load
- H02J3/16—Circuit arrangements for ac mains or ac distribution networks for adjusting voltage in ac networks by changing a characteristic of the network load by adjustment of reactive power
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E40/00—Technologies for an efficient electrical power generation, transmission or distribution
- Y02E40/30—Reactive power compensation
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Abstract
A kind of energy saving transmission voltage compensation method of disclosure of the invention, pass through this method, can accurate detection power transmission line immediately idle and voltage fluctuation situation, carry out adaptively switching reactive compensation capacitor, real time stepless is adjustable to compensate the dynamic of transmission voltage, even if being still able to maintain that the voltage stabilization of power transmission network in the case where transmission line of electricity breaks down, and realize reactive-load compensation equipment operation optimization, effectively save electric energy.
Description
Technical field
The present invention relates to a kind of energy saving transmission voltage compensation method.
Background technique
China's current power transmission system, there is radius of electricity supplys greatly, seaonal load variation is big, route reactive loss is big, function
The problems such as rate factor is low, reactive power is unable to in-situ balancing, especially because in industrial production a large amount of non-linear, impact and
The presence of wavy load brings the power quality problem got worse to power grid, and the serious voltage for affecting power grid is steady
It is fixed, threaten the normal operation of electric system and user equipment.
In addition, bringing new feature to the operation and control of transmission system with a large amount of transmission systems of distributed generation resource.By
It is influenced in distributed generation resource by Changes in weather, there is the characteristic changed at random, make system load flow that there is the characteristic changed at random,
Therefore the access of distributed generation resource will increase the fluctuation of system voltage.In order to inhibit system voltage to fluctuate, dynamic nothing is needed to configure
Reactive power compensation installations inhibit voltage fluctuation
Reactive power compensation technology is all the research hotspot in electrical engineering field all the time, with SVC dynamic reactive compensator
Compare, static reactive generator have the compensation time it is fast, can Continuous Compensation, be not likely to produce resonance, certain time humorous can be compensated
The advantages that wave.
SVG prior art switching determination strategy is divided into power factor controlling mode, voltage controlling party by control physical quantity
Formula, reactive current control mode, Reactive Power Control mode and complex controll mode.The complex controll mode includes voltage again
With reactive power complex controll mode, reactive power and power factor complex controll mode and voltage and power factor are compound
Control mode.
In the steady state, existing method can be by voltage stabilization to rated value.But the situation larger in voltage change steepness
Under, especially in the case where transmission line of electricity breaks down, existing reactive power compensator cannot quickly compensate idle variation,
It cannot good burning voltage.
Reactive Power Optimization Algorithm for Tower in transmission system is an extremely complex problem.It is by multiple constraint conditions, multiple
Performance variable, multiple objective functions large-scale nonlinear problem combine.Reactive Power Optimazation Problem is solved, is obtained first reality
Border problem is converted into mathematical model, and on this basis, obtains optimal solution.Reactive Power Optimization Algorithm for Tower is mainly divided into two classes at present,
One kind is classical Reactive Power Optimization Algorithm for Tower, and another kind of is artificial intelligence Reactive Power Optimization Algorithm for Tower.Classical Reactive Power Optimization Algorithm for Tower is due to it
Mathematical model is complicated, it is more demanding to choose to initial point, does not have the disadvantages of real-time, gradually by artificial optimization's algorithm
Replace.
Summary of the invention
To solve the above problems, the present invention provides a kind of energy saving transmission voltage compensation method, in this way, can be instant
Idle and voltage the fluctuation situation of accurate detection power transmission line carries out adaptively switching reactive compensation capacitor, real time stepless
The adjustable dynamic to transmission voltage compensates, even if being still able to maintain that power transmission network in the case where transmission line of electricity breaks down
Voltage stabilization, and realize reactive-load compensation equipment operation optimization, effectively save electric energy.
