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Hans Kristian Hygen Meyer

Research Scientist

Hans Kristian Hygen Meyer

Research Scientist

Hans Kristian Hygen Meyer
Phone: 480 09 413
Email:
Department: Electric Power Technology
Office: Trondheim

Publications and responsibilities

Publication
https://www.sintef.no/en/publications/publication/1822021/

Experimental investigation of the effect of filling pressure on the post-arc dielectric recovery characteristics of nitrogen is reported in this paper. A half-cycle arc current duration of 540 μs followed by a 10 kV pulse with a rise rate of 150 V/μs is applied across the contact gap. The pulse is...

Authors Fahim Abid Kaveh Niayesh Egil Viken Nina Sasaki Støa-Aanensen Erik Roger Jonsson Hans Kristian Hygen Meyer
Year 2020
Type Academic article
Publication
https://www.sintef.no/en/publications/publication/1617045/

Surface charge on dielectric surfaces can alter the field conditions of insulation systems substantially. In this work, lightning impulse experiments are compared with a simulation model for surface charging in rod-barrier-plane geometries. The model is based on the saturation charge assumption, i.e...

Authors Hans Kristian Hygen Meyer Andreas Blaszczyk Michael Schueller Frank Mauseth Per Atle Pedersen
Year 2018
Type Academic chapter/article/Conference paper
Publication
https://www.sintef.no/en/publications/publication/1512160/

The complex geometry of gas-insulated substations makes it difficult to predict withstand voltages. A key challenge is the characterization of the interaction between electrical discharges and dielectric surfaces. A 60 mm rod-plane air gap with a dielectric barrier is stressed with positive...

Authors Hans Kristian Hygen Meyer Frank Mauseth Martine Husøy Per Atle Pedersen
Year 2017
Type Academic chapter/article/Conference paper
Publication
https://www.sintef.no/en/publications/publication/1495788/

Prediction of withstand voltages in air-insulated systems are made on the basis of empirical models that are not sufficiently accurate for complex geometries. Better understanding of the spatiotemporal development of electrical discharges is necessary to improve the present models. Discharges in...

Authors Hans Kristian Hygen Meyer Frank Mauseth Per Atle Pedersen Martine Husøy Jonas Ekeberg
Year 2017
Type Academic article
Publication
https://www.sintef.no/en/publications/publication/1410150/

High-voltage design optimization requires a fun- damental understanding of electrical breakdown mechanisms under different stress situations. The impulse withstand voltage is normally used as dimensioning criterion for medium voltage air-insulated systems as flashover mechanisms in air are rapid...

Authors Hans Kristian Hygen Meyer Frank Mauseth Per Atle Pedersen Jonas Ekeberg
Year 2016
Type Academic chapter/article/Conference paper