Background and activities
Kaveh Niayesh (1971) is a Professor at the Department of Electric Power Engineering. He has a BSc and an MSc in Electrical Engineering from the University of Tehran, Iran, and a Ph.D. also in Electrical Engineering from RWTH University, Aachen, Germany. Professor Niayesh belongs to the research group for High Voltage Technology.
His research interests are mainly in the broad field of high voltage and switchgear technology; specifically on current interruption in power switching devices in AC and DC power networks, new materials for high voltage insulation and for high current interruption, Breakdown and aging behavior of insulation materials exposed to HVDC and repetitive fast impulses, Diagnostic and condition assessment of power switchgear as well as High voltage and High current test and measurement techniques.
- 2015- Professor, NTNU, Dept. of Electric Power Engineering
- 2014-2015 Principal engineer, ABB Medium Voltage, Ratingen, Germany
- 2009-2014 Associate Professor, University of Teheran, Iran
- 2012-2014 Sabbatical leave, Alexander von Humboldt experienced scientist, Leibniz Universität Hannover, Germany
- 2008 Manager, Basic Research Department, AREVA T&D, Regensburg, Germany
- 2005-2008 Assistant Professor, University of Teheran, Iran
- 2003-2005 Principal Scientist, ABB Corporate Research, Baden -Dättwil, Switzerland
- 2001-2003 Scientist, ABB Corporate Research, Baden – Dättwil, Switzerland
- 1997-2001 Research assistant, Institut für Allgemeine Elektrotechnik und Hochspannungstechnik, RWTH – Aachen, Germany
- Editor, IEEE Transactions on Power Delivery
- Vice chair of IEEE Norway section (Jan. 2016 - Dec. 2019 )
- IEEE Senior Member ( since Nov. 2008)
- Technical Advisor, NUVENTURA (since Oct. 2017)
- Head of Power Engineering Department, University of Tehran, Iran (Jan. 2010 – Jun. 2012)
- Member of International Society on Pulsed Power Applications
- Member of the editorial board, International Journal of Electric Power Generation, Transmission and distribution Researches
- Member of the editorial board, Journal of applied electromagnetic (in Persian)
Professor Niayesh has over 135 publications and 14 patents.
- TET4585 - High Voltage Technology, Specialisation Course
- IELEA1001 - Electrical engineering 1
- IELEG1001 - Electrical engineering 1
- TET4160 - Insulating Materials for High Voltage Applications
- TET4195 - High Voltage Equipment
- ELDI2004 - High Voltage Technology
- IELET1001 - Electrical engineering 1
Scientific, academic and artistic work
Displaying a selection of activities. See all publications in the database
- (2022) Investigation of Partial Discharges in AlN Substrates under Fast Transient Voltages. IEEE transactions on dielectrics and electrical insulation. vol. 29 (2).
- (2021) Optical investigation on pre-strike arc characteristics in medium-voltage load break switches. Journal of Physics D: Applied Physics.
- (2021) Online non‐invasive evaluation of arcing time for condition assessment of high‐voltage gas circuit breakers. IET Generation, Transmission & Distribution.
- (2021) HVDC Circuit Breakers: A Comprehensive Review. IEEE transactions on power electronics. vol. 36 (12).
- (2020) Current interruption performance of ultrahigh-pressure nitrogen arc. Journal of Physics D: Applied Physics. vol. 53 (18).
- (2020) Effect of Filling Pressure on Post-Arc Gap Recovery of N2. IEEE transactions on dielectrics and electrical insulation. vol. 27 (4).
- (2020) Spectroscopic Investigation of Metal Content in Prestrike Arc During Making Operation in a Low-Current Model Switch. IEEE Transactions on Plasma Science. vol. 48 (10).
- (2020) Breakdown at Multiple Protrusions in SF6 and CO2. Energies. vol. 13 (17).
- (2020) DC Current Interruption Based on Vacuum Arc Impacted by Ultra-Fast Transverse Magnetic Field. Energies. vol. 13 (18).
- (2020) Effects of Fast Elongation on Switching Arcs Characteristics in Fast Air Switches. Energies. vol. 13 (18).
- (2020) Metal vapor content of an electric arc initiated by exploding wire in a model N2 circuit breaker: simulation and experiment. Journal of Physics D: Applied Physics. vol. 54.
- (2020) Condition Monitoring of High Voltage Circuit Breakers: Past to Future. IEEE Transactions on Power Delivery.
- (2019) Nozzle Wear and Pressure Rise in Heating Volume of Self-blast Type Ultra-high Pressure Nitrogen Arc. Plasma Physics and Technology. vol. 6 (1).
- (2019) Two-way Interaction between Switching Arc and Solid Surfaces: Distribution of Ablated contact and Nozzle Materials. Journal of Physics D: Applied Physics. vol. 52 (40).
- (2019) Online Assessment of Contact Erosion in High Voltage Gas Circuit Breakers based on different Physical Quantities. IEEE Transactions on Power Delivery. vol. 34 (2).
- (2019) Solid-State High-Voltage Pulse Generator for Low Temperature Plasma Ion Mobility Spectrometry. IEEE Transactions on Plasma Science. vol. 47 (3).
- (2019) Self-blast current interruption and adaption to medium voltage load current switching. IEEE Transactions on Power Delivery. vol. 34 (6).
- (2018) Ultrahigh-pressure nitrogen arcs burning inside cylindrical tubes. IEEE Transactions on Plasma Science. vol. 47 (1).
- (2018) Comparative study on various dielectric barriers and their effect on breakdown voltage. High Voltage. vol. 3 (1).
- (2018) A Probabilistic Model-aided Failure Prediction Approach for Spring-Type Operating Mechanism of High Voltage Circuit Breakers. IEEE Transactions on Power Delivery. vol. 34 (4).
- (2018) Medium-voltage load current interruption in the presence of ablating polymer material. IEEE Transactions on Power Delivery. vol. 33 (5).
- (2017) Verification of a numerical MHD arc model for high voltage circuit breakers using experimental images. Magnetohydrodynamics. vol. 53 (3).
- (2017) Arc voltage characteristics in ultrahigh-pressure nitrogen including supercritical region. IEEE Transactions on Plasma Science. vol. 46 (1).
- (2017) Online Condition Assessment of Interruption Chamber of Gas Circuit Breakers Using Arc Voltage Measurement. IEEE Transactions on Power Delivery. vol. 32 (4).
- (2017) Power swithching Components : theory, Applications and future trends. Springer. 2017. ISBN 978-3-319-51459-8. Power Systems.