JP2001275256A - Linkage system equipment of microturbine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that a higher harmonic current, a reverse phase current, etc., are generated when a microturbine is linked with a commercial power source of low voltage, and output of the mictoturbine can not sufficiently led out. SOLUTION: A two-way converter is connected with a power distribution line. The respective functions of higher harmonic current compensation, reactive current compensation, reverse phase current compensation and energy discharge are imparted to the converter.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system linkage for linking a microturbine to a power system.

[0002]

2. Description of the Related Art A microturbine, which is positioned as one of distributed power sources, is effective in environmental measures because a generator unit and a turbine unit are integrally formed in a small size, and is also effective in equipment cost and installation cost. In recent years, attention has been paid to the low power generation cost and the possibility of installation and power generation in a short period of time.

[0003]

The capacity called a microturbine has a certain capacity range. Among them, considering the case where it is used by a low power consumer of about 50 kW or less, the low power As for the load on the consumer, the load ratio of a single-phase load such as a lighting and a cash dispenser has been increased.

On the other hand, a microturbine has a three-phase output, and when only a single-phase load is targeted, a load of 1 / √3 of the microturbine output can be taken at the maximum.
That is, the ability (output) of the microturbine cannot be effectively extracted. In addition, since a CPU product is also included as a load, such as an automatic cash dispenser, it is assumed that the load includes harmonic current, so the output of the microturbine is derated according to the harmonic current. Must be used.

Furthermore, since three-phase and single-phase loads coexist, load imbalance occurs in the distribution line. When load imbalance occurs, negative-phase current flows through the rotor of the generator, which becomes an extra current in the generator and overheats when trying to obtain the rated output, making it impossible to use the generator effectively. And the like.

SUMMARY OF THE INVENTION An object of the present invention is to install a microturbine in a low-power consumer, fully exploit the ability of the microturbine when linked to a commercial power system, and to supply high-quality power to a load. An object of the present invention is to provide a system linkage device.

[0007]

SUMMARY OF THE INVENTION The present invention relates to a system linking device for system-linking a low-voltage commercial power supply and a microturbine through a circuit breaker and a switch, and supplying power to a load through a distribution line. An energy storage device connected to the distribution line for storing energy, a function of converting the energy stored in the energy storage device into an alternating current and outputting the alternating current to a distribution line, and for canceling a harmonic current of the distribution line. It has a harmonic current compensating function, a reactive power compensating function, and a negative phase current compensating function for outputting a current of the same, and grasps the state of the bidirectional converter connected to the distribution line, the micro turbine, and the commercial power supply. A power conditioner comprising the bidirectional converter and a control circuit for generating a control command to the switch, wherein the power conditioner is the system linking device. A.

Further, the present invention is configured such that the power conditioner is housed integrally in a housing.

[0009]

FIG. 1 shows an embodiment of the present invention. For example, three-phase 200 V commercial low-voltage power is received via a breaker MCCB-1 and is supplied from a contactor MC and a semiconductor. Through a high-speed switch SW. As the load, a three-phase 200V, a single-phase 200V, or a single-phase 100V is connected. MT is a microturbine installed in a low-power consumer, for example, one having an output of about 10 kW is used. Micro turbine M
The output of T is 480 V / 200 in the autotransformer T.
The voltage is reduced to V, and linked to the commercial side through the breaker MCCB-2. OCRy is an overcurrent relay that detects that an abnormality has occurred on the commercial side and that an overcurrent has flowed from the micro turbine MT, and shuts off the high-speed switch SW and the contactor MC. And MCCB-3 are circuit breakers for forming a maintenance bypass circuit. 1 is a control circuit, 2 is a bidirectional converter, 3 is an energy storage device,
And a portion surrounded by a broken line including the breaker MCCB-1 and the like constitutes a power conditioner PC of the present invention which is a system linking device.

Control circuit 1 for power conditioner PC
Is a comprehensive sequence control device for grasping the state (operation, failure) of the equipment in the PC and the micro turbine MT, supplying stable power to the load, and ensuring a safe connection state on the commercial side. It has a man-machine interface function. Further, the control circuit 1 has a function of detecting the isolated operation of the micro turbine MT, compares the voltage on the commercial system side with the voltage on the micro turbine MT side, and determines a phase angle difference that cannot be obtained at the time of cooperation. The high speed switch SW and the contactor MC are cut off by detecting that the operation has been stopped. After the commercial power recovery, the contactor MC and the high-speed switch SW are turned on again after the synchronization with the micro turbine MT is confirmed.

As the bidirectional converter 2, a known active filter or the like is used. This converter 2 has functions of harmonic current compensation, reactive power compensation, negative phase current compensation, and charging and discharging of the energy storage device. The discharge function of the energy storage device operates when both the commercial and microturbine power sources are lost, but the other functions are linked when the commercial and microturbines are linked, when only commercial power is supplied, and when only the microturbine is supplied. It operates in both cases.
At the time of charging, a rectifier and a switch are used without using the above-described active filter itself.

