Systems. Methods. Technologies 3 (43) 2019

Системы Методы Технологии. Г.А. Большанин и др. Прогнозирование напряжений … 2019 № 3 (43) с. 63-73 73 References 1. Zakaryukin V.P., Kryukov A.V. Complex symmetric mod- es of electrical systems. Irkutsk: Izdatel'stvo Irkut. gos. un-ta, 2005. 273 p. 2. Arrilaga Dzh., Bredli D., Bodzher P. Harmonics in electric- al systems: Per. s angl. M.: Energoatomizdat, 1990. 320 p. 3. Zhezhelenko I.V. Electricity quality indicators and their control in industrial enterprises. 3-e izd., pererab. i dop. M: Ener- goatomizdat, 2000. 252 p. 4. Bol'shanin G.A. Distribution of low-quality electric energy in sections of electric power systems. V 2-h kn. Bratsk: BrGU, 2006. 807 p. 5. Misrihanov M.Sh., Popov V.D., Yakimchuk N.N., Medov R.V. The interaction of double-circuit overhead lines and their impact on the modes of electrical systems // Elektricheskie stancii. 2001. № 2. P. 52-58. 6. Ryzhov YU.P. Long-range ultra-high voltage power trans- mission. M.: Izdatel'skij dom MEI, 2007. 488 p. 7. Kostenko M.V., Perel'man A.S., SHkarin YU.P. Wave processes and electrical interference in multi-wire high voltage lines. M.: Energiya, 1973. 272 p. 8. Electrical reference book in 4 v. V.3. Production, transmis- sion and distribution of electrical energy / Pod obshch. red. pro- fessorov MEI V.G. Gerasimova i dr. (gl. red. A.I. Popov). 9-e izd., ster. M.: Izdatel'stvo MEI, 2004. 964 p. 9. Handbook of power supply and electrical equipment of in- dustrial enterprises and public buildings / Pod obshch. red. profes- sorov MEI (TU) S.I. Gamazina, B.I. Kudrina, S.A. Cyruka. M.: Izdatel'skij dom MEI, 2010. 745 p. 10. Myul'baer A.A.Specificity of induced voltage calculation in the disconnected circuit of a double-circuit overhead electric power transmission line // Scientific Bulletin of NSTU. 2016. T. 64, № 3. P. 146-160. 11. Gasanenko L.B. The impedance of the field of low- frequency rectilinear current, raised above the horizontally layered ground // Elektromagnitnoe zondirovanie i magnitotelluri- cheskie metody razvedki. L.: Izd-vo LGU, 1968. P. 47-58. 12. Kostikov V.U., Puchkov G.G. Algorithm and program for calculating on a digital computer the coefficient of mutual induc- tion wire - dipole on the surface of horizontally layered earth // Vliyanie vneshnih elektromagnitnyh polej na linii svyazi. Eksplu- atacionnye pokazateli svyazi. Omsk, 1973. P. 18-24. 13. Panova E.A., Al'brekht A.YA. Specified Per-Unit Parame- ters of Double-Circuit 110 kV Overhead Lines for Distant Fault Location // Electrotechnical Systems and Complexes. 2016. № 4 (33). P. 35-40. 14. A. Mason, I. Zamera, J. Gracia, K. Sagastabeitia, P. Eguia, F. Jurado, et. al. Fault location system on double circuit twoter- minal transmission lines based on ANNs // Proceeding of 2001 IEEE Porto Power Tech Porto. vol. 3. 2001. P. 5. 15. Bulatnikov M.V., Kadomskaya K.P., Kandakov S.A., La- vrov YU.A. Determining the Primary LongitudinalParameters of Overhead and Underground Power Linesthrough the Calculation of the Electromagnetic Fiel // Electrichestvo (Electricity). 2016. № 5. P. 17-24. 16. Kostenko M.V. Mutual resistance between air lines taking into account the surface effect in the earth // Electrichestvo (Elec- tricity). 1955. № 10. P. 29-44. 17. Kalantarov P.L., Cejtlin L.A. Inductance Calculation: Spravochnaya kniga. L.: Energoatomizdat, 1986. 488 p. 18. SHelyuk S.N., Suvorov A.A. Determination of parameters of a transmission line equivalent circuit taking into account trans- verse conductivity // Materialy shestoj Vserossijskoj nauchno- tekhnicheskoj konferencii «Energetika: ekologiya, nadezhnost', bezopasnost'». Tomsk: TPU, 2000. T. 1. P. 39-41. 19. Duggan Eammon, Morisson Robert. New technique is de- veloped to determine harmonic impedance // Transmiss and Dis- trieb. Int., 1992, 3, № 2. P. 32, 34. 20. Fajbisovich V.A. Determination of parameters of electric- al systems: New methods for experimental determination. M.: Energoizdat, 1982. 120 p. 21. Mel'nikov N.A., Rokotyan S.S., SHerencis A.N. Design of the electrical part of the overhead power line 330-500kV / Pod obshch. red. S.S. Rokotyana. 2-e izd. pererab. i dop. M.: Energiya, 1974. 474 p. 22. Bol'shanin G.A., Bol'shanina L.YU . Parameters of a three- wire power line. Eight-terminal method. Bratsk: Izd-vo BrGU, 2013. 265 p. 23. Bol'shanin G.A., Bol'shanina L.YU . Using eight-pole theory for power transmission analysis / LAP LAMBERT Aca- demic Publishing GmbH & Co. KG Heinrich-Böcking-Str. 6-8, 66121 Saarbrücken, Germany. Saarbrücken, 2014.145 p. 24. Bol'shanin G.A. Electric power transmission through power lines of one-, two- and three-wire versions. Bratsk: Izd-vo BrGU, 2016. 313 p. 25. Krotkov I.N. Accurate measurements of electrical capacit- ance and inductance. Schemes, methods, standards. M.: Standar- tizdat, 1966. 272 p. 26. Bol'shanin, G.A, Bol'shanina, L.YU . The method for de- termining the primary and generalized secondary parameters of a homogeneous section of a three-wire power line by the eight- terminal method. Pat. 2522829 Rossijskoj Federacii MPK G 01 R 27/02.; zayavitel' i patentoobladatel' Bratskij gosudarstvennyj universitet. №2013101260/28; zayavl. 10.01.2013; opubl. 20.07.2014. 27. Bol'shanin G.A. Distribution of reduced quality electrical energy over a homogeneous three-phase three-wire section of an overhead power line // Scientific Bulletin of NSTU. 2009. № 4 (37). P. 135-144. 28. Bol'shanin G.A., Bol'shanina L.YU . Prediction of voltages and currents on a homogeneous section of a three-wire power line. Bratsk: FGBOU VPO «BrGU», 2014. 138 p.