LT5851B - Energy systems connecting method - Google Patents

Abstract

This invention relates to electricity field and is related to alternating current of electrical network energy systems, in particularly with energy systems connecting methods. The base of the invention is the method, allowing combination of the energy systems, to increase its reliability and working quality, also significant reduce of financial investments and realization time of technical solutions. Alternating current network of energy systems aggregation method, where each of these systems has its own power specifications, comprising at least one energy storage device with equipment allowing storing energy and using it. According to the concept of the invention, the equipment (3) accumulating and using the energy, is connected to the networks one of energy systems and equipment (4) for accumulated energy use and electric power generation, is connected to other energy systems network, where aforementioned energy systems can be exchanged in places.

Description

BACKGROUND OF THE INVENTION The invention relates to the field of electrical energy and relates to power systems of AC power networks, in particular to methods of interconnecting power systems.

In the modern world, there are many power systems based on AC power grids that differ in their technical characteristics, such as: AC period, amplitude, frequency, and voltage.

In order to optimize the operation of the electricity sector, there is a need to integrate the aforementioned energy systems into a single energy system. There are several ways to combine separate power systems into a single power system in electrical power:

- Fully synchronous connection of the two grids, which provides for the direct connection of one end of the AC grid to the beginning of the grid of the other grid. In this case, it is necessary to apply uniform standards for the interconnected power systems connecting the transformation of the production process from transmission to distribution of electricity consumption to the creation of a single control center.

The disadvantages of this way of connecting energy systems are the high financial costs associated with meeting these standards and the long-term implementation period.

- Asynchronous DC linking via substations (inserts) at the ends of existing cross-system AC lines. 'Direct current insert (PSI)' means a transforming substation which is designed to convert (transform) an alternating current into a direct current, where it is further transformed (transformed) into an alternating current or initial frequency. (GOST 24291-90, Electric Station and Grid Electrical Part. Terms and Definitions). Among the disadvantages of PSI are the following: complex and expensive production of energy equipment, high volume of construction and installation work with long payback period, high financial costs; and, compared to the basic (standard) configuration of power systems, the lower reliability of high-voltage semiconductor devices limits their widespread use.

- Exceptional operation of power plants under a radial scheme or power supply to nodes ("islands") via AC and / or DC power cables. The realization of this method also requires very high costs.

- Combination combining the above techniques (with the same problems / disadvantages as each of the above methods).

There are documents in the pet literature describing, in essence, ways of connecting power systems of AC networks using DC inserts. Ex: RU2354024, RU2354024, RU2010103504, RU2354024, RU2354024, RU2354024, RU2260233, UA52793, RU44891, RU50726, RU50726, RU2354023, UA12730, JP11410302, JP1123378,

JP1123379, JP11410301, US5055702.

However, the solutions disclosed in these documents are expensive in terms of realization, complex technically and substantially different from the method described in the following description of the invention.

The present invention is based on the task of integrating energy systems in a manner that enhances their degree of reliability and quality and minimizes the financial costs associated with its realization.

The solution to this task provides a way of connecting AC power systems, each of which has its own electrical characteristics, using at least one energy storage device (EC) with energy storage and energy utilization equipment, is connected to the grid by one energy system and the equipment involved in the utilization of stored energy and generation of electricity is connected to the grid by another energy system; in addition, these energy systems can be interchanged.

The present invention achieves the following technical result:

- the requirement to adhere to uniform technical characteristics of electricity, which include the values of period, amplitude, frequency of electric current and voltage applied only to the equipment of the energy storage device generating electricity and to the power system to which it is connected;

- export capability - import electricity from one power system to another

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in the following description and in the drawing (Fig. 1), which presents a block diagram of a method for connecting energy systems.

(Fig. 1, A): The energy storage device (EC) equipment (3), by means of which energy is stored, is connected to the energy system (1), and the energy storage device (EC) equipment (4) is connected to the energy system. systems (2).

(Fig. 1, B): The energy storage device (EC) equipment (3), by means of which the energy is stored, is connected to the energy system (2), and the energy storage device (EC) equipment (4) is connected to the energy system. systems (1).

The essence of the connection method of the energy systems is that the energy storage device (EC) (3) is connected to the energy system (1) having one technical characteristics of electricity and the energy storage device (EC) (4) which generates the electricity is connected to a system (2) having other electrical characteristics (Fig. 1, A).

The energy storage device (EC) equipment (4), which generates electricity, must comply with the technical characteristics of the energy system of the system (2), and the energy storage device (EC) equipment (3), must comply with the technical specifications of the energy system. characteristics.

This method allows the energy systems to be interchanged (Fig. 1, B). In the case of switching of power systems (1 and 2), the energy storage device (EC) equipment (4) generating electricity shall comply with the technical characteristics of the energy system (1) and the energy storage device (EC) equipment (3) (2) technical characteristicsA

Consider the method of interconnecting energy systems of the present invention by adapting these most widely used energy storage devices.

Air (gas) energy storage.

The overhead (gas) energy storage device utilizes a variety of cavities, including the earth's crust voids, to be used in air-accumulating power plants with gas turbines (VAGTE). These power plants (VAGTE) also have gas turbine-coupled equipment for several electric motor-driven compressors, air turbines with generators. In gas-turbine storage plants, the order of power systems shall be as follows: Compressors, the motors of which are connected to the power grid of the power system (1), compress the air (gas) into a tank (reservoir). The air turbines then use the compressed air energy of the energy storage device and the air turbine generators, which are connected to the power grid of the power system (2), generate electricity there. This is how energy systems are interconnected.

Hydraulic energy storage.

Hydraulic energy storage can use the upper pool of the hydroelectric power plant (HAE).

The invention is implemented in all schemes of pumped storage power plants and in any variant of HAE equipment composition comprising: pumps with electric motors, hydroturbines with electric generators, return units. The order of connecting energy systems is analogous to that of an overhead (gas) energy storage device. Electric motor pumps are connected to the power system (1), hydroturbine generators to the power system (2).

Mechanical energy storage.

Flywheels and super-flywheels can be used as mechanical energy storage devices.

The electric motor turns the flywheel. At that time, the flywheel accumulates energy which is then converted into electricity by the electric generator. The use of reversible motors is possible.

In this case the interconnection of energy systems is realized in this way. An electric motor is connected to the grid of the power system (1), which drives the flywheel to store energy. The energy of the rotating flywheel is converted into electricity in an electric generator which is connected to the grid power system (2).

The method of interconnecting power systems of the invention allows: to perform power system interconnection using only functional, operational personnel which does not require significant financial costs and structural changes;

to export electricity - import from one power system to another

Claims (1)

DEFINITION OF INVENTION A method of interconnecting an AC power system, each characterized by its own electrical (EC) technical characteristics, wherein each of said systems comprises at least one energy storage device which is capable of storing and utilizing energy in a way that the equipment (3) , storing and using electricity connected to one grid of grids, and equipment (4) involved in the utilization of stored energy and generating electricity is connected to grid of another grid, where these said energy systems can be interchanged.