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Ру

Ignatchik Svetlana Yu.

Position

Professor

Academic degree

DSc in Engineering (2013)

Academic title

Associate professor (2004)

Faculty

Faculty of Environmental Engineering and Municipal Services

Department

Department of Water Use and Environment

Address

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

Phone +7 (812) 316-72-97
E-mail water@spbgasu.ru

Basic information

Education

Specialty:Water Supply and Sanitation

Qualification:Civil Engineer (Leningrad Civil Engineering Institute, 1989)

Professional development

  • Digital tools of a modern higher education teacher (SPbGASU, 2021, 36 hours)
  • Organization of architectural and construction design (ANO DPO "Academy of Certification and Advanced Training of Specialists, 2022)
  • Labour safety in educational institutions of higher education (SPbGASU, 2023)
  • General issues of labor protection and the functioning of the labor protection management system (Aktion University, 2023, 16 hours)
  • Providing first aid to victims at work (Aktion University, 2023, 16 hours)
  • Safe methods and techniques for performing work when exposed to harmful and dangerous production factors, hazard sources identified within the special safety standards and occupational risk assessment (Aktion University, 2023, 16 hours)

Teaching

  • Water removal and wastewater purification
  • Water supply and sanitation
  • Water resources management
  • Current issues of water use and water resources protection
  • Environmental management

Professional interests

  • Scientific research
  • Editorial and production
  • Improvement of teaching methods
  • Creation of monographs, articles, inventions

Research interests

  • Reliability, ecological and industrial safety supply and analysis in reconstruction and operations with wastewater cleaning and transportation systems.

Scientific conferences

Svetlana Ignatchik has participated in more than 30 scientific conferences.

Publications

Svetlana Ignatchik is the author of more than 125 published scientific and educational works.

The most significant publications

Articles

  1. Methods of optimization of the zoned water supply system / F. V. Karmazinov, G. A. Pankova, M. N. Ipatko, V. S. Ignatchik, S. V. Sarkisov, P. A. Putilin, S. Yu. Ignatchik // Water Supply and Sanitary Technique. – 2016. – No. 2. – P. 64–70.
  2. The results of experimental research of the unevenness of receipt of wastewater / A. P. Grinev, V. S. Ignatchik, V. S. Ivanovsky, N. V. Kuznetsova, S. Yu. Ignatchik // Proceedings of the Mozhaisky Military Space Academy. – 2015. – No.649. – P. 153–158.
  3. Method of evaluating the amount of emergency wastewater discharges into the environment / F. V. Karmazinov, G. A. Pankova, D. M. Mikhailov, V. S. Ignatchik, N. V. Kuznetsova, S. Yu. Ignatchik // Water Supply and Sanitary Technique. – 2016. – No. 6. – P. 49–54.
  4. Method of evaluating the risk and amount of emergency wastewater discharges into the environment / V. S. Ivanovsky, V. S. Ignatchik, N. V. Kuznetsova, A. P. Grinev, S. Yu. Ignatchik // Proceedings of the Mozhaisky Military Space Academy. – 2015. – No. 649. – P. 167–174.
  5. Optimization of the water disposal system / F. V. Karmazinov, M. D. Probirsky, V. S. Ignatchik, P. N. Kuznetsov, S. Yu. Ignatchik // Water Supply and Sanitary Technique. - 2017. - No. 1. - P. 40–45.
  6. Substantiation of the type of calculation model for assessing the reliability of sewer pumping stations of combined water disposal systems / V. S. Ignatchik, N. V. Kuznetsova, A. P. Grinev, S. Yu. Ignatchik // Water purification. - 2015. - No. 9. - P. 25–31.
  7. Methods for estimating surface runoff costs / F. V. Karmazinov, P. N. Kuznetsov, A. Ya. Feskova, S. Yu. Ignatchik // Water and ecology: problems and solutions. - 2018. - No. 2. - P. 26–35.
  8. Methodology for identifying unaccounted influxes of wastewater in drainage systems of military infrastructure facilities / V. S. Ignatchik, S. Yu. Ignatchik, N. V. Kuznetsova, M. A. Senyukovich // Military engineer. – 2020. – No. 4 (18). – P. 3–8.
  9. Results of an experimental study of the patterns of rainfall and the operation of surface runoff drainage systems at military infrastructure facilities of the Russian Ministry of Defense / V. S. Ignatchik, S. Yu. Ignatchik, N. V. Kuznetsova, M. A. Senyukovich // Questions of defense technology. Series 16: technical means of countering terrorism. – 2020. – No. 7–8 (145–146). – P. 124–129.
  10. Features of estimating calculated rain intensities taking into account extreme rainfalls / S. N. Volkov, A. I. Zhitenev, O. N. Rublevskaya, Yu. A. Kurganov, I. G. Kostenko, V. S. Ignatchik, S. Yu. Ignatchik, N.V. Kuznetsova, M.A. Senyukovich // Water supply and sanitary technology. – 2021. – No. 7. – P. 50–55.
  11. Assessing the effectiveness of mechanisms for eliminating flooding of urban areas with surface wastewater / S. N. Volkov, A. I. Zhitenev, O. N. Rublevskaya, Yu. A. Kurganov, I. G. Kostenko, V. S. Ignatchik, S. Yu Ignatchik, N.V. Kuznetsova, M.A. Senyukovich // Water supply and sanitary technology. – 2021. – No. 4. – P. 32–39.
  12. Surface runoff disposal systems: problems and solutions (in order of discussion) / S. N. Volkov, M. Yu. Lukyanchuk, A. I. Zhitenev, O. N. Rublevskaya, V. V. Erofeev, V. S. Ignatchik, S. Yu. Ignatchik, N. V. Kuznetsova // Water supply and sanitary technology. – 2022. – No. 7. – P. 53–60.
  13. Results of experimental studies of uneven distribution of rain intensity over areas / S. Yu. Ignatchik, A. Ya. Feskova, V. S. Ignatchik, N. V. Kuznetsova // Bulletin of Civil Engineers. – 2023. – No. 2 (97). – P. 92–102.
  14. Methods and results of assessing the parameters of calculated rainfall for surface runoff drainage systems in St Petersburg. Part 3. For hydraulic calculations in design and modeling taking into account the uneven distribution of rain intensity over the area / S. N. Volkov, M. Yu. Lukyanchuk, A. G. Zhukova, A. I. Zhitenev, V. A. Kuzmin, O N. Rublevskaya, V. A. Gvozdev, V. V. Erofeev, I. G. Kostenko, V. S. Ignatchik, S. Yu. Ignatchik, N. Yu. Kuznetsova, A. Ya. Feskova // Water supply and sanitary engineering. – 2023. – No. 6. – P. 35–42.

