Article contents
Advances in conditioning of low- and intermediate-level nuclear waste
Published online by Cambridge University Press: 10 December 2017
Abstract
Radioactive waste with widely varying characteristics is generated from the operation and maintenance of nuclear reactors, nuclear fuel cycle facilities, research facilities and medical facilities and the through the use of radioisotopes in industrial applications. The waste needs to be treated and conditioned appropriately to provide wasteforms acceptable for safe storage and disposal. Conditioning of radioactive waste is an important step to prepare waste for long-term storage or disposal and includes the following processes:
▪ Immobilization which may or may not also provide volume reduction, including
a) Low temperature processes and
b) Thermal processes;
▪ Containerization for
a) Transport,
b) Storage, and
c) Disposal;
▪ Overpacking of primary containers
a) Prior to disposal and
b) In a disposal facility as part of disposal process.
Conditioning consists of operations that produce a waste package suitable for handling, transportation, storage and/or disposal and may be performed for a variety of reasons including standardization of practices and/or wasteforms, technical requirements for waste stability in relation to a repository design or safety case, technical requirements related to waste transportation, societal preferences, regulatory preferences, etc. This paper gives an overview of recent advances in conditioning of low- and intermediate-level radioactive waste.
The paper is based on the new IAEA Handbook “Conditioning of Low- and Intermediate-Level Liquid, Solidified and Solid Waste” which is one of eight IAEA handbooks intended to provide guidance for evaluating and implementing various characterisation and radioactive waste processing and storage technologies before final disposal
- Type
- Articles
- Information
- MRS Advances , Volume 3 , Issue 19: Scientific Basis for Nuclear Waste Management XLI , 2018 , pp. 983 - 990
- Copyright
- Copyright © Materials Research Society 2017
References
REFERENCES
- 4
- Cited by