RU66124U1 - SYSTEM OF AUTONOMOUS POWER SUPPLY OF CONSUMERS - Google Patents

Abstract

The utility model relates to energy, in particular to power supply to consumers connected to an electric power system operating on renewable and / or non-renewable energy sources. The utility model allows you to expand the range of used device capacities (UE), as well as improve reliability. What is new is that at least one drive and a power control unit are inserted in it, located between the matching units and drives, each of which is connected in parallel to the output of the power control unit and to the inverter input, matching units are connected to the unit inputs power control, the output of which is connected to the input of the inverter, while the power control unit is connected by signal cables to each of the devices (UP). 1 s.p.f., 1 s.p.f.

Description

The utility model relates to energy, in particular to power supply to consumers connected to a power system operating on renewable and / or non-renewable energy sources, and can be used to organize power supply to responsible consumers with a load of high power than generating devices and energy sources.

A well-known system of autonomous power supply to consumers (RF patent for invention No. 2208890, prior. February 6, 2002) solves the problem of expanding the range of used capacities of renewable energy sources, with a high coefficient of energy use of sources not only in modes when the source power is higher than the nominal , but also in modes when the power is below the selected.

The system comprises devices for converting renewable energy sources into alternating current electric energy, each of which is equipped with a matching unit, and a drive connected to the inverter.

The disadvantage of this system is that in the event of a lack of power, a voltage increase due to the volt-additive will lead to a voltage drop due to a decrease in the current value.

Expanding the range of used capacities of the autonomous power supply system of consumers by installing additional devices for converting energy from renewable energy sources into alternating current energy and due to devices converting non-renewable energy sources into alternating current energy is not possible since there is no control of the parameters of the conversion devices.

It is also known that the system of autonomous power supply to consumers (RF patent for the invention No. 2153752, prior. 07.05.1999 g - prototype) solves the problem of power supply to consumers connected to an electric system running on renewable energy sources. The system increases the reliability of power supply to consumers by increasing the duration of the peak load consumption by the consumer, due to the use of a drive with the required capacity.

The system includes devices for converting renewable energy sources into alternating current electric energy, each of which is connected to a unit for matching with the characteristics of a storage device, which has a series-connected generator, rectifier and stabilizer. Matching blocks

drive characteristics are connected in parallel to the drive input, and inverters to the drive output.

The absence of a current power control unit produced by devices (UP) for converting renewable energy sources into alternating current electric energy does not allow connecting additional conversion devices (UP), which limits the system power. Characteristics of conversion devices (UP), namely: voltage and power, various and without a power control unit it is not possible to coordinate them with each other. Expanding the range of used capacities of an autonomous power supply system for consumers without the presence of a power control unit is not possible.

The maintenance of one drive, usually located near the conversion devices in relative distance from the consumer is difficult because will require shutting down the entire system and consumers.

With such a structure of the device system (UP), conversions having different voltages and instantaneous power values will require complex control elements, in particular devices (UP) operating on renewable energy sources.

The utility model allows to expand the range of used device capacities (UP) in the system of autonomous power supply to consumers due to their quantity and to ensure the possibility of using devices (UP) for converting renewable and non-renewable energy sources into alternating current electric energy, as well as to increase the reliability of its operation.

When implementing a system with the number of outputs of the power control unit equal to the number of inverters and the number of drives, it is possible to increase the reliability of the system due to the discreteness of the elements of inverters and drives, the ability to use standard low-power inverters, which leads to an overall reduction in operating costs and increases maintainability.

This is achieved in an autonomous power supply system for consumers, including devices (UP) for converting renewable and / or non-renewable energy sources into alternating current electric energy, each of which is equipped with a matching unit connected to it, and a drive connected to the inverter.

What is new is that at least one drive and a power control unit are inserted in it, located between the matching units and drives, each of which is connected in parallel to the output of the control unit

power and to the inverter input, matching units are connected to the inputs of the power control unit, the output of which is connected to the inverter input, while the power control unit is connected by signal cables to each of the devices (UP).