Patents

  1. Sediment pumping system, No. 2 580 561, 10.04.2016, Bull. No. 10.
  2. Method for optimizing wastewater flows, No. 2 667 745, 24.09.2018, Byul. No. 27.
  3. Optimized drainage system, No. 2 646 064, 01.03.2018, Bull. No. 7.
  4. Water inflow assessment system, No. 2 637 527, 05.12.2017, Byul. No. 34.
  5. Controlled wastewater system, No. 2 650 908, 18.04.2018, Bull. No. 11.
  6. The method of energy saving in water supply systems, No. 2 620 742, 29.05.2017, Byul. No. 16.
  7. Method for probabilistic estimation of the supply of a pumping station, No. 2 620 133, 23.05.2017, Byul. No. 15.
  8. Sewage sludge pumping system, No. 2 596 083, 27.08.2016, Byul. No. 24.
  9. System for assessing wastewater discharges into the environment, No. 2 599 331, 10.10.2016, Byul. No. 28.
  10. Method for assessing the reliability of a pumping station, No. 2 602 295, 20.11.2016, Byul. No. 32.
  11. System for assessing and forecasting wastewater discharges, No. 2 606 039, 10.01.2017, Bull. No. 1.
  12. Water disposal system, No. 2 655 930, 30.05.2018, Bull. No. 16.
  13. Self-regulating water disposal system, No. 2 655 320, 25.05.2018, Bull. No. 15.
  14. Regulated drainage system, No. 2 655 931, 30.05.2018, Bull. No. 16.
  15. Method for optimizing the water supply system, No. 2 608 020, 11.01.2017, Bull. No. 2.
  16. System for determining the indicators of the reliability of water supply networks, No. 2 600 548, 20.10.2016, Bull. No. 29.
  17. System for determining the volume and cost of emergency recovery work on water supply networks, No. 2 602 984, 20.11.2016, Bull. No. 32.

Research works

  1. Instrumental study of the actual hydraulic regimes of wastewater movement through the tunnel collectors of St Petersburg with the development of a router for their flows.