TWI614971B - Apparatus of Uninterruptible Power Supply Control for Grid - Google Patents

Abstract

A microgrid continual power control device comprising a power busbar; an energy storage system connected to the power busbar; a load connected to the power busbar; and a renewable energy source connected to the power busbar; a power generating device connected to the power bus; a static switch connected to the mains and the energy storage system; and at least one synchronous switch connected to the other power generating device. Therefore, the microgrid can be used as a microgrid voltage source during the operation of the mains parallel parallel island operation or under the island operation, when the energy storage system is faulty, thereby improving the stability and safety of the microgrid operation; The invention can avoid the blackout of the microgrid due to the failure of the energy storage system, and can exchange the main control of the voltage source with the other power generation device according to the demand, thereby increasing the stability and reliability of the power supply. .

Description

Microgrid continuous power control device

The invention relates to a micro-grid continual power control device, in particular to an energy storage system or a composite power generation device as a voltage source, in particular to avoid the failure of the energy storage system, and the micro-grid is completely black. The situation, and the energy storage system can be exchanged with other power generation devices for the main control of the voltage source according to the demand, and the stability and reliability of the power supply can be increased.

In recent years, in the structure of the microgrid, in addition to various decentralized power generation equipment (such as solar energy, wind power and biomass energy) and many user loads, the energy storage system and the mains terminal (large grid end) are connected. Fast switching switches (such as static switches, etc.) are also important equipment. Among them, the energy storage system can improve the power quality of the power grid in the micro grid, adjust the power generation of the renewable energy and the power consumption of the load, so that the system can achieve a balance between supply and demand. Therefore, the existence of energy storage systems has become an indispensable important device. In practical applications, the energy storage system itself is not a stable device. The abnormality or even the failure of the energy storage system is often caused by the instability of the battery module, the inverter cannot be connected in parallel, or the communication interference of the energy storage system. Etc.; among them, the instability of the battery module occurs most often. The storage of battery energy depends on chemical reactions. However, changes in weather and environment often have unpredictable effects on the battery, such as damage to the battery cells. In addition, the battery cells themselves have life limits. In the interior of the energy storage system, although the balance between voltage and energy is continuously maintained between each module, the balance is balanced by the value read. In fact, the chemical reaction between the batteries will still be slightly different, and the long-term accumulation will still be The difference in the life of each battery is caused, so that the voltage of a certain battery module is too low, so that the energy storage system needs to separately charge or replace different battery modules separately, which also makes the micro-grid continuous operation for a long time. influences. The above is an example of a battery of a lithium battery, describing a possible failure situation of the energy storage system, and does not define a specific type of energy storage system. For example, the patent case of the Republic of China Patent No. I467881 is a micro-grid energy storage system mode switching device that utilizes the linkage between the energy storage system and the static switch. When the energy storage system performs the control mode switching, the static switch operates simultaneously. The effect of making the grid-connected operation mode or the island operation mode of the micro-grid in a fast switching manner is achieved. However, the patent has the following two shortcomings: 1. During the parallel connection of the mains and the failure of the energy storage system, when the mains suddenly disappears, it will enter the island operation mode, but at this time, there is no voltage source inside the microgrid to control the overall voltage of the microgrid. And the frequency, the micro-grid will have a black situation. 2. Under the isolated island, if the energy storage system suddenly fails, there is no substitute voltage source in the micro-grid that can be used as an energy storage system failure, and the micro-grid will also have a black condition. Another example is the patent case of the Republic of China Patent No. I492472, which is a dual-energy storage system for the power grid. The operation of the dual-storage energy storage system is divided into several modes, which are based on the voltage and current in the dual-storage energy storage system. The abnormal signal determines its operation mode, which can improve the performance and reliability of the energy storage system, and achieve the effect of extending the service life of the energy storage system. However, the patent case also has the following two shortcomings: 1. The cost of the two energy storage systems is greatly improved, and the number of energy storage systems is increased, and there are more problems with the stability and safety of the battery pack. 2. In this architecture, when the utility power is abnormal and the amount of renewable energy generated is insufficient, the dual energy storage system cannot continue to provide insufficient power unless the storage capacity of the energy storage system is large enough. In view of the above-mentioned lack of conventional energy storage systems and the importance of power energy management for energy storage systems, the inventors have invented a microgrid that uses an energy storage system or a composite power generation device as a voltage source. Constantly control the device to improve the stability and safety of the microgrid operation, so as to improve the various problems of the application.

