RU2338310C1 - Method of power system rational use - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: method consists in the fact that impact of known values at deviation of measured level of electric energy consumption from earlier designed electric energy consumption schedule is accounted, and accordingly additional sources of electromotive force are connected or excessive ones are disconnected. And also other switching processes are performed in electric grid in every moment of time of the following period of electric energy consumption so that values of parameters of generated, transmitted, transformed and distributed electric energy approach values of designed electric energy consumption table for this period of time.

EFFECT: provision of stable frequency and voltage of electric current in power system, higher reliability of power system and reduction of consumer expenses.

19 cl

Description

Technical field

The method of rational use of the power supply system relates to methods for implementing the operating modes of power supply systems and can be used to optimize the operation modes of power supply systems.

State of the art

Analogues of the proposed method.

The method of using the electrical distribution network according to the patent of Russia No. 2227955 according to IPC H02J 3/04, op. 04/27/2004, in which the stabilization of the voltage and frequency of the electric current of the power supply system is ensured by the fact that the cross-sections of the current-carrying parts of the designed power supply system are selected based on a number of factors.

The disadvantage of the above method is that it does not allow to take into account the changing load of an existing electrical network.

The method of smoothing daily peak loads in power systems of large cities according to the patent of Russia No. 2210155 according to IPC H02J 3/06, op. 08/10/2003, in which devices are installed in the refrigeration units that are the consumers of this power supply system, which control the operation of the refrigeration units in such a way that the latter accumulate cold at the time of a decrease in power consumption and spend it at the time of peak loads.

The disadvantages of this method are: the inability to use for power supply systems without power receivers - refrigeration units; the impossibility of applying the method when the operating modes of these power consumers do not coincide in the technological cycle with the necessary for smoothing peak loads; high cost of this method.

The method of controlling the power transmission mode according to the patent of Russia No. 2025019 according to IPC H02J 3/06, op. 12/15/1994, in which a stable voltage in the power supply system during load changes is supported by the use of transformers with a voltage control device under load.

The disadvantage of this method is that in order to maintain a rational load on the system, only the voltage drop when the load changes due to changes in the voltage drop in the power line with a changed current is taken into account, without taking into account changes in the consumed and, accordingly, generated power.

A method of providing redundant power in power systems connected by a power system according to US patent application No. 20055006958 according to IPC Н02М 5/45, op. 01/13/2005, in which, when there is insufficient generated power in the power system, consumers provide electricity through inverters and converters from the power system, where there is a reserve of sources of electricity.

The disadvantages of this method include the possible excess of power consumption of all existing reserves, since there is no planning of consumed electricity, significant energy losses, as well as significant electromagnetic interference arising from the use of converter equipment.

The way to optimize the power load of an enterprise for power consumption according to Chinese patent No. 1595757 according to IPC H02J 3/06, op. 03/16/2005, in which the automated control system controls the consumed and generated power in the power grids and, when the consumed power approaches the limit value, it performs automatic switching to ensure the required generated power.

The disadvantages of this method are the possible excess of power consumption of all existing reserves, since there is no planning of consumed electricity, as well as significant losses of electricity during overflows.

The method of stabilizing the frequency of the power system according to Japanese patent application No. 2000217255 according to IPC H02J 3/06, op. August 4, 2000, in which frequency stabilization is carried out by limiting the generation of electricity by the generators of the power system according to the signal of the controlling device when the set frequency value in the power system is exceeded.

The disadvantages of this method are the increased cost due to the availability of devices of the monitoring system and the possible excess of the power consumption of all existing reserves, since there is no planning for the consumed electricity.

The closest in technical essence the prototype of the invention is a method of monitoring and control of energy consumption according to the patent of Russia No. 2212746 IPC H02J 3/06, op. September 20, 2003, in which energy is measured at the consumer’s input, control of the operation modes of power equipment and archiving of their parameters, setting of necessary settings and deviations from these settings for all controlled parameters, and then generating control signals for changing the capacity of generating power plants in accordance with the identified deviations.

The disadvantage of this method is the lack of consideration of a possible change in the influence of the reasons leading to a deviation of energy consumption for the further planning time.

Disclosure of invention

The objective of the invention is the uninterrupted supply of electricity to consumers of the power supply system.

The technical results of the invention are providing a stable frequency and voltage of electric current in the power supply system, as well as improving the reliability of power supply and reducing consumer costs.

