JP2002354666A - Device to interconnect power generating equipment to distribution line - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device to interconnect power generating equipment to a distribution line, which is no need to install a system protection relay device, which is conventionally needed when interconnecting the power generating equipment to the distribution line. SOLUTION: The device to interconnect the power generating equipment to the distribution line comprises an AC/DC power conversion part 12 which converts AC power sent from an AC distribution line 10 of a system but cannot make it reverse (irreversible type), a DC bus bar 14 which transmits the DC power of the output of the AC/DC power conversion part 12, a DC power supply apparatus 16 which supplies the DC power to the DC bus bar 14, an DC/AC power conversion part 18 which converts the DC power transmitted by the DC bus bar 14, and an AC bus bar 20 which transmits the AC power converted by the DC/AC power conversion part 18; and makes it possible to supply each power to each load by connecting DC loads 22, 22, ..., to the DC bus bar 14, and AC loads 24, 24, ..., to the AC bus bar 20, respectively.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for interconnecting a power generation facility with a distribution line.

[0002]

2. Description of the Related Art There is a technique for system-linking power generation equipment to distribution lines. In the prior art, as shown in FIG. 3, a transformer b is connected to a distribution line a connected to a system, thereby supplying AC power stepped down to each load L via a demand side distribution line c. AC power is supplied to the side distribution line c from a generator (a diesel AC generator d1 or a turbine generator d2 using an inverter e for frequency conversion) so as to be interconnected with the system by AC. In this case, the power generated by the generators d1 and d2 can be transmitted to both the load L and the system.

In the case of the above-described system interconnection, the generator on the demand side generates AC power at a frequency of 50 Hz or 60 Hz, and adds a system protection relay device necessary for protection of the distribution line, and connects the system with AC. Was. In other words, according to the grid interconnection guidelines compiled by the Agency for Natural Resources and Energy of the Ministry of Economy, Trade and Industry, in order to connect to the grid, protection in the event of abnormalities in power generation voltage, short-circuit protection, system ground fault protection, isolated operation prevention, automatic load control and power generation It was mandatory to install a system protection relay device for suppression, line no-voltage confirmation device, constant voltage fluctuation countermeasures and short-circuit capacity countermeasures.

[0004]

However, the system protection relay device required in the prior art has a complicated and expensive structure, and its installation cost is high. In addition, the system protection relay device described above requires technical consultation with a power company for its settling, so that it takes considerable time and effort to realize system interconnection and requires specialized knowledge. Therefore, it was impossible for ordinary people to deal with it.

The present invention has been made in view of the above-mentioned problems of the prior art, and when a power generation facility is interconnected to a distribution line, installation of a system protection relay device, which has been conventionally required, can be eliminated. An object of the present invention is to provide a device for system-linking a power generation facility to a distribution line.

[0006]

The present invention has the following configuration to achieve the above object. The present invention provides an AC / DC power conversion unit that converts AC power of an AC distribution line into DC power and cannot perform the reverse conversion (non-reversible type), a DC bus transmitting DC power output from the AC / DC power conversion unit, DC power supply equipment for supplying DC power to a DC bus, a quadrature power converter for converting DC power transmitted by the DC bus into AC power, and an AC bus for transmitting AC power converted by the quadrature power converter A DC load to the DC bus, and an AC load to the AC bus, each of which is capable of supplying each power to each load by connecting an AC load to a power distribution system. is there. In the present invention,
The AC / DC power conversion unit includes a semiconductor power control element (diode,
It is preferable to use a static power converter using a power transistor, a thyristor, or the like). It is preferable that the DC power supply equipment includes an AC generator and an AC / DC converter that converts AC power generated by the AC generator into DC power. Further, it is preferable that another AC power generation equipment is installed so that AC power can be supplied to the AC bus.

According to the present invention having the above structure, an AC power line is connected to an AC / DC power conversion unit which converts AC power to DC power and cannot perform the reverse conversion (non-reversible type), and connects the AC power supply to a DC power supply. Since power is supplied to the DC bus, and DC power is supplied to the DC bus from the DC power supply equipment, and AC load power is supplied from the DC bus via the orthogonal transform unit, the DC and / or AC load is supplied. When the load device is heavy, the power energy obtained by combining the DC-converted power from the AC distribution line and the power generated by the DC power supply equipment can flow to the load device, and can sufficiently cover the load. it can. On the other hand, when the load is light and can be covered only by the supply power of the DC power supply facility, even if power flows from the DC power supply facility to the distribution line, the flow is blocked by the AC / DC power conversion unit. It is possible to prevent the output electric energy from flowing in the direction of the distribution line. Therefore, according to the Ministry of Economy, Trade and Industry's Agency for Natural Resources and Energy's grid connection guidelines,
Installation of system protection relay devices for protection against abnormal power generation voltage, system short-circuit protection, system ground fault protection, prevention of isolated operation, automatic load control and power generation suppression, line no-voltage check device, constant voltage fluctuation countermeasures and short-circuit capacity countermeasures All of them become unnecessary, and the cost of these system protection relay devices can be reduced. In addition, since technical consultation with the electric power company regarding the grid protection relay and its setting, which was required in the past, is no longer necessary, the time and labor required to achieve grid interconnection can be saved. In other words, there is no need for specialized knowledge, so there is a possibility that it can be realized by ordinary people.