To achieve the goals above, the present invention provides a kind of energy saving transmission voltage compensation method, and this method specific steps are such as
Under:
S1. the voltage and electricity of the monitoring point of first voltage sampling module and the first current sampling module real-time collecting power transmission line
Stream information, and collected voltage and current information is transferred to the signal acquisition unit of control module;
S2. signal acquisition unit obtains voltage, the idle and information such as active by operation;
S3. fault identification unit carries out judging whether current transmission line of electricity is normal according to current voltage information;If normal
S4 is entered step, if abnormal enter step S5;
S4. the control of reactive power compensating is carried out by normal control unit, realizes the stabilization of transmission voltage;
S5. the control of reactive power compensating is carried out by faulty control unit, realizes the stabilization of transmission voltage.
Preferably, in step s3, judge whether current transmission line of electricity is normal in the following way:
The critical value of Voltage Drop is set U by fault identification unitl1, restore critical value and be set as Ul2, wherein Ul1<
Ul2;
When voltage is lower than Ul1Time be more than fall triggering differentiate time Δ tl1When, fault identification unit judges that power grid is worked as
Preceding state is Voltage Drop failure;Output malfunction flag bit is flag=1 at this time;
Restore from malfunction to U after Voltage Drop12Time be more than fall recovery differentiate time Δ tl2When, failure
Recognition unit judges power grid current state for voltage recovery, and exporting malfunction flag bit at this time is flag=0;
The critical value that fault identification unit is brought the voltage up is set as Uh1, restore critical value and be set as Uh2, wherein Uh2<
Uh1;
When voltage is higher than Uh1Time be more than increase triggering differentiate time Δ th1When, fault identification unit judges that power grid is worked as
Preceding state is overtension failure, and exporting malfunction flag bit at this time is flag=1, activates faulty control unit;
When voltage is lower than Uh2Time be more than increase restore differentiate time Δ th2When, fault identification unit judges that power grid is worked as
Preceding state is that voltage restores normal, and exporting malfunction flag bit at this time is flag=0, stops faulty control unit.
Preferably, in step s 4, specifically comprise the following steps:
Normal control unit controls the control point under nominal situation according to control strategy;Control strategy includes constant voltage control
Strategy, power limitation control strategy and constant power factor control strategy.
Preferably, constant voltage control strategy be used for by the voltage at control point maintain voltage reference value range [Umin,
Umax] in, the reactive power reference qref Qsvg_ref of the reactive power compensator under constant voltage control strategy are as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Q of reactive power compensator under rate control strategysvg_refAre as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Qsvg_ref of reactive power compensator under rate control strategy are as follows:
In above formula, QrefFor the reactive power reference qref at control point;QpccFor the reactive power at control point;QsvgFor idle benefit
Repay device access point reactive power;
Constant power factor control strategy is used to the power factor at control point being maintained power factor reference value PFref, in perseverance
The reactive power reference qref Q of reactive power compensator under power factor control schemesvg_refAre as follows:
In above formula, PFref is the power factor reference value at control point;Ppcc, Qpcc are the active power, idle at control point
Power;
Conversion between constant voltage control strategy, power limitation control strategy and constant power factor control strategy passes through modification control
Parameter processed is realized.
Preferably, during reactive compensation, following steps starting reactive compensation system can be used:
S61. control module judges whether the voltage value of power transmission line and frequency values are normal;
S62. when bus voltage value and normal frequency values, it is closed main contactor, voltage compensation system and power grid are connected
It connects, into pre-charging stage;
S63. after the pre-charging stage, control module carries out dq coordinate to the power transmission line three-phase voltage signal of acquisition
Transformation and locking phase, obtain the electric voltage frequency and phase information of power transmission line;
S64. control module is synchronous with network voltage by operation generation using the electric voltage frequency and phase information obtained
Sine pulse width modulation (PWM) wave signal, is exported by inverter circuit controller to three phase inverter bridge;
S65. the sine pulse width modulation (PWM) wave modulation ratio is gradually reduced using open loop control mode, until the DC side of SVG equipment
Voltage reaches load voltage value, into the follow-up operation stage.
