CN101232188A - Method for controlling reactive-load compensation capacitor and capable of on-line detecting and reactive-load compensation controller thereof - Google Patents

Method for controlling reactive-load compensation capacitor and capable of on-line detecting and reactive-load compensation controller thereof Download PDF

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CN101232188A
CN101232188A CNA2007100265286A CN200710026528A CN101232188A CN 101232188 A CN101232188 A CN 101232188A CN A2007100265286 A CNA2007100265286 A CN A2007100265286A CN 200710026528 A CN200710026528 A CN 200710026528A CN 101232188 A CN101232188 A CN 101232188A
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陈劲游
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    • Y02E40/30Reactive power compensation

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Abstract

The invention discloses a method for online detecting and controlling reactive compensation capacitor and a reactive compensation controller. The method can execute online detection and control of a reactive compensation capacitor through an external electrical parameter extraction circuit, an AC conversion circuit, a sampling hold circuit, a multi-way switch, an A/D conversion circuit, a CPU and a memory, which are sequentially connected with each other, and a display alarm circuit and a switch circuit connected with the CPU. The invention can detect the work condition online and the performance parameter of the capacitor, and determine the disabled capacitor group when the running capacitors can not operate normally due to the increase of the three phase capacitances and difference thereof or the dielectric loss, thus obviating long-term operation of disabled capacitor and enhancing the compensation effect.

Description

The method and the idle compensating control thereof of the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy
[technical field]
The present invention relates to a kind of Detection ﹠ Controling method and detecting instrument thereof that is applied in the electric power system, more particularly relate to the method and the controller thereof of the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy.
[background technology]
The reactive power of electric power system must balance, that is the reactive power sent of electric power system must equal the reactive power sum of reactive load power and transformer, power circuit consumption.The loss that reactive power causes in the electric power system is quite big, generally accounts for 50% of system's total losses.Therefore the very major part of these losses reduces the transmission of reactive power owing to reactive power causes in transformer and power circuit transmission course, the in-situ balancing of realizing reactive power is an important method that reduces the electric power system loss.For realizing the reactive power in-situ balance, what generally adopt now is the shunt capacitor local compensation.Use capacitor can compensate the load lagging reactive power to improve power factor, so claim phase shifting capacitor again, it often is connected on the bus of electric line or power distribution equipment, so claim shunt capacitor again.Because capacitor can disperse to install, install at the place of concentrating the closer to load, just can obtain desirable techno-economic effect more.
Yet, the present idle compensating control that uses capacitor to carry out reactive power compensation, situation and performance parameter that can not the work of online detection capacitor, therefore, when capacitor three phase capacitance value in service and difference or dielectric loss loss increase and cisco unity malfunction the time, can not detect is that problem has appearred in the capacitor of which group, make capacitor operation in spite of illness for a long time, reduce compensation effect, not only do not reduced the wastage when serious, increased loss on the contrary.
Detect by group if regularly have a power failure, not only workload is big, goes back and inconvenience.Given this problem inventor designs the present invention.
[summary of the invention]
For solving the deficiencies in the prior art, the invention provides a kind of method that can detect each group shunt capacitor working condition and performance parameter, the present invention also provides a kind of idle compensating control simultaneously.It is that problem has appearred in the capacitor of which group that this method and idle compensating control can detect, and avoids capacitor operation in spite of illness for a long time, strengthens compensation effect.
