Leonidopoulos Georgios

leonidopoulos

             

 Office: B113b, Building B, Αncient Οlive-grove Campus

 Office phone: +30 2105381748

 Lab: B121, Building B, Αncient Οlive-grove Campus

 Lab phone: +30 2105381284

 e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.


 

Studies

1987 – Studies, Research and Doctorate (Ph.D.) in the area of «Analysis and Control of Electric Power and Energy Systems» at Strathclyde University (Glasgow, UK), Department of Electronic and Electrical Engineering. Duration : three (3) years.

1984 – Master’s Degree (M.Sc.) in the area of «Electric Power and Energy» at Strathclyde University (Glasgow, UK), Department of Electronic and Electrical Engineering. Duration : one (1) year.

1983 – Postgraduate studies at Wayne State University (Detroit, Michigan, USA), Department of Electrical and Computer Engineering.

1982 – Postgraduate studies at Iowa State University (Ames, Iowa, USA).

1981 Studies and Diploma of Engineer at University of Patras, Greece, Polytechnic School, Department of Electrical and Computer Engineering. Duration : five (5) years. Diploma Dissertation : «Theoretic study, mechanical and electrical installation, experimental study of 3kW wind turbine system».

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Research Interests

  • Electric Power and Energy Systems
  • Greenhouses
  • Insulating Polymeric Materials
  • Electric Fields
  • Electric Machines
  • Renewable Energy Resources 

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Representative Publications

  • Georgios Leonidopoulos. A novel numerical method for the accurate solution of induction machine transient. IEEE Transactions on Energy Conversion, IEEE/ PES Winter Meeting 1988, Paper No 88, WM 022-6, New York, February 1988, pp.1-5.
  • Georgios Leonidopoulos.Dynamic analysis of a power system using dynamic π-equivalent. Μodelling, Simulation and Control A, Vol. 18, No 2, 1988, pp. 35-46.
  • Georgios Leonidopoulos. Dynamic discrete π-equivalent of a transformer under tap ratio change. Modelling, Simulation and Control A, Vol. 19, No 1, 1988, pp. 1-6.
  • Georgios Leonidopoulos. Minimum static reactive compensation Part 1. Modelling, Simulation and Control A, Vol. 19, No 3, 1988, pp.1-9.
  • Georgios Leonidopoulos. Economic operation of a power system. International Journal of Engineering Costs and Production Economics, Elsevier, Vol. 14, 1988, pp. 275-279.
  • Georgios Leonidopoulos. Measurement and the effect of different solvents on thin polymer film surface resistance. Materials and Structures, Rilem, Vol. 21, 1988, pp. 379-383.
  • Georgios Leonidopoulos. Fast linear method and convergence improvement of load flow numerical solution methods. Electric Power Systems Research Journal, Vol. 16, No 1, February 1989, pp. 23-31.
  • Georgios Leonidopoulos. Measurement and the effect of different solvents on thin polymeric film surface resistance.  IEEE Transactions on Instrumentation and Measurement, Vol. 38, No 1, February 1989, pp. 43-48.
  • Georgios Leonidopoulos. Recovery behaviour of thin polyester film surface resistance under the influence of different liquids. Polymer Testing, Elsevier, Vol. 8, No 2, 1989, pp. 77-82.
  • Georgios Leonidopoulos. Mathematical formulation of the economic dispatch problem of a power system by using a linear load flow model. International Journal of Engineering Costs and Production Economics, Vol. 21, 1991, pp. 11-20.
  • Georgios Leonidopoulos. Linear power system equations and security assessment. International Journal of Electrical Power and Energy Systems, Vol. 13, No 2, April 1991, pp. 100-102.
  • Georgios Leonidopoulos. Voltage distribution of two thin polymeric film surface resistance measurement systems. IEEE Transactions on Instrumentation and Measurement, Vol. 40, No 3, June 1991, pp. 635-639.
  • Georgios Leonidopoulos. Efficient starting point of load-flow equations. International Journal of Electrical Power and Energy Systems, Vol. 16, No 6, December 1994, pp. 419-422.
  • Georgios Leonidopoulos. Analysis of the experimental response of thin polymeric film surface resistance measurement method. Polymer Testing, Elsevier, Vol. 14, No 1, 1995, pp. 3-11.
  • Georgios Leonidopoulos. Does the surface resistance under measurement in the thin polymeric film surface resistance measurement method vary during the experimental response of the system? Polymer Testing, Elsevier, Vol. 14, No 2, 1995, pp. 121-128.
  • Georgios Leonidopoulos. Approximate linear decoupled solution as the initial value of power system load flow. Electric Power Systems Research Journal, Vol. 32, No 3, March 1995, pp. 161-164.
  • Georgios Leonidopoulos. Attempt to explain why the surface resistance under measurement in the thin polymeric film surface resistance measurement method varies during the experimental response of the system. Polymer Testing, Elsevier, Vol. 15, No 5, 1996, pp. 491-500.
  • Georgios Leonidopoulos. Greenhouse dimensions estimation and short time forecast of greenhouse temperature based on net heat losses through the polymeric cover. Polymer Testing, Elsevier, Vol. 19, No 7, 2000, pp. 801-812.
  • Georgios Leonidopoulos. Greenhouse daily sun-radiation intensity variation, daily temperature variation and heat profits through the polymeric cover. Polymer Testing, Elsevier, Vol. 19, No 7, 2000, pp. 813-820.
  • Georgios Leonidopoulos. Modelling and Simulation of Electric Power Transmission Line Current as wave. AMSE, Modelling A, Vol. 89, N° 1, 2016, pp. 1-12.
  • Georgios Leonidopoulos. Analysis of Electric Power Transmission Line presenting only long-wise inductance. AMSE-IIETA MMC-A, Vol. 92, No 2-4, 2019, pp. 58-61.
  • Georgios Leonidopoulos. Analysis of Electric Power Transmission Line Resultant Wave Current in Polar Form. AMSE-IIETA MMC-A, Vol. 92, No 2-4, 2019, pp. 54-57.

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Undergraduate Courses

  • 6.2 Introduction to Electric Power Systems (Theory)
  • 7-1.1 Electric Power Systems I (Theory)
  • 9-1.2 Electric Power Systems II (Lab)
  • 9-1.6 Protection of Electric Power Systems (Theory)

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Postgraduate Courses

Programme of Postgraduate Studies – Management and Optimisation of Power Systems

  • Γ.1 Smart Grids and Distributed Electric Power Generation
  • Γ.4 Research Methodology – Technical Writing

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Curriculum Vitae 

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