RU2142190C1 - Time-dependent ac power generation process - Google Patents

Abstract

FIELD: power engineering and electrical communications. SUBSTANCE: for identifying power source, its user, or section of power circuit or line over which electricity is transmitted from power source to user, inducing non-sine-wave voltage involves making at least part of voltage curve section in the form of line section formed by surface of straight circular cone and by secant that does not cross its top; shape of curve may be presented by various fragments of this section and may be changed periodically or aperiodically. EFFECT: improved reliability of identifying power source, its user, and transmitting line. 4 cl, 1 dwg

Description

 The invention relates to energy and telecommunications and can be used to identify generated electricity.

State of the art
Currently, in various areas of the national economy, the identification of the manufactured goods has become widespread.

 The term "identification" should be understood as establishing the correspondence of both a batch of objects and a piece object (product) to its individual identification mark. Identification can be carried out by applying an identifier (label) to the product or by entering the identifier into the product, for example, an information signal about the manufacturer in electricity.

 The term "identification" is used in this context throughout the description, including the claims.

 Product identification has become widespread with labels with bar, sign, digital, letter codes, as well as sensors - identifiers made in the form of oscillatory LC circuits. The combination of letters, numbers, as well as the tuning frequency of the LC circuit in the code is an identifier and uniquely identifies an object.

The mentioned identifiers and methods for applying them to objects are described in detail in the descriptions of Russian Patents:
N 2045780, according to MKI G 06 K 11/00, op. 10.10.95 g .;
N 2074696, according to MKI A 61 H 39/00, op. 03/10/97;
N 2102246, according to MKI B 42 D 15/00, op. 01/20/98;
N 2106689, according to MKI G 06 K 17/00, op. 03/10/98;
N 2112958, according to MKI G 01 N 21/64, op. 06/10/98,
as well as in the descriptions of the Utility Model Certificates:
N 0005883, according to MKI G 09 F 3/02, op. 01/16/98;
N 0006461, according to MKI G 09 F 3/02, op. 04/16/98

 However, they cannot be used to identify generated, transmitted, distributed and consumed electricity due to the specifics of the latter as a commodity.

 The term "electricity" should be understood as a set of phenomena in which the existence, motion and interaction (through the electromagnetic field) of charged particles is detected. Alternatively, the term "electricity" refers to electricity [4].

 The term "electricity" is used in this context throughout the description, including the claims.

 As an analogue, you can use the method of producing electricity with alternating voltage, described in the description of the USSR Author's Certificate N 390626 "Method for remote control of a switching apparatus of an electrical installation", published on July 11, 73, according to class H 02 J 13/00, which consists in creating a code series of power line voltage relief. This analogue solves the problem of remote shutdown of electrical installations in emergency and emergency situations and can be interpreted (interpreted) as a way of identifying a malfunction in a power line.

 A disadvantage of the analogue is the low reliability of determining the source, distributor and consumer of electricity, as well as the section of the electric circuit and power line, through which electricity is transferred from the producer to the consumer in the electric power system.

 The term "electric power system" should be understood as the combination of sources of electricity, for example, power plants connected by power lines, and jointly supplying consumers with electricity [1].

 The term "power system" is used in this context throughout the description.

 The term "source of electricity" should be understood as an enterprise producing electric energy. Depending on the source of energy, there are thermal power plants (steam turbine, gas turbine, nuclear, etc.), hydroelectric power, solar, geothermal, tidal and wind power, chemical current sources, etc. etc.

 The term "source of electricity" is used in this context throughout the description.

 There is a method of producing electricity with alternating voltage, described in the description of the USSR Author's Certificate N 547917 "Method of controlling dispersed objects connected to a public electric network", published on 02.25.77, according to class H 02 J 13/00, which consists in creating short-term circular control signal in the form of unipolar pulses with a repetition rate coinciding with the network frequency.

 This analogue solves the problem of remote circulation control of dispersed objects along power lines in emergency and emergency situations and can be interpreted as a way of identifying a malfunction or identifying work to fix a malfunction on a power line or at a control object.

 A disadvantage of the analogue is the low reliability of determining the source, distributor and consumer of electricity, as well as the section of the electric circuit and power line, through which electricity is transferred from the producer to the consumer in the electric power system.

 The closest in its technical essence - the prototype of the present invention is a method for the production of electricity, variable in time, including the creation of non-sinusoidal voltage [2].

 The non-sinusoidal voltage is formed due to the non-sinusoidal distribution of magnetic induction in the air gap due to the presence of teeth and troughs in the generator armature, reaction of the armature, etc.

 The disadvantage of the prototype is the low reliability of determining the source, distributor and consumer of electricity, as well as the portion of the electric circuit and power line, through which electricity is transferred from the manufacturer to the consumer in the electric power system.

SUMMARY OF THE INVENTION
The objective of the invention is to increase the reliability of determining the source of electricity (power plant), the consumer of electricity, the section of the electric circuit and the power line through which electricity is transferred from the source to the consumer in the electricity system, as well as the electricity distributor between consumers or networks (switchgear) by identifying electricity as a commodity.

