Submitted by Mi.Varokky@iaea.org on
Publication Code
STI/PUB/1807
ID
12200
Publication Type
Description

This publication provides a summary of the INPRO collaborative project on synergistic nuclear energy regional group interactions evaluated for sustainability. Benefits of nuclear technology innovation can be amplified through cooperation among countries in the nuclear fuel cycle. Nuclear energy sustainability can be enhanced, not only for technology holders but also for a variety of technology users, including those who do not pursue innovations in their home countries. If one partner in a synergistic collaboration is achieving enhanced sustainability, then the other partner(s) may achieve similar enhancement through collaboration without the requisite large national investments in technology, R&D and related infrastructure development. The publication presents 28 case studies conducted by Member States to identify and evaluate mutually beneficial patterns of co-operation in the nuclear fuel cycle and the driving forces and impediments involved in such co-operation.

Additional Description

<br/><br/>The companion material to this publication can be found below

Cover Image
ISBN
978-92-0-101118-3
Publication Original Id
12200
Publication Year
2018
Publication Date
Publication Issue Date
Publication Series Info
NF-T-4.9
Price
66.00
Number of Pages
341
Number of Figures
227
Publication Medium
Print (Paper)
Keywords
IAEA Nuclear Energy, Reactor Technology, International Cooperation, International Project, Nuclear Reactor, Nuclear Fuel Cycle, Energy Policy, Countries, INPRO, Infrastructure, Case Studies, Member States, Synergistic Collaboration, Synergistic Nuclear Energy Regional Group Interactions Evaluated for Sustainability, SYNERGIES, Analytical Framework, Codes, Databases, NES, Research and Development, Demonstration, Global Architecture of Innovative Nuclear Energy Systems Based on Thermal and Fast Reactors Including a Closed Fuel Cycle, GAINS, Fuel Cycle, Technology Development, Training, Assessment, Heterogeneous Global Model, Security, Scenarios, Fast Reactors, Waste Transmutation
Publication File Type
application/pdf
Publication File Size
14637
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