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Author: Friðrik Már Baldursson
Publisher: Centre on Regulation in Europe asbl (CERRE)
ISBN:
Category : Political Science
Languages : en
Pages : 62
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Book Description
This report provides a timely contribution to the search for concrete responses on how to successfully complete and manage the roll-out of electric vehicles in Europe. For this purpose, the report presents case studies of three countries: Norway and the Netherlands – where market penetration of electric vehicles is already comparatively high – as well as Luxembourg, which is an interesting case from a regulatory perspective. The Three Case Studies Norway has some unique characteristics that are important for the study of how electric vehicles affect the electricity system. On the one hand, the penetration of electric vehicles is higher in Norway than anywhere else in Europe. On the other hand, thanks to the availability of cheap hydropower, the Norwegian electricity system has been designed to support electric space heating in a cold climate. Hence, it has been able to accommodate high levels of electric vehicle penetration, even with relatively light-handed regulation on location and capacity of charging infrastructure. The unique characteristics of Norway make it difficult to generalise its experience. Nevertheless, it does suggest that electric vehicles can be accommodated by electricity systems, given reasonable levels of penetration and sufficient time to respond to the resulting demand for electricity. The Netherlands already has a well-developed network of charging points. The base for charging is provided by private charging points either at home or at work. Semi-public chargers with limited access are also an important category that is growing quickly. Public chargers are often deployed through a demand-driven approach, and this method of providing charging infrastructure where there is not enough private parking – and therefore a lack of private charging – is an option used particularly in cities. The Grand Duchy of Luxembourg is a small, still developing system in terms of the number of electric vehicles. Luxembourg has organised the development of its charging infrastructure centrally and the main public charging network is owned by distribution companies. Due to its location, the Duchy cooperates with the Netherlands and Belgium to facilitate the usage of electric vehicles in the region so that users of electric vehicles can charge their cars in any station belonging to the three networks. Looking at the three cases, Luxembourg has taken a somewhat different approach to creating a charging infrastructure for electric vehicles than the other two countries studied. There, responsibility for ensuring the deployment of the necessary infrastructure has been vested with electricity network companies, who have produced a comprehensive national scheme based on public tenders, to ensure a timely rollout. Given the relatively low numbers of both electric vehicles and charging points in the country to date, it is however not yet clear how well this approach is working, especially compared to the alternative pursued in the Netherlands and Norway. Both the Netherlands and Norway have adopted more decentralised approaches to charging infrastructure. However, in both countries, such infrastructure has developed in line with the fleet of electric vehicles and charging facilities do not seem to be an obstacle to further growth of the fleet. The Norwegian experience is perhaps of particular interest, given the unusually high penetration of electric vehicles there. The fact that distribution networks are guaranteed financing of necessary upgrades from users has clearly played a part in facilitating the connection of charging points. The Netherlands has developed more of a bottom-up approach to account for the fact that a large proportion of people live in multi-home dwellings without access to a garage or a private parking space. Policy implications For the rise of electric vehicles to go smoothly, it is crucial that the right incentives and market structures be in place. One of the challenges for distribution system operators is to ensure that charging mostly takes place during off-peak hours. Time-of-use pricing is a possible option for shifting general demand for charging at or near homes from peak to off-peak hours. However, this may not suffice to solve the localised problems in distribution networks. A change in regulation, rather than a change in the tariff and pricing structure, could be more appropriate in certain cases. Electric vehicles, or rather their batteries, could also potentially provide important storage and flexibility in a decarbonised energy system based in large part on renewable energy sources. While time-of-use tariffs and pricing or command-and-control regulation would be the appropriate tools to shift charging demand to off-peak hours, they will not be sufficient to exploit the full potential of electric vehicles as storage. One challenge in this regard is simply having enough charging (or de-charging) points for parked vehicles.