The present invention is achieved in that the method for the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy, this method is introduced circuit, ac conversion circuit, sampling hold circuit, variable connector, A/D change-over circuit, CPU, memory by the external electric parameter that connects in turn, and the Display and Alarm Circuit that links to each other with CPU and switching circuit carry out online Detection ﹠ Controling reactive-load compensation capacitor, it is characterized in that the method includes the steps of:
A, external electric parameter are introduced the AC line electric current that circuit is introduced mains side alternating voltage and alternating current and reactive-load compensation capacitor side, then these higher voltage, electric current are passed to ac conversion circuit;
B, ac conversion circuit become lower alternating voltage, electric current to pass to sampling hold circuit alternating voltage higher among the step a, current conversion;
C, by sampling hold circuit will be lower sampling N time in phase weekly of alternating voltage, electric current, remain in the holding circuit after sampling at every turn, pass to the A/D change-over circuit successively by variable connector then;
D, A/D change-over circuit convert the analog quantity of sampling among the step c to digital value, are entered in the memory under the control of CPU;
E, CPU are according to being entered into total power factor and every group capacitor working condition and the performance parameter that data computation in the memory goes out mains side;
F, CPU compare power factor and input thresholding, and comparative result is lower than the input thresholding, and then CPU control switch circuit increases throwing one group capacitor; Comparative result be higher than the excision thresholding then CPU control switch circuit excise a group capacitor, finish the reactive power compensation controlled function;
G, capacitor group working condition and performance parameter and operate as normal value or scope given in advance are compared, if comparative result in permissible value, is not then reported to the police; Comparative result is not in permissible value, and CPU control Display and Alarm Circuit is reported to the police, at this moment this group capacitor group of CPU control switch circuitry cuts;
The method of the online Detection ﹠ Controling reactive-load compensation capacitor of aforesaid a kind of energy is characterized in that CPU5 power taking pressure from memory
Figure A20071002652800071
Digital value and mains side one phase current
Figure A20071002652800072
Digital value calculates power factor and set point relatively; Be lower than drop into thresholding then CPU5 control switch circuit 8 increase and throw a group capacitor, be higher than then CPU5 control switch circuit 8 excisions one group capacitor of excision thresholding;
The method of the online Detection ﹠ Controling reactive-load compensation capacitor of aforesaid a kind of energy is characterized in that CPU is according to the capacitor group line current value that records
Figure A20071002652800073
Obtain first group of each phase capacitor phase current values
Figure A20071002652800074
Effective value, can obtain the capacitance of first group of each phase capacitor: C according to formula C=I/ (2 π fU) AB1=I AB/ (2 π fU AB), C BC1=I BC/ (2 π fU BC), C CA1=I CA/ (2 π fU CA); According to formula Q=2 π fCU n 2Condenser capacity in the time of can obtaining rated voltage, if condenser capacitance value or three phase capacitance difference or condenser capacity surpass permissible value, then Display and Alarm Circuit is reported to the police, CPU control switch circuit, make this group capacitor out of service, as then not reporting to the police in permissible value, the capacitor group is normally moved; Drop into new capacitor group later on again, obtain the total capacitance value of each phase, then equal newly to drop into the capacitance of each phase capacitor of capacitor group before each phase total capacitance value deducts with each the phase capacitance of capacitor group that puts into operation;
The method of the online Detection ﹠ Controling reactive-load compensation capacitor of aforesaid a kind of energy is characterized in that the line current value of CPU according to the capacitor of measuring
Figure A20071002652800081
With
Figure A20071002652800082
Obtain the active loss of first group capacitor: P 1 = U · AB × I · A - U · BC × I · C , Will
Figure A20071002652800084
90 ° of Phase advances
Figure A20071002652800085
The reactive power of first group capacitor then Q 1 = U · AB ′ × I · A - U · BC ′ × I · C , The dielectric loss angle tangent tg δ of first group capacitor 1=P 1/ Q 1If the condenser dielectric loss tangent surpasses permissible value, then Display and Alarm Circuit is reported to the police, and withdraws from this group capacitor operation; As then not reporting to the police in permissible value, the warning light-emitting diode does not work, and the capacitor group is normally moved; Drop into new capacitor group later on again, obtain total active loss and total reactive power, because capacitor is in parallel, the capacitor group active loss that puts into operation before total active loss deducts then equals newly to drop into the active loss of capacitor group; The capacitor group reactive power that puts into operation before total reactive power deducts then equals newly to drop into capacitor group reactive power, thereby can obtain the dielectric loss angle tangent of new input capacitor group, and compares with its permissible value, judges whether warning and out of service;
The method of the online Detection ﹠ Controling reactive-load compensation capacitor of aforesaid a kind of energy, drop into first group capacitor when it is characterized in that beginning, the electric current that records is the first group capacitor triple line electric current, one group of electric current that all deducts before dropping into of later every input, newly dropped into the triple line electric current of capacitor group, and judge that whether triple line current imbalance rate surpasses permissible value, surpasses then warning and out of service.
