Power System Dynamic Modelling and Analysis in Evolving Networks

lt;p>The Study Committee C4 (Power System Technical Performance) is responsible for advanced methods and tools for analysis related to power systems.

Areas of attention include:

Power Quality Performance: Continuity of end-to-end electric power supply and voltage waveform quality (magnitude, frequency, symmetry). Analysis covers emission assessments from disturbing installations, measurement and simulation methods, identification of quality indices, monitoring techniques, immunity of sensitive installations, and mitigation techniques taking into account a co-ordinated approach across all voltage levels.

Electromagnetic Compatibility (EMC): High frequency disturbances on the end-to-end electricity supply and all disturbances (HF or LF) reaching equipment other than through the electricity supply. Studies include measurement and simulation methods. Health effects related to low frequency EMF are however excluded.

Power System Dynamics: Development of advanced tools and new analytical techniques for assessment of power system dynamic/transient performance, security, design of controls and modelling of existing and new equipment, real time stability evaluation and control.

Lightning: Analysis of lightning characteristics and interactions of lightning with electric power systems and equipment, including protection in MV and LV networks against lightning, and their standardisation.

Insulation Co-ordination: Methods and tools for insulation co-ordination and electromagnetic transient analysis in electric power systems and equipment, contributing to optimisation of their cost and reliability. 

Babak Badrzadeh is Technical Director - Power Systems with Aurecon Group. He received B.Sc., M.Sc. and Ph.D. all in the area of electrical power engineering in 1999, 2002 and 2007, respectively. Prior to joining Aurecon, he spent his career in Mott MacDonald Transmission and Distribution, Vestas Wind Systems, and the past nine years with Australian Energy Market Operator.

His focus areas include power system modelling and analysis, impact of grid-connected and distributed inverter-based resources on power system operations and planning, and power system restoration.

Throughout his career, he has been involved in more than 300 power system modelling and analysis works in four continents including design, grid integration, planning and operational impact assessments, generator connections, commissioning and model validation projects. In particular, he has played a key role in the worldwide establishment of wide-area electromagnetic transient (EMT) modelling, and the overarching area of system strength.

He is currently Convener of CIGRE Working Groups B4.83, C2.26 and C4.56, and Member of CIGRE SC C2 Strategic Advisory Committee. He has written more than 60 IEEE and CIGRE journal and conference papers including many invited papers, served as Keynote and Invited Speaker in several international events and chaired multiple conference sessions. Babak is Distinguished Lecturer (DP) for IEEE Power and Energy Society (PES), and a Recipient of 2019 Energy Systems Integration Group (ESIG) Engineering Excellence Award. 

Zia Emin received his B.Sc.in Electrical & Electronics Engineering from the Middle East Technical University, Ankara, Turkey, and M.Sc. and Ph.D. degrees from The University of Manchester, Manchester, United Kingdom. He has worked as a specialist power system engineer with many years of experience in power quality and switching studies initially with National Grid and later with Parsons Brinckerhoff (later WSP) and PSC. He has extensive knowledge in all aspects of power system modelling including steady-state, frequency and time domain modelling and substantial experience in harmonic performance specification for HVDC converter stations, renewable generation connections an

Changing power systems and impact on power system dynamic phenomena and analysis methods.- Types of power system studies and their inter-relationships in an inverter-based resource dominated power system.- Power system dynamic analysis tools and techniques and their evolutions in practical power systems.-  Model and data requirements in power systems with high share of inverter-based resources and approaches for filling in missing information.-  Step-by-step guides for conducting different types of power system studies ranging from power system operations to long-term system planning.-  Approaches for gaining confidence in the accuracy of individual plant and overall power system models.- Contemporary enablers for more efficient and accurate decision making on dynamics associated with a complex and evolving power system.

Erscheint lt. Verlag	18.8.2024
Reihe/Serie	CIGRE Green Books
Zusatzinfo	X, 590 p. 300 illus., 200 illus. in color.
Verlagsort	Cham
Sprache	englisch
Maße	155 x 235 mm
Themenwelt	Technik ► Elektrotechnik / Energietechnik
Schlagworte	Electromagnetic transient simulation • High Share of Inverter-based Resources • Modelling Emerging Technologies and Phenomena • Power System Dynamic Modelling and Simulation • Power System Model Acceptance and Validation • Power System Planning and Operation • real-time simulation
ISBN-10	3-031-47820-7 / 3031478207
ISBN-13	978-3-031-47820-8 / 9783031478208
Zustand	Neuware

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