Power engineering

615 views

Published on

Published in: Technology, Business
0 Comments
0 Likes
Statistics
Notes
  • Be the first to comment

  • Be the first to like this

No Downloads
Views
Total views
615
On SlideShare
0
From Embeds
0
Number of Embeds
2
Actions
Shares
0
Downloads
5
Comments
0
Likes
0
Embeds 0
No embeds

No notes for slide

Power engineering

  1. 1. Faculty of Electrical Engineering
  2. 2. Future research directions and cooperation in the fields of ELECTRICITY ELECTRIC ENGINEERING THERMAL ENGINEERING E-mail: golgovskih@vyatsu.ru, etf_dekanat@vyatsu.ru Ph.: +7 (8332)53-04-81, 53-81-20 Faculty of Electrical Engineering Dean - PhD, Assoc. Prof., Golgovskykh Аlexander Vladimirovich
  3. 3. Future research directions and cooperation in the field of energy saving ELECTRICITY E-mail: basmanov@vyatsu.ru Ph.: +7 (8332)530274 Department of Electrical supply Head of The Department - PhD,Assoc.Prof., Basmanov Vladislav Gennadyevich
  4. 4. Investigation of power quality problems in electrical power systems and enterprise networks Line of research involves solving the problem of increasing energy efficiency in the transport and distribution of electrical energy by reducing the negative impact of consumers with abruptly variable load on the parameters of quality of electric energy. There is a minimum of required equipment to perform the research. On this subject were defended three Ph.D. thesis, also there are 6 patents. Expected results - recommendations to reduce the potential negative impact of voltage fluctuations that arise while abruptly variable load working; - project of manufacturing instructions (possibly standard organization) regulating sharing food of abruptly variable industrial loads and residential customers; - assessment methodology of household devices and sources of abruptly variable load sharing power; - mathematical model of the steady state of higher harmonic components of the power distribution networks of power; - guidance on accounting for the higher harmonic components of the voltage and current at the point of common coupling. Achieved results
  5. 5. Main publications • Cherepanov V.V., Derendayeva L.V. Mathematical model of the mode of the higher harmonics of power distribution networks. «Problems of power» №7-8.-Kazan,2007.– pp.51-57. • Cherepanov V.V., Derendayeva L.V. Method of calculation of the higher harmonics at the point of connection of consumers to the distribution network of power. «Mechanization and Electrification of Agriculture» №4, 2008. – Moscow, 2008. - pp. 10-12. • Cherepanov V.V., Derendayeva L.V. Calculation of the parameters of non-sinusoidal regimes in the point of common connection. «Perspectives of Science», №9 (24).-Tyumen, 2011. - pp. 101-105. • Bessolitzyn А.V., Bakshaeva N.S., Votintzev А.V., Кalinina Е.А. Influence of power equipment on changes of voltage fluctuations in the electricity system. «Perspectives of Science». №11 (38).- Tyumen, 2012. - pp. 109-117.
