Red-Impact: A European Research Programme to assess the Impact of Partitioning and Transmutation on Final Nuclear Waste Disposal

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

Authors

  • W. von Lensa
  • L. Boucher
  • E. Gonzales
  • D. Greneche
  • W. Gudowski
  • Jan Marivoet
  • R. Nabbi
  • R. Odoj
  • C.H. Zimmerman

Institutes & Expert groups

Documents & links

Abstract

It is the objective of the EU-funded ‘Red-Impact’ project to analyse the impact of partitioning, transmutation and waste reduction technologies on the final nuclear waste disposal. The partnership of 25 organisations is originating from European nuclear industry, waste agencies, research centres and universities. The system studies focus on a realistic evolution of P&T technologies and advanced fuel cycles which can be deployed incrementally on an industrial scale as well as on future developments such as reactors of the third and fourth generation (Gen III & Gen IV) and Accelerator Driven Systems (ADS). Evaluating actinide minimization systems and industrialised P&T in general requires an assessment of relevant nuclear fuel cycles especially with regard to the economic, environmental and societal advantages/disadvantages (i.e. the sustainability of the fuel cycles). Thus, a set of indicators has been derived for each of these areas. The results are analysed using the multi-criterion analysis approach which allows the importance of each of the indicators to be specified.

Details

Original languageEnglish
Title of host publicationProceedings ICAPP 2007 International Congress on Advances in Nuclear Power Plants
Place of PublicationFrance
Publication statusPublished - May 2007
Event2007 - ICAPP - International Congress on Advances in Nuclear Power Plants - SFEN (Société Française d'Energie Nucléaire), Nice, France
Duration: 13 May 200718 May 2007

Conference

Conference2007 - ICAPP - International Congress on Advances in Nuclear Power Plants
CountryFrance
CityNice
Period2007-05-132007-05-18

Keywords

  • advanced fuel cycles, partitioning and transmutation, impact, radioactive waste management

ID: 81094