Assessment Of Nuclear Energy Systems Based On A Closed Fuel Cycle With Fast Reactors

Assessment of Nuclear Energy Systems Based on a Closed Nuclear Fuel Cycle with Fast Reactors

Author : R. Beatty

Publisher :

Page : 61 pages

File Size : 40,44 MB

Release : 2010

Category : Technology & Engineering

ISBN : 9789201014108

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Book Description

This publication reports the results of an evaluation of nuclear energy systems based on a closed nuclear fuel cycle with fast reactors (CNFC-FR). The study was carried out by an international group of experts from Canada, China, France, India, Japan, the Republic of Korea, the Russian Federation and Ukraine, using an assessment methodology developed by International Project on Innovative Nuclear Reactors and Fuel Cycles (INPRO). The INPRO methodology takes a holistic approach to assess innovative nuclear energy systems in seven areas: economics, infrastructure, safety, waste management, environment, proliferation resistance and physical protection. The study concluded that all INPRO requirements for a sustainable nuclear energy system are fulfilled by the assessed CNFC-FR except in the area of economics, where ongoing R&D programs will provide further insights to bridge knowledge gaps. The full report is available on the accompanying CD



Assessment of Nuclear Energy Systems Based on a Closed Fuel Cycle with Fast Reactors

Author : IAEA (Corporate Author)

Publisher :

Page : 73 pages

File Size : 38,86 MB

Release : 2012

Category :

ISBN :

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Book Description

This publication reports the results of an evaluation of nuclear energy systems based on a closed nuclear fuel cycle with fast reactors (CNFC-FR). The study was carried out by an international group of experts from Canada, China, France, India, Japan, the Republic of Korea, the Russian Federation and Ukraine, using an assessment methodology developed by the international project on innovative nuclear reactors and fuel cycles (INPRO). The INPRO methodology takes a holistic approach to assess innovative nuclear energy systems in seven areas: economics, infrastructure, safety, waste management, e.



Assessment of Nuclear Energy Systems Based on a Closed Nuclear Fuel Cycle with Fast Reactors

Author : IAEA (Corporate Author)

Publisher :

Page : 73 pages

File Size : 34,15 MB

Release : 2010

Category :

ISBN :

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Book Description

This publication reports the results of an evaluation of nuclear energy systems based on a closed nuclear fuel cycle with fast reactors (CNFC-FR). The study was carried out by an international group of experts from Canada, China, France, India, Japan, the Republic of Korea, the Russian Federation and Ukraine, using an assessment methodology developed by the International Project on Innovative Nuclear Reactors and Fuel Cycles (INPRO). The INPRO methodology takes a holistic approach to assess innovative nuclear energy systems in seven areas: economics, infrastructure, safety, waste management, e.



Assessment of Nuclear Energy Systems Based on a Closed Nuclear Fuel Cycle with Fast Reactors

Author : International Atomic Energy Agency

Publisher : International Atomic Energy Agency

Page : 67 pages

File Size : 44,64 MB

Release : 2012-11-01

Category : Reference

ISBN : 9789201347107

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Book Description

A Joint Study was started in 2005 and completed in 2007 within the International Project on Innovative Nuclear Reactors and Fuel Cycles (INPRO). Canada, China, France, India, Japan, the Republic of Korea, the Russian Federation, and Ukraine participated in this study. The objectives were to assess a nuclear energy system based on a closed fuel cycle (CNFC) with fast reactors (FR) regarding its sustainability, determine milestones for the nuclear energy system deployment, and establish frameworks for, and areas of, collaborative R&D work. The assessment was carried out in accordance with requirements of INPRO methodology and guiding documents of the Joint Study developed and approved by the participating parties (Canada and Ukraine participated in the discussions during the Joint Study but did not contribute to the assessments themselves)



Experience in Modelling Nuclear Energy Systems with MESSAGE

Author : International Atomic Energy Agency

Publisher :

Page : 280 pages

File Size : 10,67 MB

Release : 2018-02

Category : Technology & Engineering

ISBN : 9789201094179

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Book Description

Member States have recognized the increasing need to model future nuclear power scenarios in order to develop strategies for sustainable nuclear energy systems. The IAEA model for energy supply strategy alternatives and their general environmental impacts (MESSAGE) code is a tool that supports energy analysis and planning in Member States. This publication documents the experience gained on modelling and scenario analysis of nuclear energy systems (NES) using the MESSAGE code through various case studies performed by the participating Member States on evaluation and planning for nuclear energy sustainability at the regional or national level. The publication also elaborates on experience gained in modelling of global nuclear energy systems with a focus on specific aspects of collaboration among technology holder and technology user countries and the introduction of innovative nuclear technologies. It presents country case studies covering a variety of nuclear energy systems based on a once-through fuel cycle and a closed fuel cycle for thermal reactors, fast reactors and advanced systems. The feedback from case studies proves the analytical capabilities of the MESSAGE model and highlight the path forward for further advancements in the MESSAGE code and NES modelling.



