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Deployment of Carbon Capture and Storage: Insights, Case Studies and Best Practices presents the latest research and technologies on Carbon Capture and Storage (CCS), building on the topics to provide case studies and lesson learned from early stage projects. The book highlights CCS storage technologies deployed at scale to offer readers insights and guidance that will ensure they make sound decisions when developing CCS programs. Cost and risk minimization techniques are included to minimize cost and risk for wide-scale commercial deployment required by 2050. Global case studies on CCS technology and high TLR provide readers with unique insight into worldwide activity. Readers will gain a thorough understanding of the full CCS chain as applied across multiple settings including energy, chemical, geological and environmental industries, as well as an authoritative understanding of international policy and regulation factors. Includes an international case study from a variety of regions that provides insights and context to topics discussed Promotes best practices that support readers in their decision-making Includes high TRL technology insights, focusing on technologies reaching commercial deployment to achieve 2050 sustainability targets
Carbon dioxide (CO2) capture and storage (CCS) is the one advanced technology that conventional power generation cannot do without. CCS technology reduces the carbon footprint of power plants by capturing, and storing the CO2 emissions from burning fossil-fuels and biomass. This volume provides a comprehensive reference on the state of the art research, development and demonstration of carbon storage and utilisation, covering all the storage options and their environmental impacts. It critically reviews geological, terrestrial and ocean sequestration, including enhanced oil and gas recovery, as well as other advanced concepts such as industrial utilisation, mineral carbonation, biofixation and photocatalytic reduction. Foreword written by Lord Oxburgh, Climate Science Peer Comprehensively examines the different methods of storage of carbon dioxide (CO2) and the various concepts for utilisation Reviews geological sequestration of CO2, including coverage of reservoir sealing and monitoring and modelling techniques used to verify geological sequestration of CO2
The People's Republic of China (PRC) is taking concerted efforts and making large investments to peak out its carbon dioxide emissions around 2030. While current efforts are prioritizing accelerated energy efficiency and rapid expansion of renewables and nuclear in the energy mix, the fossil fuel related carbon dioxide emissions are still expected to rise even under a "new normal" growth strategies in the PRC. This brings in renewed emphasis on carbon capture and storage (CCS), which is currently the only near-commercial technologies to make deep cuts (up to 90%) in carbon dioxide emissions from fossil fuel related power plants and industries. This report draws on relevant technical assistance from Asian Development Bank (ADB), consultants' reports, and the work of ADB staff to assess the potential, the barriers and the challenges in demonstrating and deploying CCS in the PRC. It identifies unique low cost opportunities, recommends a gradual two phase approach to CCS deployment in the PRC and, provides complementary suite of policy actions to enable it.
This book focuses on issues related to a suite of technologies known asCarbon Capture and Storage (CCS), which can be used to capture and store underground large amounts of industrial CO2 emissions. It addresses how CCS should work, as well as where, why, and how these technologies should be deployed, emphasizing the gaps to be filled in terms o
Carbon Capture and Storage (CCS) technology could provide a technological bridge for achieving near to midterm GHG emission reduction goals. Integrated CCS technology is still under development and has noteworthy challenges, which would be possible to overcome through the implementation of large-scale demonstration projects. In order to assist developing countries to better understand issues related to potential technology deployment, there is a need to start analyzing various numerous challenges facing CCS within the economic and legal context of developing countries and countries in transition. This report is the first effort of the World Bank Group to contribute to a deeper understanding of (a) the integration of power generation with CCS technologies, as well as their costs; (b) regulatory barriers to the deployment of CCS; and (c) global financing requirements for CCS and applicable project finance structures involving instruments of multilateral development institutions. This report does not provide prescriptive solutions to overcome these barriers, since action must be taken on a country-by-country basis, taking account of different circumstances and national policies. Individual governments should decide their priorities on climate change mitigation and adopt appropriate measures accordingly. The analyses presented in this report may take on added relevance, depending on the future direction of international climate negotiations and domestic legal and policy measures in both developed and developing countries, and how they serve to encourage carbon sequestration. We expect that this report will provide insights for policy makers, stakeholders, private financiers, and donors in meeting the challenges of the deployment of climate change mitigation technologies and CCS in particular.
This book will provide the latest global perspective on the role and value of carbon capture and storage (CCS) in delivering temperature targets and reducing the impact of global warming. As well as providing a comprehensive, up-to-date overview of the major sources of carbon dioxide emission and negative emissions technologies, the book also discusses technical, economic and political issues associated with CCS along with strategies to enable commercialisation.
