Modelling Regional Power Grids for Large-Disturbance Stability Studies

Master thesis (2017)

Authors

C.A. van Altenborg Electrical Engineering, Mathematics and Computer Science

Contributors

FJCM Spaan (mentor)
M. van der van der Meijden (graduation committee member)
Faculty
Electrical Engineering, Mathematics and Computer Science, Electrical Engineering, Mathematics and Computer Science
Copyright: © 2017 Camiel van Altenborg
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Published Date

27-09-2017

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Abstract

Due to the shift in electrical energy generation from thermal synchronous generators towards various renewable sources, power system stability will become a more pressing issue in the near future. In this thesis, we explore possible improvements to the dynamic grid model currently used by TenneT TSO for large-disturbance stability studies, specifically the addition of motor load, wind, solar PV and HVDC transmission modelling. Thus we pave the way for future, more in-depth research that can contribute to the development of a more sophisticated dynamic grid model for operational and planning use. Our results indicate that motor load modelling has a strong negative influence on grid dynamic performance (compared to a static representation of the same load), and that wind and PV models have a strong positive influence, but that particularly for wind models, the choice of appropriate model parameters remains a challenge.

Files

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