The idle compensating control of the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy, it is characterized in that comprising the external electric parameter introducing circuit, ac conversion circuit, sampling hold circuit, variable connector, A/D change-over circuit, CPU, memory and Display and Alarm Circuit that links to each other with CPU and the switching circuit that connect in turn, the external electric parameter is introduced circuit and is linked to each other with bus and capacitor.
The invention has the beneficial effects as follows the control that can not only realize reactive power compensation, also can realize following function: (1), can onlinely detect each the group electric capacity each phase capacitance and difference thereof, judge whether in allowed limits it; (2), can onlinely detect the active loss or the dielectric loss angle tangent of each group capacitor.Judge whether in allowed limits it; (3), can onlinely detect each group capacitor triple line electric current and three-phase current difference.Judge whether in allowed limits it.(4), when relatively exceeding permissible value, then send overflow capacitor alarm signal and (also can select to withdraw from its operation and locking) out of service, thereby guarantee compensation effect, reach the purpose of wastage reducing and energy saving by Artificial Control when above-mentioned.Simultaneously can also significantly reduce the workload that regular power failure detects by group, make things convenient for operation maintenance management.
[description of drawings]
Fig. 1 is the method flow diagram of online Detection ﹠ Controling reactive-load compensation capacitor of the present invention;
Fig. 2 is the idle compensating control circuit block diagram of online Detection ﹠ Controling reactive-load compensation capacitor of the present invention;
Fig. 3 is the shunt capacitor schematic diagram of the introducing of idle compensating control external analog electric parameter and the internal circuit module and the wiring of the many groups of control △ shape of online Detection ﹠ Controling reactive-load compensation capacitor of the present invention.
[embodiment]
Describe the present invention below in conjunction with accompanying drawing and embodiment thereof:
As shown in Figure 1 and Figure 2, the method of the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy is introduced circuit (1), ac conversion circuit (2), sampling hold circuit (3), variable connector (3a), A/D change-over circuit (4), CPU (5), memory (6) by the external electric parameter that connects in turn, and Display and Alarm Circuit (7) that links to each other with CPU (5) and the online Detection ﹠ Controling reactive-load compensation capacitor of switching circuit (8) execution, the method includes the steps of:
(a) the external electric parameter is introduced on total line of circuit 1 from the bus to the reactive-load compensation capacitor and is introduced three-phase alternating voltage by fuse FU1, FU2, FU3, introduce a total mutually alternating current from the bus mains side by current transformer D11, introduce reactive-load compensation capacitor two-phase alternating current line current by current transformer D13, D15 on total line from the bus to the reactive-load compensation capacitor, then these higher voltage, electric current are passed to ac conversion circuit 2;
(b) ac conversion circuit 2 becomes lower alternating voltage, electric current to pass to sampling hold circuit 3 alternating voltage higher among the step a, current conversion;
(c) by sampling hold circuit 3 will be lower sampling N time in phase weekly of alternating voltage, electric current, remain in the holding circuit after sampling at every turn, pass to A/D change-over circuit 4 successively by variable connector 3a then;
(d) A/D change-over circuit 4 converts the analog quantity of sampling among the step c to digital value, is entered under the control of CPU5 in the memory 6;
(e) CPU5 is according to being entered into total power factor and every group capacitor working condition and the performance parameter that data computation in the memory 6 goes out mains side;
(f) CPU5 compares power factor and input thresholding, and comparative result is lower than the input thresholding, and then CPU 5 control switch circuit 8 increase throwing one group capacitor; Comparative result is higher than the excision thresholding, and then CPU5 control switch circuit 8 excisions one group capacitor is finished the reactive power compensation controlled function.
(g) capacitor group working condition and performance parameter and operate as normal value or scope given in advance are compared, if comparative result in permissible value, is not then reported to the police; Comparative result is not in permissible value, and CPU5 control Display and Alarm Circuit 7 is reported to the police, at this moment this group capacitor group of CPU5 control switch circuitry cuts.
As shown in Figure 2, the idle compensating control of the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy, comprise the external electric parameter introducing circuit 1, ac conversion circuit 2, sampling hold circuit 3, variable connector 3a, A/D change-over circuit 4, CPU5, memory 6 and Display and Alarm Circuit 7 that links to each other with CPU and the switching circuit 8 that connect in turn, the external electric parameter is introduced circuit 1 and is linked to each other with bus and capacitor group.
