Scientific and Technical Journal


ISSN Print 2221-3937
ISSN Online 2221-3805
An original mathematical approach to simulation of the power transmission is proposed, which relies on modern quantum physics and gives the concept of the physics of processes that occurs when electric power is transmitted to industrial and, equated to them, to electric power consumers, whose electrical receivers converting the electrical energy of synchronous generators of power plants at a nominal voltage of 0.4 kV electric power systems into electromagnetic energy of this kind, which can perform a useful work of a particular kind: the circle um, svetyt, hreet. As is well known, at present, when modeling power supply systems for consumers (as legal entities) a mathematical design, that leans against the theorem of Пойтинга, that can be examined as a formally-mathematical model of such system, is used. Saving mathematics of the mentioned theorem, a modern mathematical model of the system of power supply is conditionally-mathematical, that considers the reactive constituent of electric power of the electroenergy system the separate type of energy, that is passed to the consumers and determines the volume of her consumption on the same values of loading and тоеа, what to the active-power, case-insensitive physics of their generuting. Obviously, that such model is conditionally-mathematical, in that mathematics substitutes physics functioning of the system (original). Therefore the really-mathematical model of electricity transmission that allows adequately (on the virtual values of loading) to determine negative influence of the reactive loading of consumers on the economy of the use of энергоресурсов in an electroenergy is applied in a robot. Leaning against physical bases and on mathematics of quantum (mathematical association physical the state of электрическиупругой of dielectric environment of the system in course of time such state), the really-mathematical model of the system of power supply, in that, is offered tensions distorted by a simultaneous action and current of conductivity of токоведущих parts of the system, the molecules of dielectric (квантоны) provide possibility of creation in the dielectrics of the system of the electromagnetic field that is her working instrument.

1. GOST 13109-97. Interstate standard. Electric Energy. Compatibility of technical means is electromagnetic. Norms of quality of electric energy in general-purpose power supply systems [Elektricheskaya energiya. Sovmestimost' tekhnicheskikh sredstv elektromagnitnaya. Normy kachestva elektri-cheskoy energii v sistemakh elektrosnabzheniya obshchego naznacheniya], Minsk: Standards Publishing House, 1998. - 31 sec.

2. Rules for the installation of electrical installations [Pravila ustroystva elektroustanovok ], H .: Publishing house "Fort", 2009. 704 p.

3. Bessonov, L. A. (1973) Theoretical Foundations of Electrical Engineering. Ed. 6th. Textbook for students. power. and electrotechnical. universities.[ Teoreticheskiye osnovy elektrotekhniki] - M .: Higher Education. school, 752 p.

4. Doroshenko, O. I. (2017) About modeling in electrical supply Electrical power and computer systems. Odessa, Astroprint,. - No. 25 (101). - P. 168‒176.

5. Kopylov, I. P. (2011) The Great Laws of Nature [Velikiye zakony prirody] Electricity. No. 4. - From 63‒66.

6. DSTU 2843-94. State standard of Ukraine. Electrical engineering. Basic concepts. Terms and definitions [Derzhavnyy standart Ukrayiny. Elektrotekhnika. Osnovni ponyattya. Terminy ta vyznachennya] / Kiev: Gosstandart of Ukraine, 1995. - 66c.

7. Landau, L. D.,Akhiezer, A. I., Lifshitz,       E. M. (1969) Course of General physics. Mechanics and molecular physics [Kurs obshchey fiziki. Mekhanika i molekulyarnaya fizika] M.: Izd. Nauka, Home edition physical and mathematical literature.–. – 399 p.

8. Bogoroditsky, N. P., Pasinkov, V.V., Tareev, B. M. (1985) Electrotechnical materials: A textbook for high schools. - 7th edition [Elektrotekhnicheskiye materialy: Uchebnik dlya vuzov] - L.: Energo-atomizdat, Leningr. - 304 с.

9. Leonov, V. S. (1996) Theory of an elastic quantized medium [Teoriya uprugoy kvantovannoy sredy] Mn . Bisprint,. - 156 p.

10. Leonov, V. S. (1997) Theory of an elastic quantized medium. Part 2. New energy sources. [Teoriya uprugoy kvantovannoy sredy. Chast' 2. Novyye istochniki energii.] Minsk: Polybig,- 122 p.

11. Venikov, V. A. (1985) System approach to the problems of electric power systems [Sistemnyy podkhod k problemam elektroenergeticheskikh sistem] Electricity. No. 6. P. 1‒4.

12. Electrotechnical means. Standards of quality of electric energy in power supply systems of general purpose [Text] / - Minsk: Standard Publishing, 1998. - 31 s
Last download:
28 Oct 2020

[ © KarelWintersky ] [ All articles ] [ All authors ]
[ © Odessa National Polytechnic University, 2014-2018. Any use of information from the site is possible only under the condition that the source link! ]