Photo of Olga Sanginova

Olga Sanginova

Associate Professor, PhD National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”Chemical Technology Faculty
Work Phone: +380976830975

Professional Bio

PhD project coordinator at NTUU “Sikorsky KPI” secretary of the project in NTUU “Sikorsky KPI”.

Olga Sanginova is Associate Professor of Chemical Engineering Cybernetics Department. She graduated with honours from the NTUU “Sikorsky KPI” in 1998 as Chemical Engineer, Chemical engineering and computer science Specialist.

Postgraduate study: 1998 – 2003 NTUU “Sikorsky KPI”, Post-graduate course of engineering processes automation. PhD in technics (2003), Ph.D. thesis: “Automatic control system of boric regulation process at the VVER-1000 nuclear reactors”.

Research areas: simulation and process control of the water chemistry mode at the NPP,  industrial automation, computer science, water and wastewater treatment

Teaching skills: “Measurement and Uncertainty”, “Engineering Processes Automation”, “Total Quality Management”. Supervisor of 12 Bachelor theses and 5 Master theses.

Recent Projects: Water Harmony Erasmus+ and Water Harmony Eurasia-II, Integrated System for Monitoring and Control of the Water Chemistry Mode at the Electric and Nuclear Power Plants (Ukraine).


  1. Sanginova O. Application of Game Theory Methods for Water Chemistry Mode Control // Water Research and Technology: Selected Publications from Water Harmony Project. – Water Harmony Project. – 2015. – p. 170-177.
  2. Sanginova O. Comparative Analysis of some Computational Schemes for obtaining a Compromize Solution // Eastern-European Journal of Enterprise Technologies. – 2015. – № 1/4 (73).– С.10-18. doi: 10.15587/1729-4061.2015.35607
  3. Gurieiev V., Sanginova O. Simulationandstudyofmodesforfull-scalemodesimulatorforUkrainianenergysystems // 2016 2nd International Conference on Intelligent Energy and Power Systems (IEPS), Kyiv, Ukraine, 2016, pp. 1-4.doi: 10.1109/IEPS.2016.7521848.
  4. Gurieiev, V.O., Sanginova, O.V. Distributed simulation environment of modes for full-scale mode simulator for Ukrainian energy systems // Technical Electrodynamics. – 2016. – – № 5. – C. 67-79.