Embodiment 1:
As shown in the figure, the external electric parameter is introduced circuit 1 and is included voltage transformer T1, T2, current transformer D11, D12, D13, D14, D15, D16, the input of voltage transformer T1 is connected on bus to compensation capacitors C1, C2 by fuse FU1 ... C NThe A of total line go up mutually, another input is connected on bus to compensation capacitors C1, C2 by fuse FU2 ... C NThe B of total line go up mutually, the output of voltage transformer T1 is connected on the ac conversion circuit, another output head grounding of voltage transformer T1; The input of voltage transformer T2 is connected on bus to compensation capacitors C1, C2 by fuse FU2 ... C NThe B of total line go up mutually, another input is connected on bus to compensation capacitors C1, C2 by fuse FU3 ... C NThe C of total line go up mutually, the output head grounding of voltage transformer T2, another output is connected on the ac conversion circuit;
Voltage transformer T1, T2 can introduce the mains side three-phase alternating voltage on the total line from the bus to the reactive-load compensation capacitor Obtain two alternating voltages Pass to ac conversion circuit then;
Current transformer D11 input is serially connected in bus mains side C and goes up mutually, two outputs of current transformer D11 are connected on two inputs of current transformer D12, two outputs of current transformer D12 link to each other with ac conversion circuit, and current transformer D11 can introduce mains side mutually from bus C and exchange phase current
Figure A20071002652800123
Ac conversion circuit is passed in conversion through current transformer D12;
Current transformer D13 input is serially connected in bus to compensation capacitors C1, C2 ... C NThe A of total line go up mutually, two outputs of current transformer D13 are connected on two inputs of current transformer D14, two outputs of current transformer D14 link to each other with ac conversion circuit, current transformer D13 can introduce capacitor A phase total current
Figure A20071002652800124
Ac conversion circuit is passed in conversion through current transformer D14;
Current transformer D15 input is serially connected in bus to compensation capacitors C1, C2 ... C NThe C of total line go up mutually, two outputs of current transformer D15 are connected on two inputs of current transformer D16, two outputs of current transformer D16 link to each other with ac conversion circuit, current transformer D15 can introduce capacitor C phase total current
Figure A20071002652800125
Ac conversion circuit is passed in conversion through current transformer D16.
Ac conversion circuit can be with two alternating voltages
Figure A20071002652800126
The bus mains side exchanges the C phase current
Figure A20071002652800127
The total alternating current of capacitor Convert lower interchange value to, pass to connected sampling hold circuit 3 then, sampling hold circuit in every power frequency period, sample N time (as N=64), remain in the holding circuit after each sampling, pass to A/D change-over circuit 4 successively by variable connector 3a then, the A/D change-over circuit exchanges aanalogvoltage with two
Figure A20071002652800131
Mains side exchanges the simulation phase current
Figure A20071002652800132
Capacitor top-cross flow field simulation line current
Figure A20071002652800133
Convert the corresponding digital value to, CPU5 handles these digital values then, and CPU5 will
Figure A20071002652800134
The digital value addition after negate obtain
Figure A20071002652800135
Will
Figure A20071002652800136
The digital value addition after negate obtain
Figure A20071002652800137
CPU5 control will then
Figure A20071002652800138
Digital value, be deposited into memory that CPU5 is connected in.CPU5 is connected with the switching circuit 8 that comprises output Extended Capabilities Port, output relay, contactor K1, K2----Kn, contactor K1, K2----Kn are arranged on the lead between three-phase bus and the every group capacitor, and CPU5 can control switch circuit 8 controls the input or the disconnection of each group capacitor.Display and Alarm Circuit 7 also is connected with CPU5, and Display and Alarm Circuit 7 comprises display screen and light-emitting diode, and display screen can show the working condition and the performance parameter of capacitor, and light-emitting diode can be reported to the police to working condition and the unusual capacitor of performance parameter.