 The specified technical result of the invention is achieved in that the method of producing electricity with alternating voltage in time consists in creating a non-sinusoidal voltage and changing the shape of at least one of the sections of the voltage curve in time.

 This ensures the identification of electricity as a commodity.

 A method of producing electricity with a variable non-sinusoidal voltage over time may consist in the fact that the shape of the voltage curve changes in time discretely or periodically, or aperiodically. This will improve the reliability of determining the source of electricity.

 A method of producing electricity with an alternating non-sinusoidal voltage over time may consist in the fact that at least part of the voltage curve is made from a group containing fragments: a polygon, a conical section of a straight circular cone. This will improve the reliability of determining the source of electricity, as well as a section of the circuit or power line.

 The analysis of the prior art showed that the claimed combination of essential features set forth in the claims is unknown. This allows us to conclude that it meets the criterion of "novelty."

 To verify the conformity of the claimed invention with the criterion of "inventive step", an additional search was carried out for known technical solutions in order to identify features that match the distinctive features of the claimed technical solution from the prototype. It is established that the claimed technical solution does not follow explicitly from the prior art. Therefore, the claimed invention meets the criterion of "inventive step".

Information confirming the possibility of carrying out the invention
The essence of the method of producing electricity with alternating voltage in time and the possibility of its practical implementation are illustrated by the drawing, which shows the shape of the curves of non-sinusoidal voltage.

 The period of the non-sinusoidal voltage T is divided into sections (1 / 4T, 1 / 2T, etc.), and the shape of the voltage curve and its change in these sections over time (1 - the shape of the voltage curve at time t, 2 - the shape of the voltage curve at time t + 1) they determine (identify) sources of electricity (power plants), consumers of electricity, sections of the electric circuit and power lines through which electricity is transferred from the source to the consumer in the electricity system, as well as electricity distributors between BITEL or networks (distribution device). Changing the shape of the voltage curve in any of the sections of the voltage curve can be carried out discretely in time or periodically or aperiodically. The sections of the voltage curve in shape can be made in the form of an element of a polygon or conical section 3 of a straight circular cone.

 The term "conical section" should be understood as the line that forms the surface of a straight circular cone and secant plane, not passing through its top.

 The term "conical section" is used in this context throughout the description, including the claims.

The possibility of implementing the invention is confirmed by data on similar methods and devices for implementing the method described in the descriptions of the inventions of the USSR:
A device for tele-signaling the shutdown of the sectioning apparatus (USSR Author's Certificate N 352352 according to MKI H 02 J 13/00, op. 21.09.1972);
The method of forming a command to disconnect AC circuits (USSR Author's Certificate N 433558 according to MKI H 02 J 13/00, op. June 25, 1974);
Device for communication between electric networks (USSR Author's Certificate N 542295 according to MKI H 02 J 13/00, op. 05.01. 1977);
A method for transmitting commands for remote control of a moving object (USSR Author's Certificate N 801190 according to MKI H 02 J 13/00, op. 01.30.1981);
A device for tele-signaling (USSR Author's Certificate N 811502 according to MKI H 02 J 13/00, op. March 7, 1981), as well as in the description of the Application for the Invention of Russia: Broadcast Information Transfer Method (Application for Invention No. 94033147 according to MKI H 04 Q 7/06, op. 02.20.1998) and the description of the Russian Patent: Device for identifying and counting cast billets in a converging process stream (Patent of Russia N 2101764 according to MKI G 06 M 7/04, op. 10.01.1998 g.).

 In addition, generators (for example, microwave) of identification signs of electricity will have small dimensions, since the power of the generator can be many times less than the power of pulses [3].

 For example, with a pulse duration of 10 μs and a power of 100 kW, with a pulse repetition rate of 200 Hz, the generator power will be no more than 200 watts.

 Thus, the use of this device will achieve the objectives of the invention.

Literature
1. Postnikov N.P., Rubashov G.M. Power supply of industrial enterprises: Textbook for technical schools. -L., Leningrad. Separation, 1980.-376 p.

 2. Popov B.C. Theoretical Electrical Engineering: Textbook for technical schools. - 3rd ed., Ext. and revised .- M.: Energoizat, 1990.-544 p.

 3. Stallions I.P. Fundamentals of Electrical Engineering, -5th ed., Rev. and add. -L.: Power Publishing. Leningrad branch, 1989. -352 p.

 4. Soviet encyclopedic dictionary. M .: Sov. Eniklopediya, 1981.-1554 p.

Claims (4)

 1. A method of producing electricity with alternating voltage, including the creation of a non-sinusoidal voltage, characterized in that the shape of the voltage curve in at least one of the sections is made in the form of a section of the line, which forms the surface of a straight circular cone and secant plane, not passing through its top.  2. The method according to claim 1, characterized in that the shape of at least one of the sections of the voltage curve is made in the form of another fragment of a conical section of a straight circular cone.  3. The method according to any one of claims 1 and 2, characterized in that the shape of at least one of the sections of the voltage curve is changed aperiodically.  4. The method according to any one of claims 1 to 3, characterized in that the shape of at least one of the sections of the voltage curve is changed periodically.