Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments

Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments

Artificial and singular geochemical environments are created around the engineered barrier systems (EBS) designed to isolate high level nuclear wastes in deep geological repositories. A concrete-bentonite interface takes place within the EBS and it builds a significant chemical gradient (pH), approx...

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Main Authors: Jaime Cuevas, Ana Isabel Ruiz, Raúl Fernández, Daniel González-Santamaría, María Angulo, Almudena Ortega, Elena Torres, María Jesús Turrero
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Minerals
Subjects:
concrete-bentonite interaction
nuclear waste
deep geological repository
engineered barrier system
Mg-clays
Online Access:http://www.mdpi.com/2075-163X/8/9/362
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spelling doaj-74bcb787de014f5e852aea82612989522020-11-25T01:03:13ZengMDPI AGMinerals2075-163X2018-08-018936210.3390/min8090362min8090362Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline EnvironmentsJaime Cuevas0Ana Isabel Ruiz1Raúl Fernández2Daniel González-Santamaría3María Angulo4Almudena Ortega5Elena Torres6María Jesús Turrero7Department of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainDepartment of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainDepartment of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainDepartment of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainDepartment of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainDepartment of Geology and Geochemistry, Faculty of Sciences, Autonomous University of Madrid, Cantoblanco, 28049 Madrid, SpainEnvironmental Applied Geology Unit. CIEMAT. Av. Complutense 40, 28040 Madrid, SpainEnvironmental Applied Geology Unit. CIEMAT. Av. Complutense 40, 28040 Madrid, SpainArtificial and singular geochemical environments are created around the engineered barrier systems (EBS) designed to isolate high level nuclear wastes in deep geological repositories. A concrete-bentonite interface takes place within the EBS and it builds a significant chemical gradient (pH), approximately from pH 8 (bentonite) to pH 12 (low alkali concrete), in a few millimetre thickness. This disequilibrium triggers dissolution and precipitation reactions and form a thin altered region. In this area, poorly ordered authigenic clay minerals, mainly hydrated magnesium silicates, are formed adjacent to hydrated calcium silicates and calcite precipitates adhered to the interface with concrete. This paper presents the development of this authigenic mineral layer comparing 6–18 months to 13 years interfaces. Scanning Electron Microscopy with Energy Dispersive X-ray spectroscopy (SEM-EDX) morphological and chemical characterization with the aid of ternary plots, X-ray diffraction (XRD) and infrared (IR) data show the young to old interface evolution from single brucite layers to stevensite-saponite silicates composition. Geochemical calculations indicate that this layer acts as a pH~11 buffer useful to minimize bentonite alteration and to favour the retention of amphoteric metal ions.http://www.mdpi.com/2075-163X/8/9/362concrete-bentonite interactionnuclear wastedeep geological repositoryengineered barrier systemMg-clays
collection DOAJ
language English
format Article
sources DOAJ
author Jaime Cuevas
Ana Isabel Ruiz
Raúl Fernández
Daniel González-Santamaría
María Angulo
Almudena Ortega
Elena Torres
María Jesús Turrero
spellingShingle Jaime Cuevas
Ana Isabel Ruiz
Raúl Fernández
Daniel González-Santamaría
María Angulo
Almudena Ortega
Elena Torres
María Jesús Turrero
Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
Minerals
concrete-bentonite interaction
nuclear waste
deep geological repository
engineered barrier system
Mg-clays
author_facet Jaime Cuevas
Ana Isabel Ruiz
Raúl Fernández
Daniel González-Santamaría
María Angulo
Almudena Ortega
Elena Torres
María Jesús Turrero
author_sort Jaime Cuevas
title Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
title_short Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
title_full Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
title_fullStr Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
title_full_unstemmed Authigenic Clay Minerals from Interface Reactions of Concrete-Clay Engineered Barriers: A New Perspective on Mg-Clays Formation in Alkaline Environments
title_sort authigenic clay minerals from interface reactions of concrete-clay engineered barriers: a new perspective on mg-clays formation in alkaline environments
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2018-08-01
description Artificial and singular geochemical environments are created around the engineered barrier systems (EBS) designed to isolate high level nuclear wastes in deep geological repositories. A concrete-bentonite interface takes place within the EBS and it builds a significant chemical gradient (pH), approximately from pH 8 (bentonite) to pH 12 (low alkali concrete), in a few millimetre thickness. This disequilibrium triggers dissolution and precipitation reactions and form a thin altered region. In this area, poorly ordered authigenic clay minerals, mainly hydrated magnesium silicates, are formed adjacent to hydrated calcium silicates and calcite precipitates adhered to the interface with concrete. This paper presents the development of this authigenic mineral layer comparing 6–18 months to 13 years interfaces. Scanning Electron Microscopy with Energy Dispersive X-ray spectroscopy (SEM-EDX) morphological and chemical characterization with the aid of ternary plots, X-ray diffraction (XRD) and infrared (IR) data show the young to old interface evolution from single brucite layers to stevensite-saponite silicates composition. Geochemical calculations indicate that this layer acts as a pH~11 buffer useful to minimize bentonite alteration and to favour the retention of amphoteric metal ions.
topic concrete-bentonite interaction
nuclear waste
deep geological repository
engineered barrier system
Mg-clays
url http://www.mdpi.com/2075-163X/8/9/362
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