CPU5 can call these values and carry out following operation, calculates the working condition and the performance parameter of online detection reactive-load compensation capacitor:
(1) reactive power compensation control: CPU5 power taking from memory 6 is pressed
Figure A20071002652800139
Digital value and mains side phase current
Figure A200710026528001310
Digital value, calculate power factor and set point relatively, be lower than drop into thresholding then CPU5 control switch circuit 8 increase and throw a group capacitor, be higher than then CPU5 control switch circuit 8 excisions one group capacitor of excision thresholding, thereby realize the automatic switching function of shunt capacitor, also have other as functions such as overvoltage protections, these all are the functions that existing idle compensating control has;
(2) online capacity when detecting each group each phase capacitance of electric capacity or rated voltage: establish beginning and only throw first group capacitor, CPU5 is according to the capacitor group line current value that records
Figure A20071002652800141
With the characteristics of capacitor group △ shape wiring, can obtain first group of each phase capacitor phase current values
Figure A20071002652800143
Effective value, can obtain the capacitance of first group of each phase capacitor: C according to formula C=I/ (2 π fU) AB1=I AB/ (2 π fU AB), C BC1=I BC/ (2 π fU BC), C CA1=I CA/ (2 π fU CA).If descending than rated value, the condenser capacitance value surpasses permissible value (as 5%) above permissible value (as 10%) or three phase capacitance difference, then Display and Alarm Circuit 7 is reported to the police, the light-emitting diode flash corresponding in the Display and Alarm Circuit 7 with first group capacitor, CPU5 control switch circuit 8 makes this group capacitor (also can select to be withdrawed from and locking by Artificial Control) out of service.As then not reporting to the police in permissible value, the warning light-emitting diode does not work, and the capacitor group is normally moved.Drop into new capacitor group later on again, in like manner can obtain the total capacitance value of each phase, because each phase capacitor is in parallel, an optional phase deducts the capacitance that the capacitor group AB phase capacitance that puts into operation in the past then equals newly to drop into capacitor group AB phase capacitor as AB phase total capacitance value.In like manner can obtain the capacitance and the three phase capacitance difference of new other phase capacitors of input capacitor group.And with its permissible value relatively, judge whether to report to the police and out of service.By that analogy, every input is once all carried out one-time detection, calculating and comparison, realize capacitance online detection, report to the police and withdraw from the function of the capacitor group operation that overflows.
Above-mentioned each phase capacitor C of having obtained is according to formula Q=2 π fCU n 2Condenser capacity in the time of can obtaining rated voltage.Condenser capacity when setting rated voltage changes permissible value, the online detection of condenser capacity in the time of can realizing rated voltage equally and three-phase difference, reports to the police and withdraws from the function of the capacitor group operation that overflows.
(3) online each group capacitor dielectric loss angle tangent that detects: establish beginning and only throw first group capacitor, CPU5 is according to the line current value of the capacitor of measuring
Figure A20071002652800151
With
Figure A20071002652800152
Can obtain the active loss of first group capacitor: P 1 = U · AB × I · A - U · BC × I · C , Will
Figure A20071002652800154
90 ° of Phase advances
Figure A20071002652800155
The reactive power of first group capacitor then Q 1 = U · AB ′ × I · A - U · BC ′ × I · C , The dielectric loss angle tangent tg δ of first group capacitor 1=P 1/ Q 1If the condenser dielectric loss tangent surpasses permissible value (as 0.3%), then the light-emitting diode corresponding with first group capacitor in the Display and Alarm Circuit 7 is glittering, and withdraws from this group capacitor operation (same optional by manually withdrawing from and locking).As then not reporting to the police in permissible value, the warning light-emitting diode does not work, and the capacitor group is normally moved.Drop into new capacitor group later on again, in like manner can obtain total active loss and total reactive power, because capacitor is in parallel, the capacitor group active loss that puts into operation before total active loss deducts then equals newly to drop into the active loss of capacitor group.The capacitor group reactive power that puts into operation before total reactive power deducts then equals newly to drop into capacitor group reactive power.Thereby can obtain the dielectric loss angle tangent of new input capacitor group.And with its permissible value relatively, judge whether to report to the police and out of service.By that analogy, every input is once all carried out one-time detection, calculating and comparison, realizes the online detection of the dielectric loss angle tangent of capacitor, reports to the police, withdraws from the capacitor group operation function that overflows.