  6. 6. • Bakshaeva N.S. Study of the possibility of joint supply household consumers with abruptly variable loads of typical sawmill production plants. «Electrician» № 7. Moscow, «Science and Technology», 2012. - pp.4-10. • Bakshaeva N.S study of voltage fluctuations at different levels of power supply systems, created at work of abruptly variable loads in wood processing production. «Electrician» № 8. Мoscow, «Science and Technology», 2012. - pp. 12-21. • Bessolitzyn А.V., Bakshaeva N.S., Votintzev А.V., Кalinina Е.А. Experimental studies of abruptly variable loads on the tires of 0.4 kV transformer substation, power supply fluctuations and municipal customers. «Energy security and conservation», №6. Moscow, 2012. - pp. 40-45. Main publications
  7. 7. Reactive power compensation in enterprises power systems The proposed research project aims to reduce electricity losses during transportation, distribution and consumption of electrical networks of industrial enterprises through the application of new approaches to the generation and consumption of reactive power and voltage level in the electrical network. On the subject was protected one master's thesis, there is one patent for utility model (developed adaptive control of reactive power), developed a mathematical model of adaptive control of reactive power capacitor bank. Expected results - model, an algorithm, a computer program for the optimum amount of power and speed range switching capacitor bank of steps; - research methodology for choosing the optimal number of stages and the power of capacitor bank; - research methodology for choosing the optimal interval switching capacitor of bank steps; - method of selecting the optimum amount of power levels and range switching capacitor of bank steps; - mathematical model, the algorithm of the system of centralized control consumption and the generation of reactive power and voltage control. Achieved results
  8. 8. 1. Cherepanov V.V., Basmanov V.G. On the need for reactive power controller using prediction. «Problems of power» №11-12 -Кazan, 2006. - pp. 38-40. 2. Cherepanov V.V., Rebro I.I., Basmanov V.G. Adaptive controller of reactive power. Utility patent № 61481, МПК H 02 J 13/00, G 05 F 1/00; 14.11.05; № 6. 3. Basmanov V.G., Poroshin D.А. Development of optimal control system generation and consumption of reactive power in power systems of industrial enterprises in order to reduce power losses during transport, distribution and consumption. «Energy security and conservation». №1 – Moscow, 2013. 4. Basmanov V.G., Poroshin D.А. Mathematical model of adaptive control of reactive power and the results of its application to the study for the optimum gear change interval capacitor banks. «Electrician». - №7. – Moscow, «Science and Technology», 2012. - pp.2-7. Main publications
  9. 9. Specialists training 1. Ozhegov А.N. , dissertation topic: «Development of methods for calculating the non-sinusoidal mode power supply systems of industrial enterprises»(2004). 2. Basmanov V.G., dissertation topic: «Development of a set of electrical controls power consumption of household consumers» (2006). 3. Derendayeva L.V., dissertation topic: «Development of methods for calculating the non-sinusoidal voltage at the point of common coupling» (2010)
  10. 10. Main partners 1. Moscow Power Engineering Institute, Department «Power supply of industrial enterprises». 2.Kazan State Power Engineering University, Department «Electrical equipment and electrical equipment of companies, organizations and institutions». 3. Togliatti State University, Department «Power supply and electrical engineering» 4. Branch of Ufa State Oil Technical University, Salavat, Department «Electrical equipment and automation of industrial enterprises»
  11. 11. 5. JSC «VTK-Energo», Kirov 6. Kirov Regional State Unitary Enterprise «Agency of Energy Saving», Kirov 7. Branch of«Kirovenergo» JSC «MRSK Center and Volga Region» 8. Ltd. «Energosnab», Kirov 9. JSC «StroyEnergoМоntazh» Main partners
  12. 12. Department of Electric power systems Head of the Department - PhD, Assoc. Prof., Vilner Аlexander Viktorovich Email: vilner@vyatsu.ru, kaf_ees@vyatsu.ru Ph.: +7 (8332)530492 Future research directions and cooperation in the field of energy transfer
  13. 13. Study of technologies and models to predict daily Load energy in an unstable inertia energy to refine the design values Study of characteristics of the wires of the new generation for overhead power lines of high and extra-high voltage Areas of research
  14. 14. The study of technologies and models to predict daily load energy in an unstable inertia energy to refine the design values Conducting research correlations regime and climatic parameters in order to determine the response lag changes in load to changing climatic factors. The analysis of the application of the theory of approximation and the use of neural networks to the prediction of daily energy load values ​​for the changes in climatic conditions for periods of stable and unstable inertia of energy consumption; developed a methodology and calculations were made to determine the natural oscillations of the power system. Expected results • Depending on the influence of external conditions on the hourly and daily values energy consumption in the system with distributed weak links; • Recommendations for operating industry-specific software complexes to refine the calculations of daily energy consumption; • The technique that allows to increase the accuracy and reliability of the calculations forecasting energy consumption in the context of an acute shortage of energy resources. Achieved results
  15. 15. Main publications 1. N.G.Repkina, I.V. Аraslanova / eural network technology in predicting energy consumption /Mechanization and Electrification of Agriculture,2008,№4,с.12-13 2. Repkina N.G./ Study of the statistical estimates of energy consumption [electronic resource]/ N.G.Repkina, А.V.Balsis// Society, science, innovation (2011) Annual Open All-Russian Scientific and Technical Conference, sourcebook. 3. Repkina N.G., Kulikov Е.V. /Statistical analysis of daily energy consumption [electronic resource]/ N.G.Repkina, Kulikov Е.V.// Society, science, innovation (2012) Annual Open All-Russian Scientific and Technical Conference, sourcebook.