Author: Friðrik Már Baldursson
Publisher: Centre on Regulation in Europe asbl (CERRE)
ISBN:
Category : Political Science
Languages : en
Pages : 62
Get Book Here
Book Description
This report provides a timely contribution to the search for concrete responses on how to successfully complete and manage the roll-out of electric vehicles in Europe. For this purpose, the report presents case studies of three countries: Norway and the Netherlands – where market penetration of electric vehicles is already comparatively high – as well as Luxembourg, which is an interesting case from a regulatory perspective. The Three Case Studies Norway has some unique characteristics that are important for the study of how electric vehicles affect the electricity system. On the one hand, the penetration of electric vehicles is higher in Norway than anywhere else in Europe. On the other hand, thanks to the availability of cheap hydropower, the Norwegian electricity system has been designed to support electric space heating in a cold climate. Hence, it has been able to accommodate high levels of electric vehicle penetration, even with relatively light-handed regulation on location and capacity of charging infrastructure. The unique characteristics of Norway make it difficult to generalise its experience. Nevertheless, it does suggest that electric vehicles can be accommodated by electricity systems, given reasonable levels of penetration and sufficient time to respond to the resulting demand for electricity. The Netherlands already has a well-developed network of charging points. The base for charging is provided by private charging points either at home or at work. Semi-public chargers with limited access are also an important category that is growing quickly. Public chargers are often deployed through a demand-driven approach, and this method of providing charging infrastructure where there is not enough private parking – and therefore a lack of private charging – is an option used particularly in cities. The Grand Duchy of Luxembourg is a small, still developing system in terms of the number of electric vehicles. Luxembourg has organised the development of its charging infrastructure centrally and the main public charging network is owned by distribution companies. Due to its location, the Duchy cooperates with the Netherlands and Belgium to facilitate the usage of electric vehicles in the region so that users of electric vehicles can charge their cars in any station belonging to the three networks. Looking at the three cases, Luxembourg has taken a somewhat different approach to creating a charging infrastructure for electric vehicles than the other two countries studied. There, responsibility for ensuring the deployment of the necessary infrastructure has been vested with electricity network companies, who have produced a comprehensive national scheme based on public tenders, to ensure a timely rollout. Given the relatively low numbers of both electric vehicles and charging points in the country to date, it is however not yet clear how well this approach is working, especially compared to the alternative pursued in the Netherlands and Norway. Both the Netherlands and Norway have adopted more decentralised approaches to charging infrastructure. However, in both countries, such infrastructure has developed in line with the fleet of electric vehicles and charging facilities do not seem to be an obstacle to further growth of the fleet. The Norwegian experience is perhaps of particular interest, given the unusually high penetration of electric vehicles there. The fact that distribution networks are guaranteed financing of necessary upgrades from users has clearly played a part in facilitating the connection of charging points. The Netherlands has developed more of a bottom-up approach to account for the fact that a large proportion of people live in multi-home dwellings without access to a garage or a private parking space. Policy implications For the rise of electric vehicles to go smoothly, it is crucial that the right incentives and market structures be in place. One of the challenges for distribution system operators is to ensure that charging mostly takes place during off-peak hours. Time-of-use pricing is a possible option for shifting general demand for charging at or near homes from peak to off-peak hours. However, this may not suffice to solve the localised problems in distribution networks. A change in regulation, rather than a change in the tariff and pricing structure, could be more appropriate in certain cases. Electric vehicles, or rather their batteries, could also potentially provide important storage and flexibility in a decarbonised energy system based in large part on renewable energy sources. While time-of-use tariffs and pricing or command-and-control regulation would be the appropriate tools to shift charging demand to off-peak hours, they will not be sufficient to exploit the full potential of electric vehicles as storage. One challenge in this regard is simply having enough charging (or de-charging) points for parked vehicles.
Author: John D. Graham
Publisher: Edward Elgar Publishing
ISBN: 1800880138
Category : Business & Economics
Languages : en
Pages : 496
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Book Description
We may be standing on the precipice of a revolution in propulsion not seen since the internal combustion engine replaced the horse and buggy. The anticipated proliferation of electric cars will influence the daily lives of motorists, the economies of different countries and regions, urban air quality and global climate change. If you want to understand how quickly the transition is likely to occur, and the factors that will influence the predictions of the pace of the transition, this book will be an illuminating read.
Author: Paul Hawken
Publisher: Penguin
ISBN: 052550849X
Category : Science
Languages : en
Pages : 257
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Book Description
A radically new understanding of and practical approach to climate change by noted environmentalist Paul Hawken, creator of the New York Times bestseller Drawdown Regeneration offers a visionary new approach to climate change, one that weaves justice, climate, biodiversity, equity, and human dignity into a seamless tapestry of action, policy, and transformation that can end the climate crisis in one generation. It is the first book to describe and define the burgeoning regeneration movement spreading rapidly throughout the world. Regeneration describes how an inclusive movement can engage the majority of humanity to save the world from the threat of global warming, with climate solutions that directly serve our children, the poor, and the excluded. This means we must address current human needs, not future existential threats, real as they are, with initiatives that include but go well beyond solar, electric vehicles, and tree planting to include such solutions as the fifteen-minute city, bioregions, azolla fern, food localization, fire ecology, decommodification, forests as farms, and the number one solution for the world: electrifying everything. Paul Hawken and the nonprofit Regeneration Organization are launching a series of initiatives to accompany the book, including a streaming video series, curriculum, podcasts, teaching videos, and climate action software. Regeneration is the inspiring and necessary guide to inform the rapidly spreading climate movement.