The autonomous power supply system may further comprise at least one inverter, and the power control unit may additionally have at least one output, while the number of outputs of the power control unit is equal to the number of inverters and the number of drives.

The introduction into the system of autonomous power supply to consumers of at least one additional drive, i.e. the presence of at least two or more drives, makes it possible to place them in close proximity to the consumer. If the connection between the drive and the power control unit is interrupted, the consumer is provided with electricity for the duration of the drive's capacity, sufficient to restore communications, i.e. increases the reliability of the system.

The presence of a power control unit located between the matching units and drives, each of which is connected in parallel to the output of the power control unit and to the input of the inverter, as well as connecting matching units to the inputs of the power control unit, the output of which is connected to the inverter input provides the ability to connect additional capacities devices (UP). The output parameters of devices for converting renewable and / or non-renewable energy sources in terms of voltage and power parameters are different and only the power control unit can provide a single voltage value and a power balance necessary for the drive and consumer to work.

The power control unit is connected by signal cables to each of the devices (UE), which provides regulation of the power parameters of the devices (UE) and the rated power for the entire system, as well as expanding the range of used capacities by increasing the number of devices (UE).

T.O. the range of used capacities of devices (UP) is expanding due to their number and providing the possibility of using devices (UP) of converting renewable and non-renewable energy sources into alternating current electric energy.

The presence of additionally at least one inverter i.e. two or more inverters, as well as the execution of the power control unit with at least one additional output and the execution of the system with the number of outputs of the power control unit equal to the number of inverters and the number of drives, improves the reliability of the system due to the discrete elements of the inverters and

drives and the possibility of using standard low-power inverters, which leads to an overall reduction in operating costs and increases maintainability.

Figure 1 shows a system of autonomous power supply to consumers with two drives and an inverter

Figure 2 shows a system of autonomous power supply to consumers with four drives and inverters.

The autonomous power supply system of consumers contains devices 1 (UP) for converting renewable and / or non-renewable energy sources into alternating current electric energy, having control bodies (not shown in FIG.), Each of which is equipped with a matching unit 2 connected to it by a power cable . As devices 1 (UP) can be used: wind turbines and hydraulic units that convert the energy of water and wind into electrical energy of alternating current, as well as solar panels that convert the energy of sunlight into electrical energy of direct current. In addition, conversion devices operating on non-renewable sources can be used, for example, diesel-benzo power plants, steam turbines, gas turbines, etc.

The power control unit 3 is located between the coordination units 2 and the drives 4, which may be two, three, four or more. Each of the drives 4 (Fig. 1) is connected in parallel by a power cable to the output of the power control unit 3 and to the input of the inverter 5. The matching units 2 are connected by power cables to the inputs of the power control unit 3, the output of which is connected to the input of the inverter 5. Each inverter 5 is connected with the load of consumer 6. In figure 1, the inverter 5 is connected to the load of two consumers 6. Consumers 6 can be connected to the inverter 5 and in larger quantities. The power control unit 3 is connected by signal cables to each of the devices 1 (UP).

Unit 3 power control performs the function of switching power electrical connections of the system to stabilize the power at its output with the issuance of control signals to the controls of devices 1 (UP).

When using devices 1 (UE) specially made for this system that convert energy from renewable energy sources into alternating current electric energy (UE), the coordination unit 2 will include only a rectifier 7 and a stabilizer 8. With non-specially made devices 1 (UE), the conversion of renewable and non renewable energy sources in electrical energy of alternating current block 2 matching will include a voltage converter 9 (increasing or decreasing voltage), a rectifier 7 and a hundred Bilizer 8. V

as a voltage Converter 9 can be used transformers, voltage multipliers and voltage dividers. The internal communications of the elements of the coordination unit 2 are made by power cables.

