431 research outputs found

    Expectations and experiences regarding radiation protection during geothermal operation

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    Managing NORM in geothermal installations Introductory presentation for Workshop with invited representatives of authorities, experts and industry

    Environmental impact assessment for the recycling of phosphogypsum in alternative cementitious binders

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    With the support of the Fund Prof. T. Van Autenboer, managed by the King Baudouin Foundation

    Environmental impact assessment for the recycling of phosphogypsum in alternative cementitious binders

    No full text
    With the support of the Fund Prof. T. Van Autenboer, managed by the King Baudouin Foundation

    Expectations and experiences regarding radiation protection during geothermal operation

    No full text
    Managing NORM in geothermal installations Introductory presentation for Workshop with invited representatives of authorities, experts and industry

    Freda Linde Collection index

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    This index describes the Freda Linde collection consists of material of Freda Linde, journalist, editor, translator and author of children's books. The collection contains correspondence ; manuscripts ; diaries ; notebooks ; translations ; personalia ; pamphlets ; research material ; illustrations ; reviews ; articles ; newspaper clippings ; photos compiled in 70 pamphlet boxes

    Assessing the impact of phosphogypsum composition on radon exhalation from alkali-activated materials

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    This study assessed the influence of phosphogypsum (PG) composition on the immobilisation potential of 222Rn in alkali-activated materials (AAMs) made with ground granulated blast furnace slag (GGBFS). The elemental composition of PG varies according to the origin of the ore and the process used. To improve recycling of PG, the effect of varying elemental composition on binder properties and radon exhalation needs to be assessed. The matrix properties were altered by incorporating different types and concentrations of PG as dry precursor as well as by varying the molarity of the sodium hydroxide alkali-activator. The resulting alkali-activated binders were characterised using gamma-ray spectrometry, X-ray diffraction (XRD), radon exhalation, mercury porosity, and compressive strength measurements. The massic activities of 226Ra, 228Th, 228Ra, and 40K were used to determine the Activity Concentration Index (ACI) of the dry precursor mixtures. Qualitative analysis of XRD diffractograms revealed the presence of mainly ettringite, bassanite, vaterite, aragonite, gypsum, and calcite with varying peak intensities in the different binders compositions. Radon exhalation rates ranged from 8 mBq/(kg.h) to 182 mBq/ (kg.h), and these values were used to calculate the radon emanation coefficient. An increase in the PG/GGBFS ratio was associated with a reduction in total mesoporous and microporous surface area. Additionally, higher PG content in the dry precursor mix resulted in a more consistent stabilisation of compressive strength with values ranging from 15 MPa to 20 MPa. These findings highlight a novel route to reduce radon exhalation while valorising an industrial by-product. By showing that PG incorporation both densifies the AAM matrix and sustains strength, this work provides a practical framework for developing safer, radiation-aware building materials.Funding This project has received funding from the Euratom research and training programme 2019–2020 under grant agreement No 900009 (RadoNorm) and runs under the Collaborative Doctoral Partnership between JRC and UHasselt, agreement number 35,342. Support for this work was provided by the King Baudouin foundation [project 2020- E2141050-E001]. Acknowledgement This project has received funding from the Euratom research and training programme 2019–2020 under grant agreement No 900009 (RadoNorm) and runs under the Collaborative Doctoral Partnership between JRC and UHasselt, agreement number 35342. Support for this work was provided by the King Baudouin foundation [project 2020- E2141050-E001]
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