Technical results are achieved by the fact that, by predicting, based on information on the operating modes of power receivers and / or at known levels of their power consumption, if any, and in its absence, using an expert method, they form an array of information about power consumption levels at each moment or time interval selected fixed period of time, this array of information in the form of a database is stored in memory and on an electronic computer carrier, then using a computer based on the above information They use the energy consumption schedule, then connect additional sources of electromotive force or turn off unnecessary ones, as well as carry out other switching processes in the power network in such a way that the values of the parameters of the generated, transmitted, converted and distributed electricity at each moment of time correspond to the drawn up energy consumption schedule, then by measuring form an array of information about the levels of actual power consumption at each moment or time interval change for the same period of time, this array of information in the form of a database is also stored in memory and on an electronic computer carrier, then using a computer to compare the values of the compiled energy consumption schedule with the measured energy consumption levels at the same time or time intervals, determine the periods and corresponding values deviations of the actual energy consumption levels from the energy consumption levels corresponding to the schedule, then the correlation of the detected values of the deviations of the energy levels is determined consumption and time periods during which deviation data occurred, with possible reasons for the occurrence of such deviations recorded in the information array and stored in memory and on electronic computer storage media in the form of a database, and if the reasons for the occurrence of deviations and the occurrence of these deviations coincide exceptions for these reasons during the next planned period of time using a computer make the appropriate changes to the previously drawn up energy consumption schedule, then the process is repeated dig, starting from the moment of connection or disconnection of electromotive force sources.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be changing temperature conditions, which are determined by known methods.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be the time period of the day selected for planning.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be the time of year.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be aerodynamic resistance to the operation of moving mechanisms with electric drive.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be the movement of electric vehicles on a relief other than flat.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be the movement of electric vehicles along a path different from straightforward.

One of the reasons for the deviation of the actual schedule of energy consumption from the planned one may be the weight of the transported cargo when driving electric vehicles.

One of the reasons for the deviation of the actual schedule of energy consumption from the planned one may be the hardness of the road surface when driving electric vehicles.

One of the reasons for the deviation of the actual schedule of energy consumption from the planned one may be the hardness of the wheels when driving electric vehicles.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the cooling of structures due to the aerodynamic blowing of structures with at least one power receiver.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the accident of the power receiver.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be an accident in the power supply system.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be a malfunction in the power receivers.

One of the reasons for the deviation of the actual power consumption schedule from the planned one may be the emergency turning on or off of at least one power receiver.

One of the reasons for the deviation of the actual schedule of energy consumption from the planned one may be the changing length of daylight hours.

One of the reasons for the deviation of the actual electricity consumption schedule from the planned one may be the changing illumination of the earth's surface due to cloud cover.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be a change in the mode of operation of power receivers.

One of the reasons for the deviation of the actual schedule of power consumption from the planned one may be a change in the composition of power receivers.

The implementation of the invention

To implement the method of rational use of the power supply system, it is necessary by forecasting, based on information on the operating modes of power receivers and / or at known levels of their power consumption, if any, and in its absence, using an expert method, an array of information about the levels of power consumption at each moment or intervals is formed time for the selected fixed period of time. This array of information in the form of a database in a known manner is recorded in memory and on an electronic computer carrier. Next, using a computer on the basis of the above information in a known manner to draw up a graph of energy consumption. Then, in a known manner, additional sources of electromotive force are connected or excess ones are turned off, as well as other switching processes are carried out in the power network in such a way that the values of the parameters of the generated, transmitted, converted and distributed electricity at each moment of time correspond to the drawn up energy consumption schedule. Then, by measurements in a known manner, an array of information about the levels of actual power consumption at each moment or time interval over the same time period is formed. This array of information in the form of a database in the same known manner is recorded in memory and on an electronic computer carrier. Next, using a computer in a known manner, the values of the compiled energy consumption schedule are compared with the measured energy consumption levels at the same moments or time intervals, the periods and the corresponding deviations of the actual energy consumption levels from the energy consumption levels corresponding to the established schedule are determined. Then, in a known manner, the correlation of the detected deviations of the power consumption levels and the time periods in which the deviation data occurred is determined with the possible causes of such deviations recorded in the information array and stored in the computer memory and electronic media as a database. In case of coincidence in time of the action of the causes of deviations and the occurrence of these deviations and not exclude the action of these reasons during the next planned period of time using a computer in a known manner, make the appropriate changes to the previously drawn up energy consumption schedule. Next, the process is repeated, starting from the moment of connection or disconnection of electromotive force sources.

