Nuclear fuel cycle (Centre d'étude nucléaire-Mol)

3 credits

Language

English

Prerequisites

The following BNEN courses are a prerequisite

Nuclear Energy: Introduction
Introduction to Nuclear Physics and Measurements

Basic chemistry, material sciences, nuclear physics

Aims

At the end of this learning unit, the student is able to :

The objective is to provide students an overall view of the fuel cycle, from cradle to grave:

The front-end of the fuel cycle: ore extraction, conversion and enrichment, fuel fabrication and use in the power plant, spent fuel reprocessing and recycling of re-enriched reprocessed U and Pu as MOX in PWR.
The back-end of the fuel cycle: the radioactive waste management, ranging from waste characteristics, waste treatment technologies, disposal technologies, safety assessment of geologic disposal.

The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.

Content

First part -The front-end of the fuel cycle (H Druenne)

Uranium extraction and treatment of ores; worldwide resources ;Conversion of concentrated ores ;
U enrichment: Basic principles of isotopic separation. Theory of the cascade (symmetrical cascade) and description of the main techniques;
Fabrication process and description of the various current commercial fuel types;
Basics of the in-core fuel management;
Isotopic evolution under irradiation regarding residual heat and source term;
Reprocessing of UO2 fuel elements: description of the PUREX process ;
Recycling of U and Pu: technology and industrial limits, equivalence principle and MOX neutronic design;
Interim storage : description of the main concepts for dry and wet storage.

Second part -The back-end of the fuel cycle (P. Van Iseghem)

Categories, inventory of radioactive waste
Conditioning and immobilisation of radioactive waste
Characterization of radioactive waste (general; scaling factors; destructive analysis; non-destructive analysis)
Assessment of the safety of geological disposal (methodology; some typical results from the safety assessment)
Impact of new fuel cycles on radioactive waste disposal
Geological repositories: key criteria for designing a disposal concept, overview of ongoing international programmes, and discussion of the Belgian supercontainer concept.
Technical visits to the Belgoprocess facility and to the ESV underground research laboratory in clay on the SCK-CEN site

Evaluation methods

Oral examination; written preparation

Other information

This course is part of the Advanced Master programme in nuclear engineering organized by the Belgian Nuclear Higher Education Network (BNEN). BNEN is organised through a consortium of six Belgian universities and the Belgian Nuclear Research Centre, SCK-CEN and takes place at the SCK-CEN in Mol.
Prof. Pierre Van Iseghem -Université de Liège
Prof. Hubert Druenne- Université de Liège

Online resources

https://www.sckcen.be/fbnen

Faculty or entity

EPL

Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme

Sigle

Credits

Prerequisites

Aims

Specialised master in nuclear engineering

GNUC2MC