Further, pre-charge process described in step S62, power grid pass through the inverse parallel two in IGCT three phase inverter bridge
Pole pipe constitutes three-phase uncontrollable rectifier circuit and charges to DC bus capacitor device, second voltage sampling module and the second current sample mould
Block detects the voltage and charging current value of SVG equipment, when DC bus capacitor device voltage value is stable and charging current is zero, in advance
Charging stage terminates.
A kind of energy-saving transmission voltage compensation method provided by the invention has the advantages that (1) can be based on obtaining in real time
The voltage and current information of multiple nodes of the power transmission line taken analyzes and determines the current voltage of power transmission line, idle and active shape in real time
State.(2) reactive compensation under voltage normal fluctuation state can be coped with, the nothing under the failure that voltage sharply declines can also be coped with
Function compensation, improves the threshold value of bus voltage compensation.
Detailed description of the invention
Fig. 1 shows a kind of block diagram of energy-saving transmission voltage compensation system of the invention;
Fig. 2 shows a kind of energy saving transmission voltage compensation methodes of the invention.
Specific embodiment
Fig. 1 shows a kind of block diagram of energy-saving transmission voltage compensation system, which includes:
First voltage sampling module 10, the information of voltage of the multiple spot for acquiring power transmission line 1 in real time;
First current sampling module 9, the information of voltage of the multiple spot for acquiring power transmission line 1 in real time;
SVG equipment 4, for providing capacitive reactive power for power transmission network;
Main contactor 2 is same as the connection that can turn off voltage compensation system and power transmission line 1;
Three-phase inverter bridge circuit 3, one end and the connection of above-mentioned SVG equipment 4, the other end connect main contactor;
Inverter circuit controller 7, the shutdown of the electronic switch for controlling three-phase inverter bridge circuit 3, to control nothing
The compensation rate of function;
Control module 8, for controlling the collaborative work of the voltage compensation system all parts, which includes: letter
Number acquisition unit 81, normal control unit 82, faulty control unit 83 and fault identification unit 84, in which:
The input terminal of signal acquisition unit 81 is connected to first voltage acquisition module 10 and the first current acquisition module 9, defeated
Outlet is connected to normal control unit 82 and fault identification unit 83;
Fault identification unit 83 is connected 84 with faulty control unit;
The output end of normal control unit 82 and faulty control unit 84 is respectively connected to inverter circuit controller 7 and master
Contactor 2, for controlling inverter circuit 7 and main contactor 2.
Preferably, signal acquisition unit 81 comes from first voltage acquisition module 10 and the first current acquisition module for receiving
9 collected voltage and current information, and then the data informations such as voltage, active power and reactive power for obtaining power transmission line, and
The data information is exported through first order inertial loop to normal control unit 81 and fault identification unit 82.
Preferably, normal control unit 81 controls the control point under nominal situation according to control strategy;Control strategy includes
Constant voltage control strategy, power limitation control strategy and constant power factor control strategy.
Preferably, constant voltage control strategy be used for by the voltage at control point maintain voltage reference value range [Umin,
Umax] in, the reactive power reference qref Qsvg_ref of the reactive power compensator under constant voltage control strategy are as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Q of reactive power compensator under rate control strategysvg_refAre as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Qsvg_ref of reactive power compensator under rate control strategy are as follows:
In above formula, QrefFor the reactive power reference qref at control point;QpccFor the reactive power at control point;QsvgFor idle benefit
Repay device access point reactive power;
Constant power factor control strategy is used to the power factor at control point being maintained power factor reference value PFref, in perseverance
The reactive power reference qref Q of reactive power compensator under power factor control schemesvg_refAre as follows:
In above formula, PFref is the power factor reference value at control point;Ppcc, Qpcc are the active power, idle at control point
Power;
Conversion between constant voltage control strategy, power limitation control strategy and constant power factor control strategy passes through modification control
Parameter processed is realized.
Preferably, faulty control unit 84 is used in case of a fault, according to control parameter to the voltage deviation at control point
Value carries out proportional integration operation, obtains the reactive power reference qref of reactive power compensator;Control parameter includes pi regulator parameter
KfAnd Tf, Voltage Drop critical value Ul1, voltage raising critical value Uh1, input signal is control point voltage Upcc, output signal is nothing
The reactive power reference qref Q of Reactive power compensation installationssvg_ref:
Fault identification unit 82 is judged and is provided according to fault condition of the voltage magnitude with control point to power transmission network
Malfunction position, and carry out critical voltage Hysteresis control and fault time dead zone function.