There are a number of reasons that affect deviations in electricity consumption, the values of which must be entered into the information array, in connection with the most likely possibility of their influence. These reasons include:

- changing temperature conditions;

- the time period of the day selected for planning;

- season;

- aerodynamic resistance to the operation of moving mechanisms with electric drive;

- movement of vehicles with electric drive on a relief other than flat;

- movement of vehicles with electric drive along a path different from straightforward;

- the weight of the transported cargo when driving electric vehicles;

- the hardness of the road surface when driving electric vehicles;

- wheel hardness when driving electric vehicles;

- cooling of structures due to aerodynamic blowing of structures with electrical receivers;

- accident of the power receiver;

- an accident in the power supply system; failure in the operation of power consumers;

- emergency inclusion or shutdown of power consumers;

- changing daylight hours;

- the changing illumination of the earth's surface due to cloud cover;

- change in the mode of operation of power consumers;

- change in the composition of power consumers.

When using this method, the value of the instantaneous generated power tends to the instantaneous value of the consumed power, which means that a stable frequency and voltage of the electric current in the power supply system are ensured. The risk of overloading the system equipment is reduced, therefore, the probability of its failure, which leads to increased reliability of power supply. The values of electricity ordered by consumers tend to the value of actually consumed, therefore, penalties for under-consumed electricity or for exceeding the allocated quota are reduced.

Possible errors in determining the correlation of the detected values of deviations of power consumption levels and the time periods in which these deviations occurred with the data stored in the memory and electronic computer carrier as a database of possible causes of such deviations over time will tend to zero , since the accumulated information on energy consumption and the reasons for the deviation of energy consumption from the schedule allows more accurate determination over time the above correlation. In addition, already in the second round of application of the proposed method, the values of the deviations of the drawn up energy consumption schedule and the measured energy consumption levels will be less than the same deviations without applying the proposed method.

Claims (19)

1. A method of rational use of the power supply system, in which, by predicting, based on information on the operating modes of power receivers and / or at known levels of their power consumption, if any, and in its absence, using an expert method, an array of information on power consumption levels is generated at each moment or time intervals for a selected fixed period of time, this array of information in the form of a database is stored in memory and on an electronic computer medium, then using a computer based on you the above information is a schedule of energy consumption, then connect additional sources of electromotive force or shut off unnecessary, as well as carry out other switching processes in the electricity network so that the values of the parameters of the generated, transmitted, converted and distributed electricity at each moment of time correspond to the energy consumption schedule, then by measurements form an array of information about the levels of actual energy consumption in each from moments or time intervals for the same period of time, this array of information in the form of a database is also stored in memory and on an electronic computer medium, then using a computer they compare the values of the compiled energy consumption graph with the measured energy consumption levels at the same moments or time intervals, determine the periods and the corresponding deviations of the actual energy consumption levels from the energy consumption levels corresponding to the schedule, then the correlation of the detected values is determined deviations of power consumption levels and time periods during which deviation data occurred, with possible reasons for the occurrence of such deviations recorded in the data array and stored in the memory and electronic computer medium in the form of a database, and if the reasons for the occurrence of deviations and the occurrence of these deviations coincide deviations and non-exclusions of the action of these reasons during the next planned period of time using a computer make the appropriate changes to the previously drawn up schedule of energy detachment, then the process is repeated, starting from the moment of connection or disconnection of electromotive force sources. 2. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be changing temperature conditions. 3. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the time period of the day selected for planning. 4. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the time of year. 5. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual schedule of power consumption from the planned one may be aerodynamic resistance to the operation of moving mechanisms with electric drive. 6. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the movement of electric vehicles on a relief other than flat. 7. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the movement of electric vehicles along a path different from straightforward. 8. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the weight of the cargo carried when moving vehicles with electric drive. 9. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the hardness of the road surface when driving electric vehicles. 10. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the hardness of the wheels when driving electric vehicles. 11. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the cooling of the structures due to the aerodynamic blowing of the structures with at least one power receiver. 12. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be an accident in the power receiver. 13. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be an accident in the power supply system. 14. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be a malfunction in the power receivers. 15. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be an emergency inclusion or shutdown of power receivers. 16. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be the changing length of daylight hours. 17. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual schedule of power consumption from the planned one may be the changing illumination of the earth's surface due to cloud cover. 18. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be a change in the mode of operation of power receivers. 19. The method of rational use of the power supply system according to claim 1, characterized in that one of the reasons for the deviation of the actual power consumption schedule from the planned one may be a change in the composition of power receivers.