In the present invention, it is preferable that the AC / DC power converter uses a static power converter using a semiconductor power control element (diode, power transistor, thyristor, etc.). The AC / DC power conversion can be performed at high speed and without noise by using the element without the need for contact points or moving parts, so maintenance can be performed easily and at low cost, and even in places where soundproofing is not required and installation conditions are severe. Easy to introduce. In the present invention, if the DC power supply equipment includes an AC generator and an AC / DC converter that converts AC power generated by the AC power supply into DC power, the power generation capacity of the DC power generation equipment is limited. However, the load equipment can be increased on the AC side. Further, another AC power generation equipment can be provided so that AC power can be supplied to the AC bus. In this way, even if the power generation capacity of the DC power generation equipment reaches its limit, it is possible to increase the load equipment on the AC side.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory diagram of a device for system-linking a power generation facility according to an embodiment of the present invention to a distribution line, and FIG. 2 is an explanatory diagram of a specific configuration example.

In this embodiment, an AC / DC power conversion unit (AC / DC) that converts AC power transmitted from a system AC distribution line 10 into DC power and cannot perform the reverse conversion (irreversible type).
Converter: a converter) 12 and the AC / DC power converter 12
A DC bus 14 for transmitting output DC power, a DC power supply facility 16 for supplying DC power to the DC bus 14,
A quadrature power converter (DC / AC inverter) 18 for converting DC power transmitted by the DC bus 14 into AC power, and an AC bus 20 for transmitting AC power converted by the quadrature power converter 18 Are connected to the DC bus 14 and the AC loads 24 are connected to the AC bus 20 so that each power can be supplied to each load. It is a device to be related.

A stationary power converter using a semiconductor power control element (diode, power transistor, thyristor, etc.) is used for the AC / DC converter and the DC / AC converter including the AC / DC power converter. Can be. For example, the AC / DC power conversion unit 12 can be configured as a converter including a six-arm thyristor conversion element that converts three-phase AC to single-phase DC. In addition, the orthogonal power converter 18 can be configured as an inverter composed of 6-arm power transistors.

The DC power supply equipment 16 includes an AC generator 16b driven by a prime mover 16a such as a gas turbine and a converter 16c for converting AC power generated by the generator 16b into DC power. In addition, the DC power supply equipment 16 can also use a DC generator. The converter 16c includes a DC-DC converter 16c2 that performs control such as reducing a DC voltage, in addition to a converter 16c1 that converts AC to DC. Further, another AC power generation equipment 26 can be installed so that AC power can be supplied to the AC bus 20.

In the embodiment having the above configuration, an AC / DC power conversion unit 12 that converts AC power into DC power and does not perform the reverse conversion is provided on a distribution line, and the distribution line power is sent to a load.
When the power generation equipment connected to the grid is a DC generator, the power generation equipment that outputs AC power can be used as it is for the DC bus 14, but the DC power supply equipment 1 shown in FIGS.
As shown in FIG. 6, a converter (converter 16c) for converting output power from AC to DC is attached to convert the AC power output from the AC generator 16b into DC power.

When a DC load 22 (load device) for system interconnection is connected to the DC output side of the AC / DC power converter 12 attached to the distribution line 10, the distribution line 1 is connected to the load 22.
It is possible to flow DC electric energy in which the power flowing from zero and the power generated by the DC power supply facility 16 (including the AC generator 16b and the converter 16c) are combined. Further, the AC / DC power converter 12 attached to the distribution line 10
DC power obtained by converting the AC power of the distribution line 10 by
An orthogonal power converter 18 for converting the DC power combined with the DC output power of the DC power supply equipment into AC power is installed, and the AC bus 2 on the AC power output side of the orthogonal power converter is provided.
By connecting the AC power load 24 to the AC power load 0, the power flowing from the distribution line 10 and the power output from the DC power supply facility 16 (the power generated by the generator 16b) are combined in the AC power load 24. The supplied AC electric energy can flow. In the DC bus 14, as shown in FIG. 2, when the DC load 22 supplies power to a load different from the voltage of the bus 14 (for example, when the DC bus 14 supplies a high voltage to a low-voltage load). Then, power can be supplied to the load 22 by voltage conversion by the DC-DC converter 28. Further, an AC power generation facility 26 can be connected to the AC bus 20 between the orthogonal power converter 12 and the AC load 24 so that AC power is supplied to the AC load 24 together.

