Naturally Occurring Radioactive Materials in Construction

Informationen zum Autor Dr. Schroeyers is Full Professor at Hasselt University, Belgium. He is the head of the educational management team for nuclear technology and a researcher at the Nuclear Technological Centre (NuTeC) of the Research Institute for Environmental Sciences (CMK). He completed a PhD in Chemistry at KU Leuven in 2005. His research, at the intersection of chemistry, materials science, and nuclear engineering, focuses on developing suitable management options for radiological residues., particularly on methods and protocols for characterization of natural and artificial radionuclides, radiological monitoring, nuclear decommissioning, recycling and immobilization of radiological wastes and residues in cementitious binders and concrete. He was the chair of the COST Action NORM4Building (2014-2017) and is the co-founder of the European NORM Association (2017) and the SHARE (Social Sciences and Humanities in Ionizing Radiation Research) network. He is a member of the central management team for the Belgian Society for Radiation Protection and, in 2017, edited Naturally Occurring Radioactive Materials in Construction (Elsevier). Klappentext Naturally Occurring Radioactive Materials in Construction (COST Action NORM4Building) discusses the depletion of energy resources and raw materials and its huge impact not only on the building market, but also in the development of new synthetic building materials, whereby the reuse of various (waste) residue streams becomes a necessity. It is based on the outcome of COST Action TU 1301, where scientists, regulators, and representatives from industry have come together to present new findings, sharing knowledge, experiences, and technologies to stimulate research on the reuse of residues containing enhanced concentrates of natural radionuclides (NORM) in tailor-made building materials. Chapters address legislative issues, measurement, and assessment of building materials, physical and chemical aspects, from raw materials, to residues with enhanced concentrations of natural radionuclides (NORM), processes, building products containing NORM, and end-of-life and reuse requirements. Inhaltsverzeichnis 1. Objectivves 2. Introduction 3. Basic Aspects on Natural Radioactivity 4. Legislative Aspects 5. Measurement of NORM 6. From Raw Materials to NORM Containing By-Products 7. From NORM Containing By-Products to Building Materials 8. Leaching Assessment as a Component of Environmental Safety and Durability Analyses for NORM Containing Building Materials 9. Non-Technical Aspects that Influence the Reuse of NORM in the Construction Industry 10. General Conclusion and the Way Forward ...

Autorentext
Dr. Schroeyers is Full Professor at Hasselt University, Belgium. He is the head of the educational management team for nuclear technology and a researcher at the Nuclear Technological Centre (NuTeC) of the Research Institute for Environmental Sciences (CMK). He completed a PhD in Chemistry at KU Leuven in 2005. His research, at the intersection of chemistry, materials science, and nuclear engineering, focuses on developing suitable management options for radiological residues., particularly on methods and protocols for characterization of natural and artificial radionuclides, radiological monitoring, nuclear decommissioning, recycling and immobilization of radiological wastes and residues in cementitious binders and concrete. He was the chair of the COST Action NORM4Building (2014-2017) and is the co-founder of the European NORM Association (2017) and the SHARE (Social Sciences and Humanities in Ionizing Radiation Research) network. He is a member of the central management team for the Belgian Society for Radiation Protection and, in 2017, edited Naturally Occurring Radioactive Materials in Construction (Elsevier).

Klappentext

Naturally Occurring Radioactive Materials in Construction (COST Action NORM4Building) discusses the depletion of energy resources and raw materials and its huge impact not only on the building market, but also in the development of new synthetic building materials, whereby the reuse of various (waste) residue streams becomes a necessity.

It is based on the outcome of COST Action TU 1301, where scientists, regulators, and representatives from industry have come together to present new findings, sharing knowledge, experiences, and technologies to stimulate research on the reuse of residues containing enhanced concentrates of natural radionuclides (NORM) in tailor-made building materials.

Chapters address legislative issues, measurement, and assessment of building materials, physical and chemical aspects, from raw materials, to residues with enhanced concentrations of natural radionuclides (NORM), processes, building products containing NORM, and end-of-life and reuse requirements.

Inhalt

1. Objectivves
   
   2. Introduction
   3. Basic Aspects on Natural Radioactivity
   4. Legislative Aspects
   5. Measurement of NORM
   6. From Raw Materials to NORM Containing By-Products
   7. From NORM Containing By-Products to Building Materials
   8. Leaching Assessment as a Component of Environmental Safety and Durability Analyses for NORM Containing Building Materials
   9. Non-Technical Aspects that Influence the Reuse of NORM in the Construction Industry
   10. General Conclusion and the Way Forward