The main object of the present invention is to overcome the above problems encountered in the prior art and to provide a situation in which the microgrid is completely black due to the failure of the energy storage system, and the energy storage system and other power generation can be performed according to requirements. The device exchanges the master control of the voltage source to increase the stability and reliability of the power supply. The secondary object of the present invention is to provide a microgrid that can use other power generating devices as a microgrid voltage source to improve the operation of the microgrid during the operation of the mains parallel to the island or during the operation of the island, when the energy storage system fails. The stability and safety of the microgrid continually controls the device. For the purpose of the above, the present invention is a microgrid continual power control device, which is an energy storage system or a composite power generation device as a voltage source, and includes: a power bus bar; an energy storage system, and the power sink a connection connected to the power bus; a regenerative energy source connected to the power bus; at least one other power generating device connected to the power bus; a static switch, the mains and the storage The system can be connected; and at least one synchronous switch is connected to the other power generating device. In the above embodiment of the invention, the synchronous switch includes a primary side and a secondary side. In the above embodiment of the present invention, the synchronous open relationships are connected in series with each other and are respectively connected to respective other power generating devices. In the above embodiment of the present invention, when the energy storage system is in normal operation and the utility power is abnormal, the micro-grid is switched from the mains parallel mode to the island operation mode, and the energy storage system serves as the voltage source for the micro-grid island operation. The other power generating device is turned on, and the P/Q mode is used as a power provider; if the energy storage system fails during the operation of the micro-grid island, the other power generating device replaces the energy storage system as a voltage source. In the above embodiment of the present invention, if the faulty energy storage system returns to normal during the micro-grid island operation, the energy storage system will retrieve the voltage source master control, and the other power generation device is converted back to the P/Q mode as the power. The provider; if the mains returns to normal, the energy storage system will lead the entire microgrid back to the mains. In the above embodiment of the present invention, when the energy storage system has a mains abnormality during the fault, the other power generating device is used as a voltage source for the micro-grid island operation; when the utility power returns to normal, the energy storage system is still not repaired. The other power generation unit will lead the entire microgrid back to the mains.

Under the existing microgrid architecture, the energy storage system controls the voltage and frequency of the entire microgrid as a voltage source when the microgrid enters the island operation mode, and balances the power difference between the power generation and the load; when the energy storage system fails or is abnormal This will cause the microgrid to be completely black. Considering this situation, the present invention adds another power generating device and a main busbar switch controlled by the other power generating device as an alternative voltage source when the energy storage system fails; and the other power generating devices mentioned above may be plural . The details will be described in detail below with reference to specific embodiments. Please refer to FIG. 1 , which is a schematic diagram of the basic architecture of the first embodiment of the present invention. As shown in the figure: the present invention is a micro-grid continual power control device, which is an energy storage system or a composite power generation device as a voltage source, which at least includes a power busbar 1, an energy storage system 2, a load 3, A regenerative energy source 4, a further power generating device 5, a static switch 6, and a synchronous switch 7 are formed. The energy storage system 2 mentioned above is connected to the power busbar 1. The load 3 is connected to the power busbar 1. The regenerative energy source 4 is connected to the power busbar 1. The other power generating device 5 is connected to the power busbar 1. The static switch 6 is connected to the mains 8 and the energy storage system 2. The synchronous switch 7 includes a primary side 71 and a secondary side 72, and the synchronous switch 7 is connected to the other power generating device 5. If so, a new microgrid continual power control device is constructed by the above disclosed structure. When the present invention is applied, it can be divided into three scenarios to operate, and in this embodiment, it can be applied to context one and context two. Situation 1. The energy storage system is operating normally, and other power generation devices are in a closed state. When the energy storage system 2 is operating normally and the mains 8 is abnormal, the microgrid is switched from the mains parallel mode to the island operation mode. At this time, the energy storage system 2 serves as the voltage source for the microgrid island operation, and then the other power generation devices 5 are turned on. (avoiding other power generating devices 5 to stand by for a long time), using P/Q mode as the power provider; if the energy storage system 2 fails during the micro-grid island operation, the other power generating devices 5 will replace the energy storage system 2 to become the voltage. source. When the faulty energy storage system 2 returns to normal during the operation of the micro-grid island, the other power generating device 5 detects that the synchronous switch 7 has a voltage on the primary side 71, and after the synchronization, the synchronous switch 7 is closed, and the energy storage system 2 serves as a voltage source. Other power generation devices 5 are converted to P/Q mode to provide power; if the mains 8 returns to normal, the energy storage system 2 will lead the microgrid back to the mains 8. Situation 2, the energy storage system is faulty, and other power generation devices are in standby. When the energy storage system 2 has a mains 8 abnormality during the fault, the microgrid must be switched from the mains parallel mode to the island operation mode, and the other power generating device 5 can still be used as the voltage source (V/F mode) of the microgrid island operation, and The synchronous switch 7 is turned on; when the commercial power 8 returns to normal and the energy storage system 2 is still not repaired, the other power generating devices 5 can still return to the commercial power 8, and convert itself into the P/Q mode. Please refer to FIG. 2, which is a schematic diagram of the basic architecture of the second embodiment of the present invention. As shown in the figure, the present invention may be in the structural form of the second embodiment in addition to the configuration of the first embodiment described above, and is different in that it has a plurality of other power generating devices 5a. 5b, 5c and a plurality of synchronous switches 7a, 7b, 7c, each of the synchronous switches 7a, 7b, 7c are connected in series and connected to each of the other power generating devices 5a, 5b, 5c. When the present invention is applied, it can be applied to the scenario 3 for the present embodiment. Situation 3, the energy storage system is faulty, and there are a plurality of other power generation devices. Under the structure in which a plurality of other power generating devices 5a, 5b, 5c and synchronous switches 7a, 7b, 7c are connected in series, when the energy storage system 2 is abnormal during the power failure, the other power generating device 5a becomes a voltage source, and the synchronous switch 7a opens the isolated mains terminal; in the above case, if the other power generating device 5a fails, the other generating device 5b will become a voltage source, and the synchronous switch 7b is turned on, and so on, thus reducing the risk caused by the uniqueness of the voltage source, Increase the stability of the microgrid power supply. Through the above three scenarios to understand the function of the device, the micro-grid continual power control device of the present invention can achieve the following characteristics: 1. Increase the stability of the power supply of the power grid. a. Disperse only one energy storage system can serve as a voltage source. risk. 2. Increase the selectivity of the return time. a. The energy storage system exists, and the energy storage system is preferentially used to return to the mains. b. The energy storage system is not in use, use other power generation devices, synchronous parallel switches in series with the mains terminal, and synchronous controllers on other power generation devices to synchronize and return to the mains. 3. Avoid dependence on the energy storage system a. When the utility power is abnormal, even if the energy storage system is faulty at present, the synchronous switch can be disconnected to make other power generation devices serve as the voltage source of the microgrid. b. Under the island, when the energy stored in the renewable energy and energy storage system is not enough to bear the load, other power generation devices can provide insufficient power. 4. Equipment cost point of view (other power generation units do not contain energy storage systems) a. There is no need to buy a set of energy storage systems due to the addition of secondary voltage sources. In terms of price, other power generation units are cheaper than energy storage systems. b. The failure rate of other power generation devices is lower than that of the energy storage system, and the maintenance cost is lower than that of the energy storage system. c. The price of the static switch is higher than that of the synchronous switch. It is only necessary to install the static switch at the most critical and fast switching. In summary, the present invention is a micro-grid continual power control device, which can effectively improve various shortcomings of the conventional use, and can make the micro-grid during the parallel operation of the utility power in the island or during the operation of the island, when the energy storage system is faulty, Using other power generation devices as the voltage source of the microgrid to improve the stability and safety of the operation of the microgrid; therefore, the present invention can avoid the situation that the microgrid is completely black due to the failure of the energy storage system, and can be stored according to requirements. The system can exchange the master control of the voltage source with other power generation devices, increase the stability and reliability of the power supply, and thus make the life of the invention more progressive, more practical, and more suitable for the user, and indeed meet the invention patent For the requirements of the application, the patent application is filed according to law. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto; therefore, the simple equivalent changes and modifications made in accordance with the scope of the present invention and the contents of the invention are modified. All should remain within the scope of the invention patent.