  16. 16. Investigation of the characteristics of a new generation of conductors for overhead power lines of high and very high voltage The study of mechanical, electrical, and technical and economic parameters of power transmission lines, made bare wires of new brands (heat-resistant, compact, with a core of basalt and carbon), produced by JSC “Kirscable”.
  17. 17. Achieved results 1. An assessment of the economic efficiency of power transmission lines, made bare wires to the compact core increased mechanical strength. 2. Defined technical and economic indicators of using bare wire compact with basalt core. 3. The method of calculating the temperature and the current carrying wires overhead transmission lines, taking into account current loads, heating, solar radiation, air temperature, wind speed and direction. Funding and implementation New type of bare conductors for overhead power lines of high and very high voltage, combining the best qualities of the previously developed brands wires. Expected results The direction of research is funded by the JSC "Kirscable.“ There also will be implemented research results.
  18. 18. 1. Vikharev А.P. The calculation of temperature wires overhead transmission lines, taking into account current load, speed and temperature // Russia annual Scientific and Technical Conference «Society, science, innovation» (2012), sourcebook. 2. Cherepanov G.А., Аraslanova О.Sh. Defining the scope of heat-resistant steel- aluminum wire // Russia annual Scientific and Technical Conference «Society, science, innovation» (2012), sourcebook. Main publications
  19. 19. Study of surges in electric power systems, networks, power systems • study of ferroresonance processes in networks; • study of switching surges; • development of measures to protect the equipment against overvoltage, the rationale for the characteristics of non-linear surge.
  20. 20. 1. Vasyura Yu.F., Vilner А.V., Vychegzhanin А.V. Features of surges to earth faults in networks with current limiting reactors // Sourcebook, Kirov, 2007, pp. 323-327. 2. Vasyura Yu.F., Vilner А.V., Vychegzhanin А.V. A practical example of ferroresonance processes in an air network 35 kV // National Annual Scientific Conference «Society, science, innovation» (2011): sourcebook. 3. Vasyura Yu.F. The reasons for "multi" damage in networks with high-voltage motors // National Annual Scientific Conference «Society, science, innovation» (2012): sourcebook. 4. Bannikov S.О., Vasyura Yu.F. Calculation of earth fault currents in networks with resistance neutral earthing related mutual capacitance double circuit transmission line // National Annual Scientific Conference «Society, science, innovation» (2012): sourcebook. Main publications
  21. 21. JSC "Kirscable" JSC "Kirovenergo" Main partners
  22. 22. Department of Electric Power Stations Head of the Department - PhD, Assoc. Prof, Novikov Alexey Viktorovich Future research directions and cooperation in the field of electric power systems reliability E-mail: kaf@elst.kirov.ru http://es.etf.vyatsu.ru Ph.: +7 (8332)530890
  23. 23. Areas of research The study of symmetric and asymmetric modes of operation of electric power systems Development of instruments and equipment for the measurement and testing of electrical equipment and structural elements of energy facilities Evaluation of equipment electromagnetic compatibility
  24. 24. The study of symmetric and asymmetric modes of electric power systems operation Main subjects: • Evaluation of the possibility of overhead lines transfer in the load unbalance mode to ensure uninterrupted power supply to consumers; • Study of safe operation conditions under the influence of the induced voltage; • Definition of fault location in overhead power lines. Expected results: • Reducing damage from the electricity undersupply to consumers; • Reducing injuries among staff serving overhead lines and substations; • Reducing the duration of an emergency outage overhead; • Improving the reliability of power supply.
  25. 25. Development of instruments and equipment for measurement and testing of electrical equipment and components of energy facilities Main subjects: • Reducing labor costs and performance time in determining the status of power lines; • Determination of conditions of security personnel while working on overhead lines; • Getting Information for the planning of for the planning of transformer equipment repairs. Expected results: • Improving the reliability of power supply; • Reducing damage from accidental equipment failure; • Reducing damage from the undersupply of electricity.
