Legal design of carbon capture and storage developments in the Netherlands from an international and EU perspective

Cover of: Legal design of carbon capture and storage |

Published by Intersentia in Antwerp, Portland .

Written in English

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Subjects:

  • Carbon sequestration -- Law and legislation,
  • Carbon sequestration -- Law and legislation -- European Union countries,
  • Carbon sequestration -- Law and legislation -- Netherlands,
  • Carbon dioxide mitigation -- Law and legislation,
  • Carbon dioxide mitigation -- Law and legislation -- European Union countries,
  • Carbon dioxide mitigation -- Law and legislation -- Netherlands,
  • Atmospheric carbon dioxide -- Law and legislation,
  • Atmospheric carbon dioxide -- Law and legislation -- European Union countries,
  • Atmospheric carbon dioxide -- Law and legislation -- Netherlands

Edition Notes

Includes bibliographical references.

Book details

Statementedited by Martha M. Roggenkamp, Edwin Woerdman.
SeriesEnergy & law series -- 10, Energy & law -- 10.
ContributionsRoggenkamp, Martha M., Woerdman, Edwin, 1970-
Classifications
LC ClassificationsK3593.5.C37 L45 2009
The Physical Object
Paginationxxx, 360 p. ;
Number of Pages360
ID Numbers
Open LibraryOL24124755M
ISBN 10905095801X
ISBN 109789050958011
LC Control Number2010288244

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The CO2 will be captured and transported to subsoil reservoirs where it is permanently stored. Because of its geological structure, The Netherlands is considered to be suitable for large-scale CO2 storage. The Groningen Centre of Energy Law (GCEL) has analyzed the legal instruments necessary to regulate CCS.

This book presents a legal design of : Martha M. Roggenkamp. LEGAL DESIGN OF CARBON CAPTURE AND STORAGE Developments in the Netherlands from an International and EU Perspective Edited by Martha M. Roggenkamp Edwin Woerdman Antwerp – Oxford – Portland Personal copy of ().

Carbon Capture and Storage is increasingly viewed as one of the most significant ways of dealing with green house gas emissions. Critical to realising its potential will be the design of effective legal regimes at national and international level that can handle effectively the challenges raised but without stifling a new technology of.

This book presents a legal design of carbon capture and storage. Thirteen chapters give an insight in the international, EU and national framework for CCS.

They analyse the regime for geological storage and transportation pipelines, the financial incentives to promote CCS and the applicable liability regime. Carbon capture and storage is an option recently added to the Kyoto Protocol and analyzed here by means of modern law and economics.

Martha Roggenkamp is a practising lawyer in Amsterdam and professor in Groningen while Edwin Woerdman is an economist and associate professor of law and economics at the Law School in Groningen, specializing in environmental : Jürgen G.

Backhaus. This book's main contribution is the systematic application of a law and economics analysis to the design of a liability regime for a new technology―carbon capture and storage (CCS). It should be of interest to people in government policy Cited by: 1. Summary. A theoretical and practical analysis of the complex liability issues raised by carbon capture and storage systems for containing greenhouse gases.

Carbon capture and storage (CCS) systems inject highly compressed carbon dioxide gas deep into geological formations in order to Legal design of carbon capture and storage book the gas, and its harmful effects on the planet. book review CARBON CAPTURE AND STORAGE: EFFICIENT LEGAL POLICIES FOR RISK GOVERNANCE AND COMPENSATION by Faure, Michael G.

and Partain, Roy A. Published by MIT Press,pp.,hardback. About Carbon Capture and Storage Carbon Capture and Storage (CCS) is increasingly viewed as one of the most significant ways of dealing with greenhouse gas emissions.

Critical to realising its potential will be the design of effective legal regimes at national and international level that can handle the challenges raised but without stifling a new technology of potential great public benefit.

Peer-review under responsibility of the Organizing Committee of GHGT doi: / GHGT Constructing a Legal Framework for Carbon Capture and Storage in New Zealand: Approaches to Legislative Design Greg Severinsen* Teaching Fellow and PhD Candidate, Faculty of Law, Victoria University of Wellington, PO Box Author: Greg Severinsen.

This chapter addresses the subsurface component of the engineered carbon capture and storage (CCS) system—namely, the injection, production, and monitoring wells. The well construction, operation, and abandonment process is described, including well design, drilling, cementation, and completion.

