SK50682007U1 - Energy system with advanced control range - Google Patents

Abstract

Described is an energy system with extended regulatory the range of electrical power in which it may be electrical energy produced by an electricity production source, or for the production of electricity and heat supplied at the point of connection electricity produced by the source to the power system. The control range of the source itself is limited given the maximum power of the source from the top and bottom minimum the power of the source at which the source is still possible operate stably. The power system contains an appliance (2) electrical power, supplied by (4) electricity produced by the source and installed to the source before the site connection of the electricity produced by the source to the electricity system.

Description

This technical solution concerns an energy system with an extended regulation range.

BACKGROUND OF THE INVENTION

One of the biggest problems in using electricity is the inability to store it in its original form of energy. A balance between electricity production and consumption must therefore be maintained at all times. This is the responsibility of the system operator in each power system, which provides power and heat support services from the power plant. By support service is meant the possibility of the power source to respond very quickly to the demand of the system operator to change the power.

For the purposes of this application, heating and power plants are also referred to as "sources."

Support services can only supply certain types of resources. For example, nuclear power plants do not usually provide or only to a minimum extent. To a larger extent, heating and power plants producing electricity and heat from coal, natural gas or other fuels provide support services. However, the scope of providing ancillary services is limited by the installed electrical power of the source from above and the minimum technical output from below. The minimum technical power is the power at which the power supply can still be operated stably. For some sources, this band is still limited by the obligation to supply heat.

The reason for the impossibility to reduce the power of a heat source for electricity generation by simply reducing the power of the turbine is a certain control band of the turbine and steam boiler operation, where there is a turbine and

- 2 boilers can be operated. Moreover, with high heat removal from the condensing turbines to satisfy the heat demand, the high forced production of electricity on the high pressure turbine part prior to the extraction is due to the high flow required to supply heat from the boilers through the high pressure turbine part and the steam to the appliance. The steam turbine can be shut down and the heat supply can be realized using steam reduction (throttling and cooling with high parameters - pressure and temperature) produced in boilers. However, when the turbine is shut down, it is time-consuming to put it into operation and is associated with pumping its service life and considerable loss of start-up from the shutdown to the required output.

Generation of heat for supply to end customers is realized in most sources with heat and electricity production by combustion of fuel and steam production in the boiler. Steam with high pressure and temperature parameters passes through the steam turbine when, after work and electricity generation, it exits the turbine and can be used to generate heat for supply to end customers in a heat exchanger. The level at which steam is removed from the turbine for heat production is dependent on the specific location and technology of the plant. In principle, only a portion of the steam can be removed and the remainder can be continued, for example, into the condensation section (sampling turbine) or all steam passing through the turbine (back-pressure turbine) can be removed. The heat exchanger usually already exits hot or hot water serving as a carrier of thermal energy to end customers. The water is cooled back from the customers and is heated in the exchanger again by steam to the outlet temperature and flows to the end customers. When generating electricity in a turbine, there is a certain minimum limit for its sustainable output, which is usually increased by the requirement for heat supply from the turbine draw. In the case of a requirement to reduce turbine power for power control, this minimum turbine power may be exceeded, only the extent of the turbine's performance given by its technical capabilities can be utilized and additionally affected by forced production of electricity in heat supply (forced increase in cogeneration) .

The need for the scope of electricity system regulation has been increasing in recent years. One of the reasons is the increase of installed capacity in wind power plants, the operation of which depends on weather conditions and the possibility of operation prediction is thus minimal. As is apparent from the foregoing, the disadvantage of the existing power generating sources is their lack of ability to change the range of power supplied to the grid, while maintaining the stable operation of the power source and without the need to wipe out part of the generated electricity.

The aim of the present invention is to propose a power system with an extended control range that allows a wider control range of the electrical power supplied to the power system to be achieved.

The essence of the technical solution

The objectives of the technical solution are met by an energy system with an extended control range of electrical power, in which the electricity produced by the electricity or heat and power generation can be supplied at the point of connection of the electricity produced by the power to the power system. maximum power of the power supply from above and below the minimum power of the power supply, at which the power supply can still be operated steadily, which is based on the fact that it contains an electrical appliance powered by the power supply

- 4 produced by the source and installed to the source before the point of connection of the electricity produced by the source to the electricity system.

The electric energy consumer is preferably an electric heater for heating a hot water medium.

According to a further preferred embodiment, the electric heater for heating the hot water medium is an electric water heater that is installed to the steam or hot water heat exchanger of the hot water supply steam to heat the water in case of need to reduce the electric power at the connection to the power system below .

The electric water heater may be arranged to heat at least a portion of the returned chilled water from the heat sink (s) prior to its entry into the steam or hot water exchanger, or to reheat at least a portion of the water coming from the heat exchangers to the heat sink (s). .

BRIEF DESCRIPTION OF THE DRAWINGS

Hereinafter, some preferred embodiments of the technical solution will be described, one of which is described by reference to the accompanying drawing, showing a diagram of one possible arrangement of an electrical appliance that is part of the power system according to the technical solution within the power system.

