Converter-Interfaced Energy Storage Systems
Context, Modelling and Dynamic Analysis
Published on 16. May 2019
Book
Hardback
392 pages
978-1-108-42106-5 (ISBN)
Description
Gain an in-depth understanding of converter-interfaced energy storage systems with this unique text, covering modelling, dynamic behaviour, control, and stability analysis. Providing comprehensive coverage, it demonstrates the technical and economic aspects of energy storage systems, and provides a thorough overview of energy storage technologies. Several different modelling techniques are presented, including power system models, voltage-sourced converter models, and energy storage system models. Using a novel stochastic control approach developed by the authors, you will learn about the impact of energy storage on the dynamic interaction of microgrids with distribution and transmission systems. Compare the numerous real-world simulation data and numerical examples provided with your own models and control strategies. Accompanied online by a wealth of numerical examples and supporting data, this is the ideal text for graduate students, researchers, and industry professionals working in power system dynamics, renewable energy integration, and smart grid development.
Reviews / Votes
'This is a timely and impressive book on an emerging and important topic. The comprehensive and in-depth overview of energy storage technologies, modelling, and dynamic simulation will make the book a valuable reference for practicing engineers and researchers working with the planning and operation of the future electric power system. The extensive list of references will be of great help for deepened studies.' Goeran Andersson, Eidgenoessische Technische Hochschule Zuerich 'Energy storage systems (ESS) are considered by many as the Holy Grail of the upcoming decarbonised future. From rooftop PV microsystems to giant pumped storage units, virtually all ESS are expected to be interfaced through power converters, for the sake of added flexibility and efficiency. This volume, co-authored by one of the most recognized experts in modelling, analysis and control of power systems dynamic phenomena, constitutes a self-contained and unique blend of general concepts, motivating factors and technical details, satisfying in this way the interests of a wide audience and filling an important gap in the technical literature.' Antonio Gomez-Exposito, Universidad de Sevilla 'Excellent and timely material written by experienced authors! You must read this book.' Jean Mahseredjian, Polytechnique MontrealMore details
Language
English
Place of publication
Cambridge
United Kingdom
Target group
Professional and scholarly
College/higher education
Illustrations
Worked examples or Exercises; 41 Halftones, unspecified; 100 Line drawings, unspecified
Dimensions
Height: 250 mm
Width: 175 mm
Thickness: 26 mm
Weight
860 gr
ISBN-13
978-1-108-42106-5 (9781108421065)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Federico Milano | Alvaro Ortega Manjavacas
Converter-Interfaced Energy Storage Systems
Context, Modelling and Dynamic Analysis
E-Book
05/2019
Cambridge University Press
€100.99
Available for download
Persons
Federico Milano is Professor of Power Systems Control and Protection, and Head of Electrical Engineering, at University College Dublin. He is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE) and the Institution of Engineering and Technology (IET). Alvaro Ortega Manjavacas is a Senior Power Systems Researcher in the School of Electrical and Electronic Engineering at University College Dublin.
Content
Part I. Context: 1. Need for energy storage; 2. Technical and economic aspects; 3. Energy storage technologies; Part II. Modelling: 4. Power system model; 5. Voltage-sourced converter model; 6. Energy storage system models; Part III. Dynamic Analysis: 7. Comparison of dynamic models; 8. Control techniques; 9. Stability analysis; Part IV. Appendices.