Carbon capture and storage (CCS) and "negative emissions" technologies will play an essential role in mitigating the impact of global warming and meeting the temperature targets set by the IPCC and by COP Identifying the role and value of CCS relative to other mitigation technologies is of vital importance.

This book provides a comprehensive, up-to-date overview of the major sources of. Carbon dioxide capture and storage offers important possibilities for making further use of fossil fuels more compatible with climate change mitigation policies.

The largest volumes of CO2 could be captured from large point sources such as from power generation, which alone accounts for about 40 per cent of total anthropogenic CO2 emissions. Carbon capture and storage (CCS) is one of a number of potential technological options to reduce anthropogenic emissions of carbon dioxide.

The literature Legal design of carbon capture and storage book identifies up to four different phases in any CCS project: (1) capture, (2) transport (to the injection well), (3) injection, and (4) : Nigel Bankes. Carbon capture and storage – legal and regulatory framework 7 Carbon dioxide (CO2) capture and storage (CCS) is a process consisting of the separation of CO2 from industrial and energy-related sources, transport to a storage location, and long-term isolation from.

A concise overview of carbon dioxide capture and storage (CCS), a promising but overlooked climate change mitigation pathway. The burning of fossil fuels releases carbon dioxide (CO2), and these CO2 emissions are a major driver of climate change.

Carbon capture offers a path to climate change mitigation that has received relatively little attention. Eur J Law Econ () DOI /s BOOK REVIEW Martha M. Roggenkamp, Edwin Woerdman (eds.): Legal design of carbon capture and storage, developments in the Netherlands from an international and EU perspective, energy and law, volume 10 Intersentia,xxx + pp Ju ¨ rgen G.

Backhaus Published online: 29 January Springer. Carbon Capture and Storage, Second Edition, provides a thorough, non-specialist introduction to technologies aimed at reducing greenhouse gas emissions from burning fossil fuels during power generation and other energy-intensive industrial processes, such as steelmaking.

Carbon Capture and Storage (CCS) is viewed by many as potential one of the most significant technologies dealing with greenhouse gas emissions. Critical to realising its potential is the design of effective legal regimes at national and international level that can handle the challenges raised but without stifling a new technology.

Legal design of carbon capture and storage: developments in the Netherlands from an international and EU perspective Author: Martha M Roggenkamp ; Edwin Woerdman ; Groningen Centre of Energy Law. Carbon capture and storage (CCS) (or carbon capture and sequestration or carbon control and sequestration) is the process of capturing waste carbon dioxide (CO 2) usually from large point sources, such as a cement factory or biomass power plant, transporting it to a storage site, and depositing it where it will not enter the atmosphere, normally an underground geological formation.

–0–19––8 Helm-c13 Helm Hepburn (Typeset by SPi, Chennai) of J 13 Carbon Dioxide Capture and Storage Howard Herzog∗ I. INTRODUCTION Carbon dioxide capture and storage (CCS) is the capture and secure storage of carbon dioxide (CO 2) that would otherwise be emitted to the Size: KB.

Carbon Capture and Storage: Physical, Chemical, and Biological Methods presents comprehensive information on the principles of carbon capture and sequestration (CCS). Among the various climate change mitigation strategies currently being explored, CCS technology allows for the continuous use of fossil fuels and provides time to make a.

A comprehensive and interdisciplinary study into the law applicable to the rapidly developing field of the production, transmission, and storage of energy underground Investigates the challenges posed to the existing legal framework by new developments such as fracking, geothermal energy, underground electrical activity, and carbon capture and.

Request PDF | On Jul 1,David Langlet and others published Legal Design of Carbon Capture and Storage: Developments in the Netherlands from an International and EU Perspective – Edited by Author: David Langlet. Carbon Capture and Storage (CCS) offers the possibility of significant reductions in the volume of CO2 released into the atmosphere in the near to medium term.

As a fairly new technology that has not been widely adopted, there remain some uncertainties related to both viability and by: Reference:Carbon Capture and Storage in Developing Countries: A Perspective on Barriers to Deployment, Natalia Kulichenko and Eleanor Ereira World Bank, June - This report aims to assist developing countries to better understand issues related to CCS within the economic and legal context of developing countries and countries in is the first effort of the World Bank Group to.

Carbon sequestration can be defined as the capture and secure storage of carbon that would otherwise be emitted to, or remain, in the atmosphere. The focus of this paper is the removal of CO2 directly from industrial or utility plants and subsequently storing it in secure reservoirs.

We call this carbon capture and storage (CCS).Cited by:   T1 - Carbon Capture and Storage. T2 - Efficient Legal Policies for Risk Governance and Compensation.

