Radiation protection (Centre d'étude nucléaire-Mol)

Language

English

Aims

At the end of this learning unit, the student is able to :
1	The aim of the course is: to introduce the student to the physical principles of the interaction of subatomic particles and high-energy radiation with matter to learn how to apply the concepts of external/internal radiation dosimetry to introduce the student to the biologic effects of ionising radiation to learn how to apply dispersion models to be able to calculate the effects of shielding materials to know the concepts and legislation of radiation protection to give an overview of the different methods for detecting and quantifying the presence of such particles and radiation to give an introduction to the principles of particle acceleration

Content

Part H. Thierens and K. Bacher
1: Radiological quantities and units
1.1   : Exposure and kerma
1.2   : Absorbed dose
1.3   : Equivalent dose
1.4   : Effective dose
1.5   : Operational dose quantities
2: External dosimetry
            2.1 : Ionometry of low energy photon fields
            2.2 : High energy photon fields: the Bragg Gray relation
            2.3 : Dosimetry of neutron fields
3: Internal dosimetry
            3.1 : Concept of committed dose equivalent
            3.2 : Concept of specific effective energy
            3.3 : Compartmental model analysis
            3.4 : Dosimetric model for the respiratory system
3.5 : Dosimetric model for the gastrointestinal tract
            3.6 : Dosimetric model for bone
            3.7 : Metabolic data of important fission products and actinides
4: Biological effects of ionizing radiation
            4.1 : Deterministic and stochastic effects
            4.2 : Overview of direct effects including utero
            4.3 : Overview of late effects: the UNSCEAR report
            4.4 : Biological effect models used in radiation protection
5: Engineering aspects of radiation shielding
            5.1 : Build up factors
            5.2 : Shielding of photon fields
            5.3 : Shielding of combined neutron-photon fields
6: Dispersion of effluents from nuclear facilities
            6.1 : Meteorology of dispersion
            6.2 : Diffusion of effluents-Pasquill conditions
            6.3 : External dose from plume
            6.4 : Internal dose from inhalation
7: Legislation and regulations
            7.1 : The ICRP 103 publication
            7.2 : The conceptual framework of radiological protection
            7.3 : The system of protection in occupational and public exposures
            7.4 : The system of protection in interventions, accidents and emergencies
8: Measurement techniques in radiation protection
            8.1 : Ionometry
            8.2 : Film dosimetry
            8.3: TLD dosimetry
            8.4: OSL dosimetry

Evaluation methods

Due to the COVID-19 crisis, the information in this section is particularly likely to change.

Written examination. Exercise part: "open book", theoretical part "closed book".
Report of lab sessions account for 20% in the total mark.

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. Hubert Thierens - Universiteit Gent
Prof. Klaus Bacher ' Universiteit Gent

Online resources

https://www.sckcen.be/fbnen

Faculty or entity

EPL