1‧‧‧Power bus

2‧‧‧ Energy storage system

3‧‧‧load

4‧‧‧Renewable energy

5, 5a, 5b, 5c‧‧‧ other power generation devices

6‧‧‧Static switch

7, 7a, 7b, 7c‧‧‧ synchronous switch

71‧‧‧First side

72‧‧‧second side

8‧‧‧Power

Fig. 1 is a schematic diagram showing the basic structure of a first embodiment of the present invention. Fig. 2 is a schematic diagram showing the basic structure of a second embodiment of the present invention.

1‧‧‧Power bus

2‧‧‧ Energy storage system

3‧‧‧load

4‧‧‧Renewable energy

5‧‧‧Other power generation units

6‧‧‧Static switch

7‧‧‧Synchronous switch

71‧‧‧First side

72‧‧‧second side

8‧‧‧Power

Claims (4)

A microgrid continual power control device is an energy storage system or a composite power generation device as a voltage source, comprising: a power busbar; an energy storage system connected to the power busbar; a load, and the a power busbar connection; a regenerative energy source connected to the power busbar; at least one other power generating device connected to the power busbar; a static switch connected to the utility power and the energy storage system; and at least one synchronous switch The system is connected to the other power generation device. When the energy storage system is in normal operation and the utility power is abnormal, the micro-grid is switched from the mains parallel mode to the island operation mode. At this time, the energy storage system serves as the voltage source for the micro-grid island operation. And then turning on the other power generating device, using P/Q mode as the power provider; if the energy storage system fails during the operation of the micro-grid island, the other power generating device replaces the energy storage system as a voltage source; If the faulty energy storage system returns to normal during the micro-grid island operation, the energy storage system will retrieve the voltage source master control, and the other power generation device will turn again. Back to the P / Q mode as a provider of power; if the electricity back to normal after the energy storage system will be back to lead the micro-grid and electricity. The micro-grid continual power control device according to claim 1, wherein the synchronous switch comprises a primary side and a secondary side. The micro-grid continual power control device according to the first aspect of the patent application, wherein the synchronous open relationships are connected in series and are respectively connected to the respective power generating devices. According to the micro-grid continual power control device described in item 1 of the patent application scope, wherein When the energy storage system has a mains abnormality during the fault, the other power generating device acts as a voltage source for the micro-grid island operation; when the utility power returns to normal and the energy storage system is still not repaired, the other power generating device leads the entire micro-grid Go back to the city.