Whole Energy System Dynamics: Theory, modelling and policy
In order to address the twenty-first-century challenges of decarbonisation, energy security and cost-effectiveness it is essential to understand whole energy systems and the interconnection and interaction between different components. An integrated language is therefore needed to assist energy policymakers and to help industrial stakeholders assess future energy systems and infrastructure and make realistic technical and economic decisions.

Whole Energy System Dynamics provides an interdisciplinary approach to whole energy systems; providing insights and understanding of it in the context of challenges, opportunities and solutions at different levels and time steps. It discusses approaches across disciplinary boundaries as well as existing issues within three main themes: theory, modelling and policy, and their interlinkage with geopolitics, markets and practice. Spataru argues that there is an urgent need for a whole energy system integration. This is necessary for effective analysis, design and control of the interactions and interdependencies involved in the technical, economic, regulatory and social dimensions of the energy system.

This book is essential reading for students interested in the area of energy systems, policy and modelling. It is also a valuable read for policymakers, professionals, researchers, academics, engineers and industrial stakeholders.

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Whole Energy System Dynamics: Theory, modelling and policy
In order to address the twenty-first-century challenges of decarbonisation, energy security and cost-effectiveness it is essential to understand whole energy systems and the interconnection and interaction between different components. An integrated language is therefore needed to assist energy policymakers and to help industrial stakeholders assess future energy systems and infrastructure and make realistic technical and economic decisions.

Whole Energy System Dynamics provides an interdisciplinary approach to whole energy systems; providing insights and understanding of it in the context of challenges, opportunities and solutions at different levels and time steps. It discusses approaches across disciplinary boundaries as well as existing issues within three main themes: theory, modelling and policy, and their interlinkage with geopolitics, markets and practice. Spataru argues that there is an urgent need for a whole energy system integration. This is necessary for effective analysis, design and control of the interactions and interdependencies involved in the technical, economic, regulatory and social dimensions of the energy system.

This book is essential reading for students interested in the area of energy systems, policy and modelling. It is also a valuable read for policymakers, professionals, researchers, academics, engineers and industrial stakeholders.

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Whole Energy System Dynamics: Theory, modelling and policy

Whole Energy System Dynamics: Theory, modelling and policy

by Catalina Spataru
Whole Energy System Dynamics: Theory, modelling and policy
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Whole Energy System Dynamics: Theory, modelling and policy

Whole Energy System Dynamics: Theory, modelling and policy

by Catalina Spataru

Overview

In order to address the twenty-first-century challenges of decarbonisation, energy security and cost-effectiveness it is essential to understand whole energy systems and the interconnection and interaction between different components. An integrated language is therefore needed to assist energy policymakers and to help industrial stakeholders assess future energy systems and infrastructure and make realistic technical and economic decisions.

Whole Energy System Dynamics provides an interdisciplinary approach to whole energy systems; providing insights and understanding of it in the context of challenges, opportunities and solutions at different levels and time steps. It discusses approaches across disciplinary boundaries as well as existing issues within three main themes: theory, modelling and policy, and their interlinkage with geopolitics, markets and practice. Spataru argues that there is an urgent need for a whole energy system integration. This is necessary for effective analysis, design and control of the interactions and interdependencies involved in the technical, economic, regulatory and social dimensions of the energy system.

This book is essential reading for students interested in the area of energy systems, policy and modelling. It is also a valuable read for policymakers, professionals, researchers, academics, engineers and industrial stakeholders.

Product Details

ISBN-13: 9781138799899
Publisher: Taylor & Francis
Publication date: 02/21/2017
Pages: 244
Product dimensions: 6.88(w) x 9.69(h) x (d)

About the Author

Catalina Spataru is a Lecturer in Energy Systems and Networks at UCL Energy Institute in London, UK, Course Director of MRes in Energy Demand Studies at UCL and Group Leader of Energy Space Time Group. She regularly delivers presentations in academic and professional circles, public engagement events and for the media. Among the universities she has visited are Princeton University and MIT.

Currently she teaches the Smart Energy Systems for MSc students at UCL part of EDE programme, a multidisciplinary module which she proposed and developed in 2013. This multidisciplinary module provides students with an understanding of methods, concepts and practice of whole energy system, offering a combination of theory, modelling interactive exercises and case studies. She supervises PhD students and MSc and MRes students.

Table of Contents

Part I Theory and History

1. Global Energy Systems - A Historical Perspective

2. Scales and Systems Interactions at All Scales across Multiple Energy Domains

3. Whole Energy Systems Components

4. Brief Overview of Energy Systems Models and Methodologies

5. Discrepancies in Energy System Models: Actual vs. Forecast

6. Drivers and Challenges for Energy Systems Modelling for 20th Century and of Future WES Integration

7. Worldwide Conversation about Energy Systems Integration

Part II Modelling – Challenges and Discussions

8. Why do Mathematical Modelling?

9. Indicators and Their Role in Models

10. Research Challenges

11. Performance of Multi-Scale Energy Systems

12. Problems/Gaps/Research Questions and Issues

Part III Energy Policy, Markets and Geopolitics

13. Energy Policies - What Our Past Teaches Us

14. Measures, Practices, and Tools - Utilizing Best Practices to Reduce Air Pollution and Carbon Footprint World Wide

15. Energy Policy Simulators & Modelling Approaches

16. Energy Policy Simulators & Energy Modelling Approaches

17. Policy Instruments

18. Energy Resource Use and Geopolitics of Trade

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