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Geomagnetic Disturbances Impacts on Power Systems Olga Sokolova

Geomagnetic Disturbances Impacts on Power Systems By Olga Sokolova

Geomagnetic Disturbances Impacts on Power Systems by Olga Sokolova


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Summary

The book provides a full risk assessment tool for assessing power systems confronted geomagnetic disturbances and specifies mitigation opportunities for the stakeholders. It discusses how the Sun can endanger ground-based technological systems and the physics of solar activity manifestation on Earth as Geomagnetically Induced Currents.

Geomagnetic Disturbances Impacts on Power Systems Summary

Geomagnetic Disturbances Impacts on Power Systems: Risk Analysis and Mitigation Strategies by Olga Sokolova

Geomagnetic Disturbances Impacts on Power Systems: Risk Analysis & Mitigation Strategies provides a full risk assessment tool for assessing power systems confronted geomagnetic disturbances (GMDs) and specifies mitigation opportunities for various stakeholders.
This book deals comprehensively with the threat of solar storms on the world's power systems. It provides a context to GMDs with respect to other natural hazards, and describes methods to evaluate a particular grid's risk factors in a straightforward fashion. This is extremely useful to power grid operators, as they are not experts in the field of space weather, but they must be able to deal with its impacts. This is the critical message of this extremely valuable book.
- William A. Radasky, Ph.D., P.E., IEEE Life Fellow, Metatech Corporation, California USAAimed at risk engineers, policy-makers, technical experts and non-specialists such as power system operators, this book seeks to provide an insight into the GMD as a natural hazard and to perform the risk assessment of its potential impacts on the power systems as critical infrastructures. The reader gets familiar with how the Sun can endanger ground-based technological systems and the physics of solar activity manifestation on the Earth as Geomagnetically Induced Currents (GICs). The reaction of power systems to GMDs and mitigation strategies aiming at reducing and controlling the risks are then addressed. The GMD mitigation strategies, the power systems critical factors analysis, the high-risk zones identification and an estimation of economic loss, which is a valuable input for the (re)insurance sector, are also brought to the attention of the reader. Thereby, this book provides a full risk assessment tool for assessing power systems confronted with space weather risks.
Key features:
* Brings together interdisciplinary perspectives on the topic in one, cohesive book
* Practical guideline on mitigation actions for diverse users and even non-specialists
* Dealing comprehensively with the threat of geomagnetic disturbance on the worlds power systems
* Introducing unique methods to evaluate a particular system risk factors in a straightforward fashion

Authors
Olga Sokolova, Ph.D., is a risk analyst and electrical engineer with expertise in the domain of critical infrastructure risk assessment to natural catastrophes.
Nikolay Korovkin, Ph.D., is a full professor and head of Theoretic Electrical Engineering Department at Peter the Great Saint-Petersburg Polytechnic University (SPbPU).
Masashi Hayakawa, Ph.D., is an emeritus professor of the University of Electro-Communications, and also CEO of Hayakawa Institute of Seismo Electromagnetics, Co.Ltd.

Geomagnetic Disturbances Impacts on Power Systems Reviews

This book deals comprehensively with the threat of solar storms on the world's power systems. It provides a context to GMDs with respect to other natural hazards, and describes methods to evaluate a particular grid's risk factors in a straightforward fashion. This is extremely useful to power grid operators, as they are not experts in the field of space weather, but they must be able to deal with its impacts. This is the critical message of this extremely valuable book.
- William A. Radasky, Ph.D., P.E., IEEE Life Fellow, Metatech Corporation, California USA

This book presents very well the important subject of solar storms and their effect on terrestrial systems, in particular on electrical power grids, but also looking more widely to other terrestrial systems such as pipelines and railways. The presentation is extremely thorough, and combines rigorous mathematical analysis with explanations which will be understandable to someone with a reasonable scientific background. While the book does not aim at the lay public, the concerns it presents should be taken into account by anyone trying to improve the resilience of our modern technological society. We know that solar storms have occurred, and will occur again - we must be ready for them.

- Neil Mitchison, former Head of Unit, Security Technology Assessment, Joint Research Centre, European Commission

About Olga Sokolova

Olga Sokolova, Ph.D., is a risk analyst and electrical engineer with expertise in the domain of critical infrastructure risk assessment to natural catastrophes. She develops structural risk-management tools towards a sustainable future which are accessible to the general public. Olga Sokolova has a record in raising awareness of emerging risks and opportunities brought to the society by infrastructure developments.

Nikolay Korovkin, Ph.D., is a full professor and head of Theoretic Electrical Engineering Department at Peter the Great Saint-Petersburg Polytechnic University (SPbPU). His research interests are inverse problems in electric circuits and electromagnetics, power control systems described by stiff equations, the problems of the earthquakes electromagnetic prediction, and the identification of the biological objects behaviour under the electromagnetic fields.

Masashi Hayakawa, Ph.D., is an emeritus professor of the University of Electro-Communications, and also CEO of Hayakawa Institute of Seismo Electromagnetics, Co.Ltd. His general interests are radio noises around the Earth, including plasma waves in the upper ionosphere/magnetosphere (generation and propagation of plasma waves), radio noise and related phenomena in the atmosphere related to lightning, EMC (Electromagnetic Compatibility), and radio noises from the lithosphere and seismic-associated atmospheric and ionospheric phenomena (for earthquake prediction).

Table of Contents

1. Introduction. SECTION I Geomagnetic Disturbances. 2. Solar Activity as a Danger to Ground-based Technological data. 3. Geomagnetically Induced Currents Observation. SECTION II Inside the Power System. 4. Reaction of Power Systems to Geomagnetic. 5. Mitigation of Negative Geomagnetic Disturbance Impacts on Power Systems. SECTION III Developing a View of the Geomagnetic Disturbances Risk. 6. Geomagnetic Disturbance as a Perfect Storm. 7. Outlook.

Additional information

NPB9780367680862
9780367680862
0367680866
Geomagnetic Disturbances Impacts on Power Systems: Risk Analysis and Mitigation Strategies by Olga Sokolova
New
Hardback
Taylor & Francis Ltd
2021-03-05
242
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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