Preferably, the critical value of Voltage Drop is set U by fault identification unitl1, restore critical value and be set as Ul2,
Middle Ul1< Ul2;
When voltage is lower than Ul1Time be more than fall triggering differentiate time Δ tl1When, fault identification unit judges that power grid is worked as
Preceding state is Voltage Drop failure;Output malfunction flag bit is flag=1 at this time;
Restore from malfunction to U after Voltage Drop12Time be more than fall recovery differentiate time Δ tl2When, failure
Recognition unit judges power grid current state for voltage recovery, and exporting malfunction flag bit at this time is flag=0;
The critical value that fault identification unit is brought the voltage up is set as Uh1, restore critical value and be set as Uh2, wherein Uh2<
Uh1;
When voltage is higher than Uh1Time be more than increase triggering differentiate time Δ th1When, fault identification unit judges that power grid is worked as
Preceding state is overtension failure, and exporting malfunction flag bit at this time is flag=1, activates faulty control unit;
When voltage is lower than Uh2Time be more than increase restore differentiate time Δ th2When, fault identification unit judges that power grid is worked as
Preceding state is that voltage restores normal, and exporting malfunction flag bit at this time is flag=0, stops faulty control unit.
Preferably, when faulty control unit is activated, normal control unit stops output control signal.
Preferably, the three-phase inverter bridge circuit uses IGCT three phase inverter bridge.
Preferably, the system also includes the second voltages of the voltage and current information for acquiring SVG equipment to acquire mould
Block and the second current acquisition module.
Attached drawing 2 shows a kind of energy saving transmission voltage compensation method of the invention, and specific step is as follows for this method:
S1. the voltage and electricity of the monitoring point of first voltage sampling module and the first current sampling module real-time collecting power transmission line
Stream information, and collected voltage and current information is transferred to the signal acquisition unit of control module;
S2. signal acquisition unit obtains voltage, the idle and information such as active by operation;
S3. fault identification unit carries out judging whether current transmission line of electricity is normal according to current voltage information;If normal
S4 is entered step, if abnormal enter step S5;
S4. the control of reactive power compensating is carried out by normal control unit, realizes the stabilization of transmission voltage;
S5. the control of reactive power compensating is carried out by faulty control unit, realizes the stabilization of transmission voltage.
Preferably, in step s3, judge whether current transmission line of electricity is normal in the following way:
The critical value of Voltage Drop is set U by fault identification unitl1, restore critical value and be set as Ul2, wherein Ul1<
Ul2;
When voltage is lower than Ul1Time be more than fall triggering differentiate time Δ tl1When, fault identification unit judges that power grid is worked as
Preceding state is Voltage Drop failure;Output malfunction flag bit is flag=1 at this time;
Restore from malfunction to U after Voltage Drop12Time be more than fall recovery differentiate time Δ tl2When, failure
Recognition unit judges power grid current state for voltage recovery, and exporting malfunction flag bit at this time is flag=0;
The critical value that fault identification unit is brought the voltage up is set as Uh1, restore critical value and be set as Uh2, wherein Uh2<
Uh1;
When voltage is higher than Uh1Time be more than increase triggering differentiate time Δ th1When, fault identification unit judges that power grid is worked as
Preceding state is overtension failure, and exporting malfunction flag bit at this time is flag=1, activates faulty control unit;
When voltage is lower than Uh2Time be more than increase restore differentiate time Δ th2When, fault identification unit judges that power grid is worked as
Preceding state is that voltage restores normal, and exporting malfunction flag bit at this time is flag=0, stops faulty control unit.
Preferably, in step s 4, specifically comprise the following steps:
Normal control unit controls the control point under nominal situation according to control strategy;Control strategy includes constant voltage control
Strategy, power limitation control strategy and constant power factor control strategy.