Figure (2) shows a diagram of an autonomous power supply system having additionally at least one inverter 5 i.e. it must contain two or more inverters 5. Accordingly, the power control unit 3 additionally contains at least one output, while the number of outputs of the power control unit 3 is equal to the number of inverters 5, the number of drives 4 and the number of consumers 6.

The autonomous power supply system operates as follows:

Devices 1 (UP) convert the energy of renewable and / or non-renewable sources into electrical energy of alternating current using an electric generator (not shown in Fig.). When using devices 1 (UP) specially made for this system, which convert the energy of renewable energy sources into alternating current electric energy in the matching unit 2, the alternating current is converted into direct current by means of a rectifier 7 and the voltage is stabilized by means of a stabilizer 8.

When not specially made devices 1 (UP) converting energy from renewable and non-renewable sources, the matching unit 2 will include a voltage converter 9 (increasing or decreasing voltage). The AC voltage is converted to the voltage corresponding to the voltage of the entire system. The current from the alternating current is converted to direct by means of a rectifier 7 and the voltage is stabilized by a stabilizer 8.

From the matching unit 2, the direct current of the corresponding voltage is supplied to the inputs of the power control unit 3, which performs the functions of switching, stabilizing power, and issuing control signals to devices 1 (UE). It provides the ability to work not specially designed for voltage and power devices 1 (UP) converting renewable and / or non-renewable energy sources of energy into electrical energy of alternating current since provides a balance of energy between the drives 4 and the load of consumers 6. The power control unit 3 is connected by signal cables to each of the devices 1 (UE) through which control signals pass that regulate the power of each of the devices 1 (UE) until it stops, i.e. providing rational fuel consumption in devices for converting non-renewable energy sources, due to the operation of devices for converting renewable energy sources. For example, renewable energy is enough to operate the entire system. In this case, the block

power control 3 will give a signal to the device 1 (UP) energy conversion of non-renewable sources until the stop.

In the case of using non-renewable energy conversion devices 1 (UP) in the system of autonomous power supply to consumers, the power control unit 3 gives signals to stop, decrease or increase power, which leads to a decrease in fuel consumption. T.O. the range of used capacities of devices (UP) is expanding due to their number and providing the possibility of using devices (UP) of converting renewable and non-renewable energy sources into alternating current electric energy.

The circuit depicted in figure 1 is typical for powers up to 100 kW. The circuit depicted in figure 2 is typical for powers of more than 100 kW.

In Fig. 1, electric energy from the output of the power control unit 3 is supplied to the input of the inverter 5 and drives 4. At the time of high power consumption (in daily peak load modes) by consumer 6, the lack of power generated by devices 1 (UE) is compensated by drives 4. , devices 1 (UP) operate in a stable basic mode since a sharp change in consumer loads is compensated by drives 4.

In figure 2. Electric energy from the outputs of the power control unit 3 is supplied to the power line, each of which is connected to the consumer 6. On each power line drive 4 and inverter 5.

By breaking down the large current power from the power control unit 3 on the line to each consumer 6 (due to the discrete nature of the elements of inverters and drives), the reliability of the autonomous power supply system is increased, and the possibility of using standard low-power inverters is also ensured, which leads to an overall reduction in operating costs and increases maintainability.

Claims (2)

1. An autonomous power supply system for consumers, including devices (UP) for converting renewable and / or non-renewable energy sources into alternating current electric energy, each of which is equipped with a matching unit connected to it, and a drive connected to an inverter, characterized in that at least one drive and a power control unit located between the matching units and drives, each of which is connected in parallel to the output of the control unit m generality and to the input of inverter matching blocks are connected to the input of the power control unit, the output of which is connected to the input of the inverter, wherein the power control unit is connected to signal cables to each device (UE). 2. The autonomous power supply system of consumers according to claim 1, characterized in that it further comprises at least one inverter, and the power control unit further has at least one output, while the number of outputs of the power control unit is equal to the number of inverters and the number of drives.