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Sharyakova Olga L.

Position

Associate professor

Academic degree

PhD of Engineering Sciences (1998)

Academic title

Associate professor

Faculty

Faculty of Environmental Engineering and Municipal Services

Department

Visiting address

2/5, Egorova Str., St Petersburg

Correspondence address

4, 2nd Krasnoarmeiskaya Str., St Petersburg, 190005

Phone +7 (812) 316-80-40
E-mail o_l_shar@mail.ru

Basic information

Education

SpecialtyAutomation of Technological Processes and Production QualificationElectrical Engineer (Saint Petersburg Machine Engineering Institute, 1993)

Professional development

  • Development of basic and additional professional programs based on professional standards (State Academy of Industrial Management after N. P. Pastukhov, 2017)
  • The pedagogical space of the university: technologies, meanings, values ​​(SPbGASU, 2018)
  • Information modeling in construction (SPbGASU, 2018)
  • Development and implementation of electronic courses in the educational process on the LMS Moodle platform (SPbGASU, 2018)
  • Life safety (SPbGASU, 2018)
  • Features of teaching disabled people and people with health disorders in a technical university (SPbGASU, 2018)
  • Anti-corruption (for teachers) (SPbGASU, 2018)

Retraining

  • Electric Power and Electrical Engineering (National Academy of Modern Technologies)

Teaching

  • Theory of automatic control
  • Theoretical foundations of electrical engineering
  • Power supply

Professional interests

  • Scientific research
  • Curriculum development
  • Laboratory work organization
  • Improvement of teaching methods
  • Academic programs development
  • Student theses supervision

Research interests

  • Imitation models of electromechanical systems
  • Vibration machines transport management systems
  • Dynamics of double-current electric drive systems
  • Testing imitation models of energy saving technologies

Scientific conferences

Olga Sharyakova has participated in 8 scientific conferences.

Publications

Olga Sharyakova is the author and co-author of 33 published scientific and educational works, including one classified by the Academic Methodological Association on automated engineering (co-authorship), 21 scientific articles, and 11 study guides (co-authorship).

The most significant publications

Textbooks

  1. Sharyakov, V. A. Fundamentals of electrical engineering - power electronics: textbook / V. A. Sharyakov, O. L. Sharyakova, V. M. Shestakov. - St. Petersburg: Publishing house of the St. Petersburg Polytechnic University, 2011.
  2. Reznichenko, V. V. Linear automatic control systems: study guide / V. V. Reznichenko, O. P. Tomchina, O. L. Sharyakova. - St. Petersburg: SPbGASU, 2018.
  3. Sharyakova, O. L. Calculation of the power reserve of an electric vehicle depending on the type and capacity of the energy storage device: guidelines for calculation and graphic work / O. L. Sharyakova. - St. Petersburg: SPbGASU, 2018.
  4. Theory of automatic control. Linear systems: teaching aid for laboratory work / D. A. Kovalev, O. P. Tomchina, V. A. Sharyakov, O. L. Sharyakova; Higher School of Technology and Energy of St. Petersburg state un-ty of industrial technologies and design. - St. Petersburg: Publishing House of the Higher School of Economics SPbGUPTD, 2019.
  5. Kovalev, D. A. Theory of automatic control: a textbook / D. A. Kovalev, V. A. Sharyakov, O. L. Sharyakova; Higher School of Technology and Energy of St. Petersburg state un-ty of industrial technologies and design. - St. Petersburg: Publishing house of the Higher School of Economics SPbGUPTD, 2020.
  6. Theory of automatic control: teaching aid for course design / D. A. Kovalev, V. A. Sharyakov, O. L. Sharyakova, I. A. Trukhanova; Higher School of Technology and Energy of St. Petersburg state un-ty of industrial technologies and design. - St. Petersburg: Publishing house of the Higher School of Economics SPbGUPTD, 2020.

Articles

  1. Blekhman I. I., Tomchina O. P., Yakimova K. S., Nagibina O. L. / Control of oscillations in electromechanical systems // Proc. Intern. Conf. On Informatics and Control, St-Petersburg: 972–979, 1997.
  2. B. P. Lavrov, O. P. Tomchina, V. M. Shestakov, O. L. Nagibina / Dynamics of electromechanical systems of vibrational installations // Electricity. - 2001. - No. 1. - pp. 31-36.
  3. V. M. Shestakov, A. E. Epishkin, O. L. Nagibina, D. V. Alekseev / Optimization of dynamic modes of operation of interconnected electromechanical systems of test vibration stands // Electromechanicks. - 2003. - No. 5.
  4. Sharyakov V. A., Sharyakova O. L., Bakshaev O. K., Movchan A. S. / Reseach on the possibility of increasing the efficiency of electric transmission on a shunting diesel locomotive using energy storage devices // Lokomotiv-inform. - 2010. - No. 11. - p. 10.
  5. V. A. Sharyakov, O. L. Sharyakova, A. V. Agunov, A. V. Tret'yakov / Possibilities of sustainable utilization of braking energy of electric rolling stock // Electrical engineering. – 2018. – No. 10. – pp. 55–59.
  6. V. A. Sharyakov, O. L. Sharyakova, A. V. Agunov, A. V. Tret’yakov / Possibilities of Sustainable Utilization of Braking the Energy of Electric Rolling Stock // Russian Electrical Engineering. October 2018, Volume 89, Issue 10, pp 607–611.
  7. Satsuk, T. P., Sharyakov, V. A., Sharyakova, O. L., Kovalev, D. A., Vorob’ev, A. A., & Makarova, E. I. (2021). Erratum to: Automatic voltage stabilization of an electric rolling stock catenary system (russian electrical engineering, (2021), 92, 4, (213–216), 10.3103/S1068371221040052). Russian Electrical Engineering, 92(6), 349. doi:10.3103/S1068371221300015
  8. Satsyuk, T. P., Sharyakov, V. A., Sharyakova, O. L., Kovalev, D. A., Vorob’ev, A. A., & Makarova, E. I. (2021). Automatic voltage stabilization of an electric rolling stock catenary system. Russian Electrical Engineering, 92(4), 213–216. doi:10.3103/S1068371221040052
  9. Satsuk, T. P., Sharyakov, V. A., Sharyakova, O. L., Lebedeva, V. A., Makarova, E. I. (2021). On the Use of Traction Batteries for Autonomous Urban Electric-Transport Substations. Russian Electrical Engineering, 92 (10), pp. 572–576. DOI: 10.3103/S1068371221100163

Patents

  1. The method of starting an electric motor that drives an unbalanced rotor / Shestakov V. M., Tomchina O. P., Sharyakova O. L. [et al.]. Patent for invention No. 2161076 dated December 27, 2000.

Achievements

Patents

  1. The method of starting an electric motor that drives an unbalanced rotor / Shestakov V. M., Tomchina O. P., Sharyakova O. L. [et al.]. Patent for invention No. 2161076 dated December 27, 2000.