Preferably, constant voltage control strategy be used for by the voltage at control point maintain voltage reference value range [Umin,
Umax] in, the reactive power reference qref Qsvg_ref of the reactive power compensator under constant voltage control strategy are as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Q of reactive power compensator under rate control strategysvg_refAre as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;
UpccFor busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in permanent function
The reactive power reference qref Qsvg_ref of reactive power compensator under rate control strategy are as follows:
In above formula, QrefFor the reactive power reference qref at control point;QpccFor the reactive power at control point;QsvgFor idle benefit
Repay device access point reactive power;
Constant power factor control strategy is used to the power factor at control point being maintained power factor reference value PFref, in perseverance
The reactive power reference qref Q of reactive power compensator under power factor control schemesvg_refAre as follows:
In above formula, PFref is the power factor reference value at control point;Ppcc, Qpcc are the active power, idle at control point
Power;
Conversion between constant voltage control strategy, power limitation control strategy and constant power factor control strategy passes through modification control
Parameter processed is realized.
Preferably, in step s 5, specifically comprise the following steps:
Faulty control unit is in case of a fault, carrying out ratio according to voltage deviation value of the control parameter to control point
Integral operation obtains the reactive power reference qref of reactive power compensator;Control parameter includes pi regulator parameter KfAnd Tf, voltage
Fall critical value Ul1, voltage raising critical value Uh1, input signal is control point voltage Upcc, output signal is reactive power compensator
Reactive power reference qref Qsvg_ref:
Fault identification unit is judged according to fault condition of the voltage magnitude with control point to power transmission network and is provided event
Hinder mode bit, and carries out critical voltage Hysteresis control and fault time dead zone function.
Preferably, during reactive compensation, following steps starting reactive compensation system can be used:
S61. control module judges whether the voltage value of power transmission line and frequency values are normal;
S62. when bus voltage value and normal frequency values, it is closed main contactor, voltage compensation system and power grid are connected
It connects, into pre-charging stage;
S63. after the pre-charging stage, control module carries out dq coordinate to the power transmission line three-phase voltage signal of acquisition
Transformation and locking phase, obtain the electric voltage frequency and phase information of power transmission line;
S64. control module is synchronous with network voltage by operation generation using the electric voltage frequency and phase information obtained
Sine pulse width modulation (PWM) wave signal, is exported by inverter circuit controller to three phase inverter bridge;
S65. the sine pulse width modulation (PWM) wave modulation ratio is gradually reduced using open loop control mode, until the DC side of SVG equipment
Voltage reaches load voltage value, into the follow-up operation stage.
Further, pre-charge process described in step S62, power grid pass through the inverse parallel two in IGCT three phase inverter bridge
Pole pipe constitutes three-phase uncontrollable rectifier circuit and charges to DC bus capacitor device, second voltage sampling module and the second current sample mould
Block detects the voltage and charging current value of SVG equipment, when DC bus capacitor device voltage value is stable and charging current is zero, in advance
Charging stage terminates.
The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that
Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist
Under the premise of not departing from present inventive concept, several equivalent substitute or obvious modifications is made, and performance or use is identical, all should
It is considered as belonging to protection scope of the present invention.