  26. 26. valuation of the electromagnetic compatibility of equipment Main subjects: • Performing measurements of electric and magnetic fields in the electric power facilities. • Creating a software package for the numerical calculation by finite element distribution pattern of the electromagnetic field in difficult conditions. • Development of recommendations to ensure the electromagnetic compatibility of equipment and safety on existing and planned facilities. Dissertation: Bessolitsyn А.V. Field methods for determining the electrical parameters of overhead power lines. Saint Petersburg, 2010 Expected results • Energy companies that operate high-voltage equipment. • Research and development organizations. • High school.
  27. 27. • Creating a program for calculation of the permissible duration of the overload of power transformers in the post-emergency conditions; • Determination of the possible relocation of 110 kV branch of JSC "DRSC" "Khabarovsk EN" in the load unbalance mode; Achieved results • Study the conditions of the safety of personnel working on the disabled 35-110-220 kV overhead line under the induced voltage; • Development and production of experimental design sample instrument for measuring the spreading resistance current grounding device supports 110 kV without disconnecting the overhead ground wire
  28. 28. Main publications Year Authors Name Output 2011 Bessolitsyn А.V., Golgovskykh А.V., Novoselova О.А., Khoroshinina Е.N. Calculation of the electric field near the stranded wires Mechanization and Electrification of Agriculture. 2011. №3 2010 Bessolitsyn А.V., Popov М.G., Khoroshinina Е.N. Using three-dimensional numerical calculation of electrostatic fields for the self and mutual capacitances of wires overhead line Scientific and technical sheets of the St. Petersburg State Polytechnic University. 2010. 2. 2010 Bessolitsyn А.V., Popov М.G., Novoselova О.А. Development of methodology for the numerical calculation of the longitudinal parameters of the air lines on the basis of three- dimensional boundary-value problem Scientific and technical sheets of the St. Petersburg State Polytechnic University. 2010. 2 2008 Golgovskykh А.V. Diagnosis of rods cage rotor induction motor. Mechanization and Electrification of Agriculture, 2008. № 4. pp.26-27. 2008 Petrov N.V. Vibrational stability of the system voltage control group in the distribution of reactive power between generators of electric station. Mechanization and Electrification of Agriculture, 2008. № 4. pp.18-19. 2008 Popov V.A., Bessolitsyn А.V. Error in the calculation of mutual induction between the wires overhead lines. Mechanization and Electrification of Agriculture, 2008. № 4. pp.14-16. 2008 Popov V.A., Bessolitsyn А.V., Кalinina Е.А. Calculation of resistance of steel-aluminum wires with a single aluminum wire helix. Mechanization and Electrification of Agriculture, 2008. № 4. pp.16-17. 2008 Popov V.A., Мedov R.V., Bessolitsyn А.V. The measurement and calculation of the induced voltage on the disconnected line 500 kV Mechanization and Electrification of Agriculture, 2008. № 4. pp.27-28. 2008 Repkin N.G., Аraslanova I.V. Neural network technology in predicting energy consumption. Mechanization and Electrification of Agriculture, 2008. № 4. pp.12-13. 2008 Barg I.G., Bessolitsyn А.V. About the safety of personnel working on the disabled 35-220 kV under the induced voltage Energetic, 2008. №5. pp. 23-27.
  29. 29. JSC "IDGC of Center and Volga Region" JSC "Company ORGRES" JSC "Far-Eastern Distribution Company" Main partners Saint-Petersburg State Polytechnic University
  30. 30. Department of electrical engineering and electronics Head of the Department – Dr., Prof. Кrasnykh Аlexander Аnatolyevich ELECTRICAL ENGINEERING Future research directions and cooperation in the field of: - ozonation equipment; - electrical safety devices electronic control hazards at the power. E-mail: kaf_eie@vyatsu.ru www.ebp.ru Ph.: +7 (8332)358657
  31. 31. Development of electronic control of electrical safety devices hazards at the power • For the last period on the basis of material obtained in the course of research, a whole range of electronic devices. • On the part of the development, after their trial operation in electric power utilities, testing, including and in the organs of the State Standard of the Russian Federation, there are certificates.