Obtained the active loss of capacitor group in the above-mentioned analysis, so, also can set the permissible value of active loss, judge that the capacitor group is whether out of service and send warning.
(4) each group capacitor triple line electric current of online detection: and above-mentioned similar, drop into first group capacitor when supposing beginning, the electric current that records is the first group capacitor triple line electric current, one group of electric current that all deducts before dropping into of later every input, newly dropped into the triple line electric current of capacitor group, and judge that whether triple line current imbalance rate surpasses permissible value (as 5%), surpasses then warning and out of service.
(5) demonstration of power factor after detection limit and the compensation: above-mentioned detect capacitance, rated voltage the time condenser capacity, capacitor the active loss, capacitor triple line electric current etc. of dielectric loss angle tangent, capacitor group can show by taking turns apparent mode.Power factor is normal demonstration.The switching state of capacitor group and warning diode displaying.
Above-mentioned is example introduction to detect control △ shape wiring capacitance device group.If the capacitor group is the capacitor group of Y connection isolated neutral, then be considered as the wiring of △ shape earlier, obtain capacitance after, again according to Y-△ transformation for mula, obtain every phase condenser capacitance value of Y connection reality.If the capacitor group of Y connection neutral ground, then each can be considered the single-phase electricity container mutually, three-phase line voltage detects and changes the phase voltage detection into, need not Y-△ conversion, directly calculate according to the three-phase phase voltage that records and line current and just can get above-mentioned similar numerical value, and judge, warning and control out of service.Because this mode can not directly record line voltage
Figure A20071002652800161
Then by each sampling
Figure A20071002652800162
Subtract
Figure A20071002652800163
Obtain
Figure A20071002652800164
Idle compensating control of the present invention can also include 485 communication interfaces, keyboard, 485 communication interfaces, keyboard are connected with CPU5, the communication equipment that 485 communication interfaces can insert peripheral hardware carries out to the external world or CPU 5 two-way communications, and keyboard can be to some information of CPU 5 typings (as setup parameter or permissible value etc.).

Claims (6)

1. the method for the online Detection ﹠ Controling reactive-load compensation capacitor of energy, this method is introduced circuit (1), ac conversion circuit (2), sampling hold circuit (3), variable connector (3a), A/D change-over circuit (4), CPU (5), memory (6) by the external electric parameter that connects in turn, and Display and Alarm Circuit (7) that links to each other with CPU (5) and the online Detection ﹠ Controling reactive-load compensation capacitor of switching circuit (8) execution, it is characterized in that the method includes the steps of:
(a) the external electric parameter is introduced the AC line electric current that circuit (1) is introduced mains side alternating voltage and alternating current and reactive-load compensation capacitor side, then these higher voltage, electric current is passed to ac conversion circuit (2);
(b) ac conversion circuit (2) becomes lower alternating voltage, electric current to pass to sampling hold circuit (3) alternating voltage higher in the step (a), current conversion;
(c) by sampling hold circuit (3) will be lower sampling N time in phase weekly of alternating voltage, electric current, remain in the holding circuit after sampling at every turn, pass to A/D change-over circuit (4) successively by variable connector (3a) then;
(d) A/D change-over circuit (4) converts the analog quantity of sampling in the step (c) to digital value, is entered under the control of CPU (5) in the memory (6);
(e) CPU (5) is according to being entered into total power factor and every group capacitor working condition and the performance parameter that data computation in the memory (6) goes out mains side;
(f) CPU (5) compares power factor and input thresholding, and comparative result is lower than the input thresholding, and then CPU (5) control switch circuit (8) increases throwing one group capacitor; Comparative result is higher than the excision thresholding, and then CPU (5) control switch circuit (8) excision one group capacitor is finished the reactive power compensation controlled function;
(g) capacitor group working condition and performance parameter and operate as normal value or scope given in advance are compared, if comparative result in permissible value, is not then reported to the police; Comparative result is not in permissible value, and CPU (5) control Display and Alarm Circuit (7) is reported to the police, at this moment this group capacitor group of CPU (5) control switch circuitry cuts.