AU - Faure, Michael Gebert. AU - Partain, Roy A. PY - /3/1. Y1 - /3/1. N2 - This book provides theoretical and practical solutions to the liabilities and damages that might result from the implementation of onshore geological carbon Cited by: 1.

Carbon capture, utilisation and storage, or CCUS, is an important emissions reduction technology that can be applied across the energy system. CCUS technologies involve the capture of carbon dioxide (CO2) from fuel combustion or industrial processes, the transport of this CO2 via ship or pipeline, and either its use as a resource to create.

The Industrial Carbon Capture and Storage (ICCS) project is administered by the U.S. Department of Energy's Office of Fossil Energy and managed by the National Energy Technology Laboratory (award number DE-FE ) and by a cost share agreement with the ADM, U of I (ISGS), SLB, & RCC.

The capture and long-term storage of carbon dioxide from power plants and other industrial installations may prove a key technology in climate change abatement strategies. Regulatory frameworks for carbon capture and storage (CCS) are now being developed in a number of jurisdictions.

The European Union produced the first comprehensive legislation on the subject inwhich provides a Cited by: Carbon Capture and Storage is increasingly viewed as one of the most significant ways of dealing with green house gas emissions.

Critical to realising its potential will be the design of effective legal regimes at national and international level that can handle effectively the challenges raised but without stifling a new technology of potential great public benefit.

First published on 12th March Carbon capture and storage (CCS) is broadly recognised as having the potential to play a key role in meeting climate change targets, delivering low carbon heat and power, decarbonising industry and, more recently, its ability to facilitate the net removal of CO 2 from the atmosphere.

However, despite this broad consensus and its technical maturity, CCS has Cited by: million for carbon capture and storage by Many will feel that is way too slow to develop a vital technology. — Simon Jack (@BBCSimonJack) Ma Second, the budget gives a new commitment to support the privately financed construction of “at least one” gas-fired power station fitted with CCS.

Support will be via consumer. Carbon Capture and Storage (CCS) is increasingly viewed as one of the most significant ways of dealing with green house gas emissions. Critical to realising its potential will be the design of effective legal regimes at national and international level that can handle effectively the challenges raised but without stifling a new technology of potential great public benefit.

AbstractVast quantities of greenhouse gases are routinely vented into the atmosphere in the power and other industrial sectors. Carbon capture and storage (CCS) promises to avoid such venting by the permanent sequestration of the resultant CO2 in subsurface geological formations.

The practice is neither straightforward nor uncontroversial. Technically, CCS requires the utilization of Author: Navraj Singh Ghaleigh.

The capture of carbon dioxide at the point of emission from coal- or gas-burning power plants is an attractive route to reducing carbon dioxide emissions into the atmosphere. To commercialize carbon capture, as well as transport of liquified carbon dioxide and its storage in exploited oil fields or saline formations, many technological, commercial, and political hurdles remain to be by: International Trade and Investment Law and Carbon Management Technologies Nigel Bankes Anatole Boute Steve Charnovitz Shi-Ling Hsu Sarah McCalla See next page for additional authors Recommended Citation Nigel Bankes, Anatole Boute, Steve Charnovitz, Cited by: 3.

Introduction. The combustion of fossil fuels produces carbon dioxide (), which is the main greenhouse gas that causes climate change. Carbon capture and storage (CCS) refers to a range of technologies that capture CO2 emissions and then store them permanently so that they do not enter the atmosphere and contribute to climate change.

In summary, CCS is a three-step process which includes. What is CCS? Carbon Capture and Storage (CCS) is a technology that can capture up to 90% of the carbon dioxide (CO 2) emissions pro­duced from the use of fossil fuels in electricity generation and industrial processes, preventing the carbon dioxide from entering the atmosphere.

Furthermore, the use of CCS with renewable biomass is one of the few carbon abatement technolo­gies that can be.Legal General copyright statement.

Unless stated otherwise, copyright in this website (including content and design) is owned by the Global Carbon Capture and Storage Institute Ltd (Global CCS Institute) or used under may not reproduce, adapt, modify, communicate to the public or otherwise use any part of this website (in particular for commercial purposes) except as set out below.iv Carbon Capture and Storage: Designing the Legal and Regulatory Framework for New Zealand The law is stated as at 13 Septemberwith one or two more recent developments noted.

One of these is that the Marine Legislation Bill was split into two bills via supplementary order paper and.

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