  32. 32. Development of electronic control of electrical safety devices hazards at the power 2 1
  33. 33. Medical ozone generators • The development allows to implement ozone therapy in the prevention and treatment of many diseases, including infectious ones, and in the beauty industry. Developments in the field of ozone therapy have been conducting in the Vyatka State University since 1973. Several medical ozone generators prototypes were created already. Medical ozone generator can generate ozone with a given concentration. • Project phase : prototype is done • Required funding : 50000 euro • Items of expenditure: production licensing, start of production. • Eventual result: Medical ozone generators manufacturing production. • Payback period: 2 years.
  34. 34. Department of electrical machinery and devices Head of the Department - PhD, Assoc.Prof., Honored Worker of Higher Education, Izotov Аnatoly Мikhaylovich E-mail: izotov@vyatsu.ru, kaf_ema_vgu@bk.ru Ph.: +7 (8332) 530473 Future research directions and work together to improve the reliability of systems moving current collector in electrical machines, as well as in the design of asynchronous motors for control of electric drives
  35. 35. ● Increased switching reliability of collector cars AC and DC through the use of nanotechnology Head of scientific direction – А.I. Izotov ● Research and design of induction motors for frequency-controlled electric energy Head of scientific direction – V.Ya. Bespalov Areas of research
  36. 36. Increased switching reliability of collector cars AC and DC through the use of nanotechnology Research work subject: Increased life and reliability of brush-collector assemblies and systems of electric cars rolling current collection of AC and DC. Research tasks: - development of techniques aiming politurnyh nanofilms on the collectors and slip rings electrical machinery DC and AC and nanofilms by using lubricating brushes on the basis of molybdenum disulphide. - development of technology in industrial production of lubricating brushes.
  37. 37. 1. Izotov А.I., Маmaev G.А., Bespalov V.Ya., Nikulin S.V., Тimoshenko V.N. / Improvement of characteristics of electrical machines by using lubricants brushes, made on the basis of molybdenum disulphide / Electrical engineering, № 6, 2007. 2. Izotov A.I., Mamayev G.A., Bespalov V.Ya., Legotin A.B., Timoshenko V.N. / Wear and tear reducing of carbon brushes of hermetically sealed electric machines / Mechanization and Electrification of Agriculture № 4, 2008, pp. 24-26. 3. Izotov A.I., Bespalov V.Ya., Mamayev G.A., Shabardin V.A, Nikulin S.V. / The use of lubricants brushes to increase of durability of collectors of electrical machines / Mechanization and Electrification of Agriculture № 4, 2008, pp. 19-21 Main publications
  38. 38. 4. Izotov A.I., Mamayev G.A., Nikulin S.V., Timoshenko V.N. / Wear and tear reducing of brushes of aircraft generator / Electricity, № 11, 2012, pp.60-62. 5. Patent / The collector AC electric machine / Izotov А.I.; registered 10.01.2007. 6. Patent / The brushes collector assembly of AC collector electric machine / Izotov А.I., Mamaev G.А., Shabardin V.А., Тimoshenko V.N., Novikov L.I, registered 27.10.2007. 7. Patent / The brushes collector assembly / Mamaev G.А Shabardin V.А., Izotov S.А., Nikulin S.V., Тimoshenko V.N., registered 10.02.2010. Main publications
  39. 39. Subject: Creating methods of optimal design and management for special induction motors operating in the frequency-controlled motor drives Research and design of induction motors for frequency-controlled electric energy Research tasks : - Creation of mathematical models for the calculation of static and dynamic modes of induction motors. - Development of methodology for optimal design of special induction motors with high power conditions. - Development of algorithms and structures of the optimal management of special induction motors АД. Executives - V.Ya. Bespalov, PhD, Assoc.Prof., Alexander Vyacheslavovich Shestakov E-mail: shestakov@vyatsu.ru, AlexVS1975@yandex.ru Ph.: +7 (8332) 530473
  40. 40. The technique and software for the calculation of performance and energy was performed for frequency-controlled induction motors, as well as a program that allows you to simulate the dynamic conditions for frequency-controlled induction motors. Achieved results