Author: Louise Smail
Publisher: Bloomsbury Publishing
ISBN: 1526515148
Category : Law
Languages : en
Pages : 343
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Book Description
The renewable energy sector is changing rapidly, from funding and legislation through to technology and supply chain. People have relied on many sources for energy in both industry and everyday life, including oil, gas, coal and wood. Renewable energy is now overtaking fossil fuels and as solar energy and wind power become cheaper and more competitive, it is important to understand how the renewable energy market and relevant law is developing. The Law of Renewable Energy examines the current and future renewable energy options and the legal challenges that surround them. Does renewable mean climate friendly and what about growing crops for energy? If you want to have an understanding of how renewable energy is being used, not just in the UK and Europe but throughout the world, then this is the book for you. This brand new title includes: an overall view on the move to renewables analysis of renewable energy cases industry trends environmental impact a section on future thinking a global view of renewables This book is essential reading for practitioners and anyone with a commercial interest in renewable energy.
Author: Theo Henckens
Publisher: Taylor & Francis
ISBN: 1040164765
Category : Business & Economics
Languages : en
Pages : 121
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Book Description
This book is the first to fully explore the short- and long-term impact of the global electric car rollout on the supply of raw materials. The world has gone from zero to almost 1.5 billion fossil fuel cars in circulation today, contributing significantly to the global climate crisis and necessitating a total transition to electric vehicles in the coming decades. This book responds to key questions surrounding the increase of electric car usage, such as will there be sufficient resources available to permanently supply a future world population of ten billion with electric cars? What is the risk that the supply of essential raw materials will be hampered by geopolitical problems, or that mining capacity cannot be quickly scaled up? How does the switch from fossil fuel vehicles to electric cars impact the recycling of scrap cars? It contains detailed information about the material composition of electric and fossil fuel cars in relation to stocks and relative scarcity of corresponding materials in the earth’s crust and estimates the ultimate annual consumption of metals based on predicted population growth. This book is an important tool for decision- makers in national ministries and international bodies, highlighting how to adopt a global long-term raw materials policy to protect the interests of future generations and global fairness. It provides necessary forecasting insight to industry leaders and specialists, policymakers, and researchers.
Author: OECD
Publisher: OECD Publishing
ISBN: 9264422412
Category :
Languages : en
Pages : 144
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Book Description
The European recovery has been disrupted since the onset of Russia’s war of aggression against Ukraine. Co-ordinated and timely policy action helped avoid a severe downturn, but the near-term outlook is clouded by uncertainty and downside risks. Monetary and fiscal policy need to become sufficiently restrictive to reduce underlying inflationary pressures durably.
Author: Marcello Fera
Publisher: Springer Nature
ISBN: 303152649X
Category :
Languages : en
Pages : 549
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Book Description
Author: Council of Europe
Publisher: BRILL
ISBN: 9004724540
Category : Business & Economics
Languages : en
Pages : 1026
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Book Description
The European Yearbook promotes the scientific study of nineteen European supranational organisations and the OECD. Each volume contains a detailed survey of the history, structure and yearly activities of each organisation and an up-to-date chart providing a clear overview of the member states of each organisation.
Author: Ottorino Veneri
Publisher: Springer
ISBN: 3319436511
Category : Technology & Engineering
Languages : en
Pages : 323
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Book Description
This book outlines issues related to massive integration of electric and plug-in hybrid electric vehicles into power grids. Electricity is becoming the preferred energy vector for the next new generation of road vehicles. It is widely acknowledged that road vehicles based on full electric or hybrid drives can mitigate problems related to fossil fuel dependence. This book explains the emerging and understanding of storage systems for electric and plug-in hybrid vehicles. The recharging stations for these types of vehicles might represent a great advantage for the electric grid by facilitating integration of renewable and distributed energy production. This book presents a broad review from analyzing current literature to on-going research projects about the new power technologies related to the various charging architectures for electric and plug-in hybrid vehicles. Specifically focusing on DC fast charging operations, as well as, grid-connected power converters and the full range of energy storage systems. These key components are analyzed for distributed generation and charging system integration into micro-grids. The authors demonstrate that these storage systems represent effective interfaces for the control and management of renewable and sustainable distributed energy resources. New standards and applications are emerging from micro-grid pilot projects around the world and case studies demonstrate the convenience and feasibility of distributed energy management. The material in this unique volume discusses potential avenues for further research toward achieving more reliable, more secure and cleaner energy.
Author: Walter Leal Filho
Publisher: Springer
ISBN: 331913194X
Category : Technology & Engineering
Languages : en
Pages : 396
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Book Description
Focusing on technical, policy and social/societal practices and innovations for electrified transport for personal, public and freight purposes, this book provides a state-of-the-art overview of developments in e-mobility in Europe and the West Coast of the USA. It serves as a learning base for further implementing and commercially developing this field for the benefit of society, the environment and public health, as well as for economic development and private industry. A fast-growing, interdisciplinary sector, electric mobility links engineering, infrastructure, environment, transport and sustainable development. But despite the relevance of the topic, few publications have ever attempted to document or promote the wide range of electric mobility initiatives and projects taking place today. Addressing this need, this publication consists of case studies, reports on technological developments and examples of successful infrastructure installation in cities, which document current initiatives and serve as an inspiration for others.