2. the method for the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy according to claim 1 is characterized in that CPU (5) power taking pressure from memory (6)
Figure A2007100265280003C1
Digital value and mains side one phase current
Figure A2007100265280003C2
Digital value calculates power factor and set point relatively, be lower than drop into thresholding then CPU (5) control switch circuit (8) increase and throw a group capacitor, be higher than then CPU (5) control switch circuit (8) excision one group capacitor of excision thresholding.
3. the method for the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy according to claim 1 is characterized in that CPU (5) is according to the capacitor group line current value that records
Figure A2007100265280003C3
Obtain first group of each phase capacitor phase current values Effective value, can obtain the capacitance of first group of each phase capacitor: C according to formula C=I/ (2 π fU) AB1=I AB/ (2 π fU AB), C BC1=I BC/ (2 π fU BC), C CA1=I CA/ (2 π fU CA); According to formula Q=2 π fCU n 2Condenser capacity in the time of can obtaining rated voltage, if condenser capacitance value or three phase capacitance difference or condenser capacity surpass permissible value, then Display and Alarm Circuit (7) is reported to the police, CPU (5) control switch circuit (8), make this group capacitor out of service, as then not reporting to the police in permissible value, the capacitor group is normally moved; Drop into new capacitor group later on again, obtain the total capacitance value of each phase, then equal newly to drop into the capacitance of each phase capacitor of capacitor group before each phase total capacitance value deducts with each the phase capacitance of capacitor group that puts into operation.
4. the method for the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy according to claim 1 is characterized in that the line current value of CPU (5) according to the capacitor of measuring With
Figure A2007100265280004C1
Obtain the active loss of first group capacitor: P 1 = U · AB × I · A - U · BC × I · C , Will 90 ° of Phase advances
Figure A2007100265280004C4
The reactive power of first group capacitor then Q 1 = U · AB ′ × I · A - U · BC ′ × I · c , The dielectric loss angle tangent tg δ of first group capacitor 1=P 1/ Q 1If the condenser dielectric loss tangent surpasses permissible value, then Display and Alarm Circuit (7) is reported to the police, and withdraws from this group capacitor operation; As then not reporting to the police in permissible value, the capacitor group is normally moved; Drop into new capacitor group later on again, obtain total active loss and total reactive power, because capacitor is in parallel, the capacitor group active loss that puts into operation before total active loss deducts then equals newly to drop into the active loss of capacitor group; The capacitor group reactive power that puts into operation before total reactive power deducts then equals newly to drop into capacitor group reactive power, thereby can obtain the dielectric loss angle tangent of new input capacitor group, and compares with its permissible value, judges whether warning and out of service.
5. the method for the online Detection ﹠ Controling reactive-load compensation capacitor of a kind of energy according to claim 1, drop into first group capacitor when it is characterized in that beginning, the electric current that records is the first group capacitor triple line electric current, one group of electric current that all deducts before dropping into of later every input, newly dropped into the triple line electric current of capacitor group, and judge that whether triple line current imbalance rate surpasses permissible value, surpasses then warning and out of service.
6. the idle compensating control of the online Detection ﹠ Controling reactive-load compensation capacitor of energy, it is characterized in that comprising the external electric parameter introducing circuit (1), ac conversion circuit (2), sampling hold circuit (3), variable connector (3a), A/D change-over circuit (4), CPU (5), memory (6) and Display and Alarm Circuit (7) that links to each other with CPU and the switching circuit (8) that connect in turn, the external electric parameter is introduced circuit (1) and is linked to each other with bus and capacitor group.