When the bidirectional converter 2 operates as a harmonic current compensation function, a harmonic current flowing to the load side is detected, and a current value having a polarity opposite to that of the current and substantially the same is supplied to the bidirectional converter. Then, the harmonic current is equivalently canceled by outputting to the distribution line, and the current on the power supply side is made into a sine wave.

When the bidirectional converter 2 operates as a reactive power compensation function, for example, when a fundamental wave current having a phase difference of 90 degrees from the power supply voltage is superimposed on the output current of the converter 2, the phase difference of the power supply current is reduced. Therefore, the same effect as when the reactive power is controlled is obtained. Therefore, if the power factor is controlled to 1 or a reverse power flow occurs in the system, the power factor can be appropriately controlled to suppress a voltage increase in each section of the low-voltage distribution line.

When the bidirectional converter 2 operates as a negative-phase current compensation function, a three-phase current of the distribution line is detected, and an unbalanced load occurs with respect to the positive-phase vector when the three-phase current is balanced. The output of the converter 2 is adjusted by detecting that the current has become unbalanced and has become a negative-phase vector, so that the current associated with the negative phase is controlled so as not to flow to the micro turbine MT.

The energy storage device charging function can charge the storage device 3 at any time if the power is not lost. However, more advantageous effects can be obtained by receiving cheap nighttime power and converting AC to DC to charge. .

When the load power supply is lost, the control circuit 1 immediately instructs the bidirectional converter 2 to perform an inverter operation.
The DC stored in the AC is converted to AC and power supply to the load is started. In this case, although there is an instantaneous interruption of half a cycle or less when viewed from the load side, power supply can be continued without a power failure. FIG. 2 shows that the above-described power conditioner PC has its components housed integrally in a housing.
This shows a case where this is used as a system linking device between commercial and microturbine MTs. By using a power conditioner PC, a three-phase 200V, a single-phase 20V can be used.
It is possible to cope with a load of 0 V and a single-phase 100 V. That is, power can be supplied to the lamp load only by receiving the three-phase low-voltage power.

FIG. 3 shows a case where the microturbine MT is linked to a commercial low-voltage power side and a lamp side via power supply switches 5 and 6, respectively. It is connected via the switch 6. In this case, the output of the microturbine can be effectively extracted by performing the compensation control of the negative phase current.

[0018]

As described above, according to the present invention, a bidirectional converter is connected to a distribution line, and a harmonic current compensation function, a reactive power compensation function, a negative phase current compensation function, and an energy storage device are connected to the converter. Since it is configured to have a charging / discharging function, power can be supplied to the lamp only by receiving low voltage power, and even if there is a harmonic current load (rectifier load), the harmonic current does not flow to the commercial . In addition, since power can be operated at a power factor of 1, electricity costs can be saved. In addition, even when power is lost in both commercial and micro turbines, the power conditioner has an energy storage device so that power can be supplied to the load without power outage. Supply is possible.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a connection diagram showing a system linkage state of the present invention.

FIG. 3 is another connection diagram showing a system linkage state of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Control circuit 2 ... Bidirectional converter 3 ... Energy storage device PC ... Power conditioner MCCB ... Circuit breaker MT ... Micro turbine

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Isamu Inoue 2-1-1-17 Osaki, Shinagawa-ku, Tokyo Inside the Meidensha Co., Ltd. (72) Inventor Toshio Yoshida 2-1-1-17 Osaki, Shinagawa-ku, Tokyo Stock Association Inside the company Meidensha (72) Inventor Katsumasa Yamaguchi 2-1-1-17 Osaki, Shinagawa-ku, Tokyo Co., Ltd. F term (reference) 5G066 EA03 FA01 FB11 HB02 JA05 JB03

Claims (2)

[Claims] 1. A system linking device for linking a low-voltage commercial power supply and a microturbine via a circuit breaker and a switch, and for supplying power to a load via a distribution line, wherein the system is connected to the distribution line. An energy storage device for storing energy, a function of converting the energy stored in the energy storage device into an alternating current and outputting the alternating current to a distribution line, a harmonic current for outputting a current for canceling a harmonic current of the distribution line A compensating function, a reactive power compensating function, and a negative-phase current compensating function. The bidirectional converter connected to the distribution line, the state of the microturbine and the commercial power supply are grasped, and the bidirectional converter and the A microcontroller comprising a power conditioner including a control circuit for generating a control command to a switch, and using the power conditioner as the system linking device. System interconnection device. 2. The system linking device for a microturbine according to claim 1, wherein said power conditioner is housed integrally in a housing.