EXAMPLES

The power system is quite often in a state of excess electricity with a demand for power reduction. The equivalent of non-produced electricity is the consumption of this energy or its wastage. The extent of the regulation of the source for the production of electricity or the production of electricity and heat can be increased by including the electrical appliance in the power system, which thus also knows the source of the electric appliance. Electricity will not be wasted, but will be used to generate the necessary heat.

The technical solution uses the combination of heat production with an increase in electricity consumption in heat sources for the production of electricity or electricity and heat (hereinafter referred to as the “source”), while the energy will not be wasted but purposefully used.

The increase in self-consumption can be realized, for example, by switching on the electric heating of water or other hot-water medium for supply to the customers or for the own needs of the source. Thereby, part of the electricity will be consumed for heat production and at the same time the source will be operated in the normal operating band, as the minimum output will not be underestimated. In this solution, an increase in self-consumption and thus a reduction in the overall power of the energy system below, from a source point of view, a sustainable water level will be installed to the existing steam or hot water heat exchanger (hereinafter referred to as "heat exchanger"). The arrangement and specific solution of the water heater will depend on each particular source. There are limiting factors such as the layout of the source, the parameters of the heating medium, the specifics of the local heat market, etc.

A schematic diagram of one possible arrangement of an electric appliance 2 within the power system of which the appliance is a part is shown in the attached figure. The power system also includes a source, of which only its heat exchanger 8 is shown with a supply of 3 steam produced by the source. In case

- 6 requirements to suddenly reduce the electrical output from the power system below the turbine control range at a given time (the control range is also derived from actual heat supply) cooled water 5 returned from heat consumers 7 heated before entering exchanger 3 by electric heating in electric water heater 2 which is an electric boiler (alternatively, an electric water heater may be a heating coil installed directly in a duct or other flow point). To heat the water, the electric boiler consumes the electricity produced by the source, which is supplied from the source to the electric boiler via the inlet 8. The electric boiler is installed to the source before the point of connection of the electricity produced by the source to the electricity system, so that the amount of electricity supplied by the source to the electricity system is reduced by the energy consumed by the electric boiler. Thus, if the electric power supplied to the power system is reduced below the minimum power of the source, this reduction can be achieved by switching on the electric boiler or increasing its power.

Alternatively, instead of or in addition to heating the returned chilled water, it is possible to heat the water flowing from the exchanger to the consumers. The flow through the exchanger will be maintained, however, the steam consumption for water heating will be regulated according to the necessary reheating of the water for the needs of high-quality heat supply to end customers.

The electric boiler can be realized as a flow boiler with a large heating surface and will be connected to the power supply as part of the power system. When operating only with a heat exchanger (without the requirement to increase its own electricity consumption), the electric boiler will be separated from the technology without any effect on the operation of the source. In order to eliminate the pressure loss of water due to the flow through the electric boiler during its deployment, the performance of the heating water circulating pumps can be increased. A shut-off valve can be installed to control the flow through the electric boiler, which will affect the flow through the electric boiler by adjusting the pressure conditions. The electric boiler can be equipped with technology to protect the heating surfaces from operation without coolant.

There will also be a connection where not all the returned water from the customers will flow, but only a part of it. In this case, a shutter assembly will also be installed to separate the newly installed device.

The described configuration of the electric boiler is one of the many technically possible ways of increasing one's own electricity consumption to influence the overall performance of the power system and thus the range of support services.

As shown above, the main advantage and difference of the power system according to the invention compared to the prior art is that the proposed power system makes it possible to reduce the electrical power at the connection point to the power system compared to the electrical power supplied by the power supply itself by increasing consumption. electricity, wherein the electricity is expediently used for the purpose of supplying heat. This solution, in comparison with simple energy wastage or total shutdown of the power supply, in addition to increasing regulatory power, also provides efficient use of energy in the fuel and is more environmentally friendly.

Claims (5)

PROTECTION REQUIREMENTS 1. An extended-range power system power system in which the power produced by the electricity or heat and power generation may be supplied at the point of connection of the electricity produced by the power supply to the electricity system, where the control range of the power supply itself is limited by the maximum power source from above and below with the minimum output of the source at which the source can still be operated stably, characterized in that it comprises an electric appliance (2), powered by the supply of electricity produced by the source and installed to the source before the source system. Energy system according to claim 1, characterized in that the electric energy consumer (2) is an electric heater for heating a hot water medium. Energy system according to claim 2, characterized in that the electric heater for heating the hot water medium is an electric water heater (2) which is installed to the steam or hot water heat exchanger (1) of the source for heating the hot water by steam. where necessary to reduce the electrical power at the point of connection of the electricity produced by the source to the electricity system below the minimum power of the source. An energy system according to claim 3, characterized in that the electric water heater (2) is arranged to heat at least a portion of the cooled water returned (5) from the at least one heat sink (7) before it enters the exchanger (D). - 9 λ / 5th Energy system according to claim 3 or 4, characterized in that the electric water heater (2) is arranged for additional heating of at least a portion of the water exiting the exchanger (1) to the at least one heat sink (7). s