CNA2007100265286A 2007-01-26 2007-01-26 Method for controlling reactive-load compensation capacitor and capable of on-line detecting and reactive-load compensation controller thereof Pending CN101232188A (en)

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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101872980A (en) * 2010-06-08 2010-10-27 陈劲游 Method for controlling low-voltage side reactive compensation equipment according to transformer high-voltage side reactive compensation control quantity
CN102130443A (en) * 2011-03-07 2011-07-20 郑州鼎慧中贝机电设备有限公司 Dynamic self-adaptive protection device of power capacitor and control method
CN102157947A (en) * 2010-12-10 2011-08-17 广东电网公司佛山供电局 Application of capacitor integrated online monitoring technology in high-voltage reactive power compensation device
CN102175925A (en) * 2011-03-21 2011-09-07 江苏省电力公司无锡供电公司 Measuring device for measuring capacitance in parallel capacitor bank
CN102738773A (en) * 2012-06-06 2012-10-17 河南省电力公司信阳供电公司 Adaptive capacitor bank protection device
CN102957154A (en) * 2012-11-05 2013-03-06 如皋市图腾电力科技有限公司 Low-voltage reactive compensation control method
CN103401254A (en) * 2013-08-16 2013-11-20 四川九成信息技术有限公司 Monitoring device of automatic reactive compensation system for high-low voltage power distribution network
CN103414200A (en) * 2013-08-16 2013-11-27 四川九成信息技术有限公司 Method for monitoring and controlling automatic reactive power compensation system of high-low voltage power distribution network
CN103545821A (en) * 2013-10-12 2014-01-29 国家电网公司 Low-voltage reactive power compensation controller
CN107112756A (en) * 2014-11-19 2017-08-29 马蒂厄·佩谢 Method for Optimal Reactive Power energy expenditure
CN109687384A (en) * 2018-12-29 2019-04-26 苏州路之遥科技股份有限公司 A kind of high-power excision protection and repositioning method based on calculating reactive power
CN110208606A (en) * 2019-06-03 2019-09-06 河北旭辉电气股份有限公司 A kind of on-line monitoring method of SVG device DC support capacitance fade situation
CN111244970A (en) * 2020-02-28 2020-06-05 广东华利源电气设备有限公司 Reactive compensation control device and control method thereof

Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101872980A (en) * 2010-06-08 2010-10-27 陈劲游 Method for controlling low-voltage side reactive compensation equipment according to transformer high-voltage side reactive compensation control quantity
CN102157947A (en) * 2010-12-10 2011-08-17 广东电网公司佛山供电局 Application of capacitor integrated online monitoring technology in high-voltage reactive power compensation device
CN102130443A (en) * 2011-03-07 2011-07-20 郑州鼎慧中贝机电设备有限公司 Dynamic self-adaptive protection device of power capacitor and control method
CN102130443B (en) * 2011-03-07 2014-08-20 沈阳鼎盛中贝机电设备有限公司 Dynamic self-adaptive protection device of power capacitor and control method
CN102175925A (en) * 2011-03-21 2011-09-07 江苏省电力公司无锡供电公司 Measuring device for measuring capacitance in parallel capacitor bank
CN102738773A (en) * 2012-06-06 2012-10-17 河南省电力公司信阳供电公司 Adaptive capacitor bank protection device
CN102957154A (en) * 2012-11-05 2013-03-06 如皋市图腾电力科技有限公司 Low-voltage reactive compensation control method
CN103401254B (en) * 2013-08-16 2015-03-11 四川晨龙航天电器设备有限公司 Monitoring device of automatic reactive compensation system for high-low voltage power distribution network
CN103401254A (en) * 2013-08-16 2013-11-20 四川九成信息技术有限公司 Monitoring device of automatic reactive compensation system for high-low voltage power distribution network
CN103414200A (en) * 2013-08-16 2013-11-27 四川九成信息技术有限公司 Method for monitoring and controlling automatic reactive power compensation system of high-low voltage power distribution network
CN103414200B (en) * 2013-08-16 2014-10-08 四川晨龙航天电器设备有限公司 Method for monitoring and controlling automatic reactive power compensation system of high-low voltage power distribution network
CN103545821A (en) * 2013-10-12 2014-01-29 国家电网公司 Low-voltage reactive power compensation controller
CN107112756A (en) * 2014-11-19 2017-08-29 马蒂厄·佩谢 Method for Optimal Reactive Power energy expenditure
CN109687384A (en) * 2018-12-29 2019-04-26 苏州路之遥科技股份有限公司 A kind of high-power excision protection and repositioning method based on calculating reactive power
CN110208606A (en) * 2019-06-03 2019-09-06 河北旭辉电气股份有限公司 A kind of on-line monitoring method of SVG device DC support capacitance fade situation
CN110208606B (en) * 2019-06-03 2021-03-19 河北旭辉电气股份有限公司 Online monitoring method for attenuation condition of direct-current support capacitor of SVG device
CN111244970A (en) * 2020-02-28 2020-06-05 广东华利源电气设备有限公司 Reactive compensation control device and control method thereof

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