  41. 41. The results of research should be a method of optimal design and management for special frequency-controlled induction motors. The introduction of this technique will significantly reduce the cost of designing and operating costs of frequency-controlled induction motors which have the ability to optimally manage the flow of electricity, which plays an important role in energy conservation. The opportunity to become the basis for a small business The organization of consulting services to various companies for choosing frequency-controlled induction motor drives. Development and implementation of software for the design, testing and modeling of asynchronous motors for inverter-driven motor. Expected results
  42. 42. 1. Bespalov V.Ya., Maksimkin V.L., Antonenkov A.V. / Application of artificial neural networks to research the asynchronous motor under a stochastic load / “Electromechanics”, № 1, 2008, pp. 57-59. 2. Bespalov V.Ya., Kachalina Ye.V. / Comparative characteristics of asynchronous motors with three-phase and two-phase windings for frequency-controlled electric drive / Electricity, 2010, № 7 – pp. 45-48. 3. Shestakov A.V. / Mathematical model of performance data of asynchronous motors with frequency control / Electrical engineering, – №2, 2011. – pp. 23-29. 4. Certificate of state. registration of computer software № 201161490 / Electronic stand simulator “Analysis of three-phase induction motor” / Shestakov A.V., Maksimov V.V., registered 22.06.2011. 5. Shestakov A.V., Koublikov A.N. / Parameters optimization of the frequency operated asynchronous motor by methods of experiment planning / Electronic scientific journal Advanced Science №1, 2012. pp. 55 – 72. http://www.vyatsu.ru/uploads/file/1301/1_red.pdf Main publications
  43. 43. - JSC «Electroprivod» (Kirov) - JSC«Aerosila» (Stupino) Main partners - Mamaev Gennadiy Aleksandrovich – General manager JSC "Electric Machine Plant LEPSE“, PhD; - Starkov Yuriy Alekseevich – deputy technical Director JSC "Electric Machine Plant LEPSE“; - Bespalov Viktor Yakovlevich – Vice-President of the Academy of Electrical Science of the Russian Federation, Dr., Professor of the Department of Electromechanics in Moscow Power Engineering Institute;
  44. 44. Department of Thermal Engineering and Hydraulics Head of the Department – Dr., Professor, Efros Evgeny Isaakovich • development of methods and carrying out industrial research of power equipment in variable modes; • development on the basis of the newly acquired knowledge of mathematical models of power plants to optimize their performance in a variable modes; • theoretical study of the influence of various factors on the operational efficiency of the power plants; • development and supervision of the implementation of the technical proposals on the modernization of the main and auxiliary power equipment, optimization of its performance. THERMAL POWER ENGINEERING
  45. 45. Department of Physics Head of the Department - PhD, Assoc.Proff., Grebenshchikov Leonid Timofeevich Future research directions and cooperation in the field of fuel combustion E-mail: grebenshikov@vyatsu.ru, kaf_fizika@vyatsu.ru Ph.: +7 (8332)350133
  46. 46. Thermal radiation in engines and power plants During the studies were organized technology and developed methods of computer simulation for the integrated study of radiation characteristics and emission characteristics of combustion products for power plants, rocket motors and internal combustion engines. Head – Dr.., Professor Кuzmin Vladimir Аlekseevich E-mail: kaf_fizika@vyatsu.ru Ph.: +7 (8332)350133
  47. 47. Thermal radiation in rocket engines СоплоКамера сгорания Срез сопла Tк L Tк Tк.ст. Tк.ст. Ядро Tс L Распределение температур в камере сгорания Исследуемый объем Исследуемый объем Fig. 6 - Diagram of a high- Installation - SRM (combustion chamber and nozzle cut) Project: "Study of the thermal radiation in model engines " Objectives: 1) study of the spectral composition of the radiation model engines; 2) increasing the accuracy of the calculation of the spectral and integral characteristics of radiation model engines. Expected results : • data bank on dispersion, optical properties and radiation characteristics of the combustion products; • creation of a method to calculate the spectral emission characteristics of the combustion products of model engines; • study the influence of the gas and condensed phases on the emission characteristics of heterogeneous combustion engine model; • influence of initial parameters on the accuracy of the calculation of the spectral and integral characteristics of radiation.

×