Fast Spectrum Reactors

Author : Alan E. Waltar

Publisher : Springer Science & Business Media

Page : 717 pages

File Size : 39,60 MB

Release : 2011-09-28

Category : Technology & Engineering

ISBN : 1441995722

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Book Description

This book is a complete update of the classic 1981 FAST BREEDER REACTORS textbook authored by Alan E. Waltar and Albert B. Reynolds, which , along with the Russian translation, served as a major reference book for fast reactors systems. Major updates include transmutation physics (a key technology to substantially ameliorate issues associated with the storage of high-level nuclear waste ), advances in fuels and materials technology (including metal fuels and cladding materials capable of high-temperature and high burnup), and new approaches to reactor safety (including passive safety technology), New chapters on gas-cooled and lead-cooled fast spectrum reactors are also included. Key international experts contributing to the text include Chaim Braun, (Stanford University) Ronald Omberg, (Pacific Northwest National Laboratory, Massimo Salvatores (CEA, France), Baldev Raj, (Indira Gandhi Center for Atomic Research, India) , John Sackett (Argonne National Laboratory), Kevan Weaver, (TerraPower Corporation) ,James Seinicki(Argonne National Laboratory). Russell Stachowski (General Electric), Toshikazu Takeda (University of Fukui, Japan), and Yoshitaka Chikazawa (Japan Atomic Energy Agency).



Fuel Cycle Analysis Framework Base Cases for the IAEA/INPRO GAINS Collaborative Project

Author :

Publisher :

Page : pages

File Size : 37,61 MB

Release : 2012

Category :

ISBN :

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Book Description

Thirteen countries participated in the Collaborative Project GAINS "Global Architecture of Innovative Nuclear Energy Systems Based on Thermal and Fast Reactors Including a Closed Fuel Cycle", which was the primary activity within the IAEA/INPRO Program Area B: "Global Vision on Sustainable Nuclear Energy" for the last three years. The overall objective of GAINS was to develop a standard framework for assessing future nuclear energy systems taking into account sustainable development, and to validate results through sample analyses. This paper details the eight scenarios that constitute the GAINS framework base cases for analysis of the transition to future innovative nuclear energy systems. The framework base cases provide a reference for users of the framework to start from in developing and assessing their own alternate systems. Each base case is described along with performance results against the GAINS sustainability evaluation metrics. The eight cases include four using a moderate growth projection and four using a high growth projection for global nuclear electricity generation through 2100. The cases are divided into two sets, addressing homogeneous and heterogeneous scenarios developed by GAINS to model global fuel cycle strategies. The heterogeneous world scenario considers three separate nuclear groups based on their fuel cycle strategies, with non-synergistic and synergistic cases. The framework base case analyses results show the impact of these different fuel cycle strategies while providing references for future users of the GAINS framework. A large number of scenario alterations are possible and can be used to assess different strategies, different technologies, and different assumptions about possible futures of nuclear power. Results can be compared to the framework base cases to assess where these alternate cases perform differently versus the sustainability indicators.



Strategic and Policy Issues Raised by the Transition from Thermal to Fast Nuclear Systems

Author :

Publisher : OECD Publishing

Page : 92 pages

File Size : 15,97 MB

Release : 2009

Category : Business & Economics

ISBN :

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Book Description

The renewed interest in nuclear energy triggered by concerns about global climate change and security of supply, which could lead to substantial growth in nuclear electricity generation, enhances the attractiveness of fast neutron reactors with closed fuel cycles. Moving from the current fleet of thermal neutron reactors to fast neutron systems will require many decades and extensive RD&D efforts. This book identifies and analyses key strategic and policy issues raised by such a transition, aiming at providing guidance to decision makers on the best approaches for implementing transition scenarios. The topics covered in this book will be of interest to government and nuclear industry policy makers as well as to specialists working on nuclear energy system analyses and advanced fuel cycle issues.