The technical power-based challenges of power systems with major share of power production infeed via power electronics devices swegrids-logo

SweGRIDS research area Flexible Power Systems
SweGRIDS project code FPS1
Project type PhD
Status running
Researcher Angelica Clark   (webpage)
University KTH (EPE)
Project period 2018-08-28 to 2023-08-28   
Project supervisor Mehrdad Ghandhari   (webpage)
Industrial sponsors Hitachi Energy, Svenska kraftnät, Vattenfall


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Project abstract

The growth of renewable penetration will have several impacts on the stability of power systems. The first goal of this project is to identify the issues in power systems with a "major" share of power electronics based devices. RMS models or phasor based models are typically used to perform intensive transient and frequency stability analysis. In order to accurately quantify the renewable penetration levels for the identified issues with respect to frequency and transient stability analysis, it is important to do this analysis for both RMS and EMT simulations. The next step of the project is to find potential solutions to these problems, using controls of power electronic devices such as grid forming converters.


Summary of work

2018. Performed literature review.

2019. Created an EMT model of a two-area four-generator system in PSCAD and designed full rated converter model for this system. Confirmed baseline comparison between EMT and already constructed RMS model. Performed comparative study between RMS and EMT models to identify limitations of RMS models.

2020. Systematically developed the voltage source converter model in PSCAD (EMT), to establish matching behavior between EMT and RMS (PowerFactory) environments. Identified a methodology and systematic approach to develop matching RMS and EMT systems, within different pieces of software. Created high penetration scenarios of the two-area four-machine system in RMS and EMT at different renewable penetration levels in order to identify the divergence in behavior that occurs at specific penetration levels, within the context of transient and frequency stability.


Event log

2019. Attended IEEE Power and Energy Society Conference, presented poster on "RMS and EMT Simulations of a Two-Area System with High Renewable Penetration".


Project reference-group

Robert Eriksson,  SvK
Jonas Persson,  Vattenfall
Pinaki Mitra,  Hitachi Energy
Bertil Berggren,  Hitachi Energy


Publications by this researcher

See alternatively the researcher's full DiVA list of publications, with options for sorting.
Publications in journals and conferences usually will not show until a while after they are published.

An overview of stability challenges for power-electronic-dominated power systems : The grid-forming approach
Bahram Shakerighadi,   N. Johansson,   R. Eriksson,   P. Mitra,   A. Bolzoni,   Angel Clark,   Hans-Peter Nee.
2022,   IET Generation, Transmission & Distribution

Development of a Base Model in RMS and EMT Environment to Study Low Inertia System
Angel Clark,   Pinaki Mitra,   Nicklas Johansson,   Mehrdad Ghandari.
2021,   2021 IEEE PES GM Conference

EMT and RMS Analysis of a Two-Area System with Wind Power Generation
Angel Clark,   Pinaki Mitra,   Nicklas Johansson,   Mehrdad Ghandari.
2020,   Virtual 19th Wind Integration Workshop

Publication list last updated from DiVA on 2024-08-22 22:57.


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Page started: 2018-08-28
Last generated: 2024-08-22