Carbon capture and sequestration (or storage)--known as CCS--has attracted congressional interest as a measure for mitigating global climate change because large amounts of carbon dioxide (CO2) emitted from fossil fuel use in the United States are potentially available to be captured and stored underground and prevented from reaching the atmosphere. Large, industrial sources of CO2, such as electricity-generating plants, are likely initial candidates for CCS because they are predominantly stationary, single-point sources. Electricity generation contributes over 40% of U.S. CO2 emissions from fossil fuels. Currently, U.S. power plants do not capture large volumes of CO2 for CCS. This book covers only CCS and not other types of carbon sequestration activities, and it also aims to provide a snapshot of the DOE CCS program, including its current funding levels, together with some discussion of the program's achievements and prospects for success in meeting its stated goals.
Carbon capture and sequestration (or storage) -- known as CCS -- has attracted congressional interest as a measure for mitigating global climate change because large amounts of carbon dioxide (CO2) emitted from fossil fuel use in the United States are potentially available to be captured and stored underground and prevented from reaching the atmosphere. Large, industrial sources of CO2, such as electricity-generating plants, are likely initial candidates for CCS because they are predominantly stationary, single-point sources. Electricity generation contributes over 40% of U.S. CO2 emissions from fossil fuels. Currently, U.S. power plants do not capture large volumes of CO2 for CCS. This book covers only CCS and not other types of carbon sequestration activities, and it also aims to provide a snapshot of the DOE CCS program, including its current funding levels, together with some discussion of the program's achievements and prospects for success in meeting its stated goals.
To achieve goals for climate and economic growth, "negative emissions technologies" (NETs) that remove and sequester carbon dioxide from the air will need to play a significant role in mitigating climate change. Unlike carbon capture and storage technologies that remove carbon dioxide emissions directly from large point sources such as coal power plants, NETs remove carbon dioxide directly from the atmosphere or enhance natural carbon sinks. Storing the carbon dioxide from NETs has the same impact on the atmosphere and climate as simultaneously preventing an equal amount of carbon dioxide from being emitted. Recent analyses found that deploying NETs may be less expensive and less disruptive than reducing some emissions, such as a substantial portion of agricultural and land-use emissions and some transportation emissions. In 2015, the National Academies published Climate Intervention: Carbon Dioxide Removal and Reliable Sequestration, which described and initially assessed NETs and sequestration technologies. This report acknowledged the relative paucity of research on NETs and recommended development of a research agenda that covers all aspects of NETs from fundamental science to full-scale deployment. To address this need, Negative Emissions Technologies and Reliable Sequestration: A Research Agenda assesses the benefits, risks, and "sustainable scale potential" for NETs and sequestration. This report also defines the essential components of a research and development program, including its estimated costs and potential impact.
Carbon capture, use, and storage (CCUS) is essential to meeting the dual challenge of providing affordable, reliable energy while addressing the risks of climate change at the lowest cost. The United States is uniquely positioned as the world leader in CCUS, with approximately 80% of the world's CCUS capacity and substantial capability to drive widespread deployment in the United States and abroad. Building on expertise and previous research, Meeting the Dual Challenge addresses the entire CCUS supply chain and recognizes that at-scale success requires economic and operational integration across industries, harmonized local/state/federal regulations, innovation and technology development, and broad public acceptance. The report details the actions needed to deploy carbon capture technologies at scale in the United States, an essential climate mitigation technology identified in the majority of global energy outlooks. In the interest of transparency, and to help readers better understand this study, the NPC is making the study results and many of the documents developed by the study groups available to all interested parties. This comprehensive report provides interested parties with the ability to review this report and supporting materials in different levels of detail as follows. Volume III, Analysis of CCUS Technologies, provides an overview and detailed discussions of the technologies used in the CCUS supply chain: Chapters 5-9 provide more detailed discussion and additional information on CCUS technologies. The five chapters in this volume address the capture, transport, geologic storage, enhanced oil recovery, and use of CO2. These chapters provide supporting data and analyses for the findings and recommendations presented in the Executive Summary. Appendices in this volume provide additional background material on CO2 capture and enhanced oil recovery. Additional study materials include Volume I - Report Summary, Volume II - Analysis of CCUS Deployment At-Scale, and additional resources available at the study's website (dualchallenge.npc.org). The National Petroleum Council (NPC), a federally chartered and privately funded advisory committee, was established by the Secretary of the Interior in 1946 at the request of President Harry S Truman. In 1977, the U.S. Department of Energy was established, and the NPC's functions were transferred to the new Department. The purpose of the NPC is solely to advise, inform, and make recommendations to the Secretary of Energy with respect to any matter relating to oil and natural gas or to the oil and gas industries submitted to it or approved by the Secretary. The NPC does not concern itself with trade practices, nor does it engage in any of the usual trade association activities.