Claims (4)
1. a kind of energy conservation transmission voltage compensation method, specific step is as follows for this method:
S1. the voltage and current letter of the monitoring point of first voltage sampling module and the first current sampling module real-time collecting power transmission line
It ceases, and collected voltage and current information is transferred to the signal acquisition unit of control module;
S2. signal acquisition unit obtains voltage, idle and active information by operation;
S3. fault identification unit carries out judging whether current transmission line of electricity is normal according to current voltage information;Fault identification unit
U is set by the critical value of Voltage Dropl1, restore critical value and be set as Ul2, wherein Ul1< Ul2;
When voltage is lower than Ul1Time be more than fall triggering differentiate time Δ tl1When, fault identification unit judges power grid current state
For Voltage Drop failure;Output malfunction flag bit is flag=1 at this time;
Restore from malfunction to U after Voltage Drop12Time be more than fall recovery differentiate time Δ tl2When, fault identification list
Member judges power grid current state for voltage recovery, and exporting malfunction flag bit at this time is flag=0;
The critical value that fault identification unit is brought the voltage up is set as Uh1, restore critical value and be set as Uh2, wherein Uh2< Uh1;
When voltage is higher than Uh1Time be more than increase triggering differentiate time Δ th1When, fault identification unit judges power grid current state
For overtension failure, exporting malfunction flag bit at this time is flag=1, activates faulty control unit;
When voltage is lower than Uh2Time be more than increase restore differentiate time Δ th2When, fault identification unit judges power grid current state
Restore normal for voltage, exporting malfunction flag bit at this time is flag=0, stops faulty control unit;
If normally entering step S4, if abnormal enter step S5;
S4. the control of reactive power compensating is carried out by normal control unit, realizes the stabilization of transmission voltage;
S5. the control of reactive power compensating is carried out by faulty control unit, realizes the stabilization of transmission voltage, wherein
During reactive compensation, start reactive compensation system using following steps:
S61. control module judges whether the voltage value of power transmission line and frequency values are normal;
S62. when bus voltage value and normal frequency values, it is closed main contactor, voltage compensation system is connect with power grid, into
Enter pre-charging stage;
S63. after the pre-charging stage, control module carries out dq coordinate transform to the power transmission line three-phase voltage signal of acquisition
And locking phase, obtain the electric voltage frequency and phase information of power transmission line;
S64. control module passes through the operation generation sine synchronous with network voltage using the electric voltage frequency and phase information that obtain
PWM wave signal is exported by inverter circuit controller to three phase inverter bridge;
S65. the sine pulse width modulation (PWM) wave modulation ratio is gradually reduced using open loop control mode, until the DC voltage of SVG equipment
Reach load voltage value, into the follow-up operation stage.
2. the method as described in claim 1, which is characterized in that in step s 4, specifically comprise the following steps:
Normal control unit controls the control point under nominal situation according to control strategy;Control strategy includes constant voltage control plan
Slightly, power limitation control strategy and constant power factor control strategy.
3. method according to claim 2, which is characterized in that constant voltage control strategy is for maintaining the voltage at control point
In voltage reference value range [Umin, Umax], the reactive power reference qref of the reactive power compensator under constant voltage control strategy
Qsvg_ref are as follows:
Wherein,
In above formula, K is proportionality constant, and T is integration time constant, and Δ U is voltage deviation error, UmaxFor voltage max;Upcc
For busbar voltage;UminFor voltage minimum;
Power limitation control strategy is used to the reactive power value at control point being maintained reactive power reference qref Qref, in invariable power control
The reactive power reference qref Qsvg_ref of reactive power compensator under system strategy are as follows:
Qsvg_ref=Qref-Qpcc+Qsvg (3)
In above formula, QrefFor the reactive power reference qref at control point;QpccFor the reactive power at control point;QsvgFor reactive compensation dress
Set access point reactive power;
Constant power factor control strategy is used to the power factor at control point being maintained power factor reference value PFref, in invariable power
The reactive power reference qref Q of reactive power compensator under factor control strategysvg_refAre as follows:
In above formula, PFref is the power factor reference value at control point;Ppcc, Qpcc are the active power at control point, idle function
Rate;
Conversion between constant voltage control strategy, power limitation control strategy and constant power factor control strategy passes through modification control ginseng
Number is realized.
4. method as claimed in claim 3, which is characterized in that pre-charging stage described in step S62, power grid pass through IGCT tri-
Anti-paralleled diode in phase inverter bridge constitutes three-phase uncontrollable rectifier circuit and charges to DC bus capacitor device, and second voltage samples mould
The voltage and charging current value of block and the second current sampling module detection SVG equipment, it is stable to DC bus capacitor device voltage value and
When charging current is zero, pre-charging stage terminates.
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CN106558883A (en) * | 2015-09-24 | 2017-04-05 | 中国电力科学研究院 | A kind of electric network fault control system for reactive power compensator |
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