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Modelling evolution in the near field of a cementitious repository (2013)

Hoch, A. R., Baston, G. M. N., Glasser, F. P., Hunter, F. M. I., Smith, V., Evans, N.

Mineralogical Society of Great Britain and Ireland

In: Mineralogical Magazine

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Publication Date: 2013-01-30

Description: In the United Kingdom, disposal of radioactive waste may involve packages of grouted waste being placed in a geological disposal facility (GDF) and surrounded by a cementitious backfill. This paper describes modelling that has been carried out to develop an understanding of the possible spatial and temporal evolution within the GDF. A single waste package is assumed to be filled with an encapsulation grout, placed in an underground vault and surrounded by a cementitious backfill. Groundwater from the host rock flows into the vault and through the backfill. A simplified model system examines the interactions between groundwater, cementitious backfill and grout. In most cases the model predicts a reduction in the backfill porosity due to precipitation and dissolution reactions, particularly at the upstream edge of the vault. The degree to which this occurs depends on the groundwater composition. The model also predicts precipitation and dissolution reactions would occur in the grouts close to their interface with the backfill, reducing the local porosity significantly which may isolate the grouts from the backfill, so that the pH within the grouts would be unchanged over an extended period.

Print ISSN: 0026-461X

Electronic ISSN: 1471-8022

Topics: Geosciences

Published by Mineralogical Society of Great Britain and Ireland

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Calcium silicate hydrate (C-S-H) gel dissolution and pH buffering in a cementitious near field (2013)

Baston, G. M. N., Clacher, A. P., Heath, T. G., Hunter, F. M. I., Smith, V., Swanton, S. W., Evans, N.

Mineralogical Society of Great Britain and Ireland

In: Mineralogical Magazine

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Publication Date: 2013-01-30

Description: A cementitious backfill has been proposed in many geological disposal concepts for intermediate-level waste and low-level waste in the UK and elsewhere. In this paper, the main features of the chemical evolution of backfill and the associated changes in the near-field pH are illustrated with results from recent work. For example, interaction of the groundwater with calcium silicate hydrate (C-S-H) phases in a backfill is expected to play an important role in the long-term pH-buffering behaviour. Existing experimental data for the dissolution of C-S-H gels are compared with recent experimental results from leach tests on gels of a lower calcium to silicon ratio (C/S) to provide a consistent set of data across the full C/S range. The results confirm that a congruent dissolution point around C/S = 0.8 is approached by leaching from below (i.e. for gels with 0.29 〈 C/S 〈 0.8), as well as from above, as reported elsewhere. In addition, a spreadsheet model has been developed to calculate the volume of backfill required at the vault scale to meet specified pH performance criteria. This model includes the major reactions of the backfill with the groundwater, waste encapsulants and waste components. It can also consider the effects of specific waste packages on local pH performance to allow comparison with the vault-scale calculations.

Print ISSN: 0026-461X

Electronic ISSN: 1471-8022

Topics: Geosciences

Published by Mineralogical Society of Great Britain and Ireland

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Modelling evolution in the near field of a cementitious repository (2012)

Hoch, A. R. ; Baston, G. M. N. ; Glasser, F. P. ; [et al.]

Mineralogical Society of Great Britain and Ireland

In: Mineralogical Magazine. 2012; 76(8): 3055-3069. Published 2012 Dec 01. doi: 10.1180/minmag.2012.076.8.21.

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Publication Date: 2012-12-01

Description: In the United Kingdom, disposal of radioactive waste may involve packages of grouted waste being placed in a geological disposal facility (GDF) and surrounded by a cementitious backfill. This paper describes modelling that has been carried out to develop an understanding of the possible spatial and temporal evolution within the GDF.A single waste package is assumed to be filled with an encapsulation grout, placed in an underground vault and surrounded by a cementitious backfill. Groundwater from the host rock flows into the vault and through the backfill. A simplified model system examines the interactions between groundwater, cementitious backfill and grout.In most cases the model predicts a reduction in the backfill porosity due to precipitation and dissolution reactions, particularly at the upstream edge of the vault. The degree to which this occurs depends on the groundwater composition. The model also predicts precipitation and dissolution reactions would occur in the grouts close to their interface with the backfill, reducing the local porosity significantly which may isolate the grouts from the backfill, so that the pH within the grouts would be unchanged over an extended period.

Print ISSN: 0026-461X

Electronic ISSN: 1471-8022

Topics: Geosciences

Published by Mineralogical Society of Great Britain and Ireland

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4

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Calcium silicate hydrate (C-S-H) gel dissolution and pH buffering in a cementitious near field (2012)

Baston, G. M. N. ; Clacher, A. P. ; Heath, T. G. ; [et al.]

Mineralogical Society of Great Britain and Ireland

In: Mineralogical Magazine. 2012; 76(8): 3045-3053. Published 2012 Dec 01. doi: 10.1180/minmag.2012.076.8.20.

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Publication Date: 2012-12-01

Description: A cementitious backfill has been proposed in many geological disposal concepts for intermediate-level waste and low-level waste in the UK and elsewhere. In this paper, the main features of the chemical evolution of backfill and the associated changes in the near-field pH are illustrated with results from recent work. For example, interaction of the groundwater with calcium silicate hydrate (C-S-H) phases in a backfill is expected to play an important role in the long-term pH-buffering behaviour. Existing experimental data for the dissolution of C-S-H gels are compared with recent experimental results from leach tests on gels of a lower calcium to silicon ratio (C/S) to provide a consistent set of data across the full C/S range. The results confirm that a congruent dissolution point around C/S = 0.8 is approached by leaching from below (i.e. for gels with 0.29 〈 C/S 〈 0.8), as well as from above, as reported elsewhere. In addition, a spreadsheet model has been developed to calculate the volume of backfill required at the vault scale to meet specified pH performance criteria. This model includes the major reactions of the backfill with the groundwater, waste encapsulants and waste components. It can also consider the effects of specific waste packages on local pH performance to allow comparison with the vault-scale calculations.

Print ISSN: 0026-461X

Electronic ISSN: 1471-8022

Topics: Geosciences

Published by Mineralogical Society of Great Britain and Ireland

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