According to the above embodiment, the electric energy output from the DC power supply facility 16 is combined with the electric energy flowing from the distribution line 10 and can be supplied to a load (AC load and / or DC load). It is possible to obtain the same gain as that of the conventional system interconnection.

Also, an AC / DC power conversion unit that converts AC power to DC power and cannot perform the reverse conversion (irreversible type) is connected to the distribution line, and the DC power is supplied from the power conversion unit to the DC bus. Since DC power is supplied to the DC bus from the DC power supply equipment and AC load power is supplied from the DC bus via the orthogonal transform unit, when the load device of the DC and / or AC load is heavy, the AC power is supplied to the DC bus. The power energy obtained by combining the DC-converted power from the electric wire and the power generated by the DC power supply equipment can flow to the load device, and can sufficiently cover the load. On the other hand, when the load is light and can be covered only by the power supplied from the DC power supply equipment, the power flow from the DC power supply equipment to the distribution line is blocked by the AC / DC power conversion unit, so that the electric energy output from the power generation equipment is distributed. It is possible to eliminate the flow in the direction of the electric wire (reverse power flow). Therefore, in the past, according to the grid interconnection guidelines of the Ministry of Economy, Trade and Industry's Agency for Natural Resources and Energy, the system was required to connect to the grid. It is not necessary to install a system protection relay device for automatic load control / power generation suppression, line no-voltage confirmation device, constant voltage fluctuation countermeasures and short-circuit capacity countermeasures, and the cost of these system protection relay devices can be reduced. In addition, since technical consultation with the electric power company regarding the grid protection relay and its setting, which was required in the past, is no longer necessary, the time and labor required to achieve grid interconnection can be saved. In other words, there is no need for specialized knowledge, so there is a possibility that it can be realized by ordinary people.

The AC / DC power converter 12 preferably uses a static power converter using semiconductor power control elements (diodes, power transistors, thyristors, etc.). Since the AC / DC power conversion can be performed at high speed without generating any noise and no noise is required, maintenance can be performed easily and at low cost. In addition, since no soundproofing measures are required and the installation conditions are not strict, the introduction is easy.

If the DC power supply equipment 16 is composed of an AC generator and an AC / DC converter for converting the AC power generated by the generator into DC power, the power generation capacity of the DC power generation equipment is limited. However, the load equipment can be increased on the AC side. Further, another AC power generation equipment can be provided so that AC power can be supplied to the AC bus. In this way, even if the power generation capacity of the DC power generation equipment reaches its limit, it is possible to increase the load equipment on the AC side.

[0019]

As described above, according to the present invention, when a power generation facility is interconnected to a distribution line, it is not necessary to install a system protection relay device which has been conventionally required. Therefore, the cost of these system protection relay devices can be reduced. In addition, since technical consultation with the electric power company regarding the grid protection relay and its setting, which was required in the past, is no longer necessary, the time and labor required to achieve grid interconnection can be saved. In other words, there is no need for specialized knowledge, so there is a possibility that it can be realized by ordinary people.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of an apparatus for system-linking a power generation facility according to an embodiment of the present invention to a distribution line.

FIG. 2 is an explanatory diagram of a specific configuration example of the embodiment.

FIG. 3 is an explanatory diagram of system interconnection of conventional power generation equipment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 AC distribution line 12 AC / DC power conversion part 14 DC bus 16 DC power supply equipment 18 Quadrature power conversion part 20 AC bus 22 DC load 24 AC load 26 AC power generation equipment

 ────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Kenichi Yoshioka 6-15-1, Ginza, Chuo-ku, Tokyo F-term in Power Development Co., Ltd. 5G065 DA01 DA06 MA01 MA02

Claims (3)

[Claims] 1. An AC / DC power conversion unit that converts AC power of an AC power distribution line into DC power and cannot perform the reverse conversion, a DC bus transmitting the DC power output from the AC / DC power conversion unit, and a DC bus connected to the DC bus. DC power supply equipment for supplying power, a quadrature power converter for converting DC power transmitted by the DC bus into AC power, and an AC bus for transmitting AC power converted by the orthogonal power converter, An apparatus for interconnecting power generation equipment to a distribution line, wherein a DC load is connected to the DC bus and an AC load is connected to the AC bus so that each power can be supplied to each load. 2. The power supply system according to claim 1, wherein the DC power supply system comprises an AC generator and an AC / DC converter for converting AC power generated by the AC generator into DC power. Equipment that connects to the grid. 3. The apparatus for interconnecting a power generation facility with a distribution line according to claim 1, wherein another AC power generation facility is installed so that AC power can be supplied to the AC bus.