Nickel Retention on Callovo-Oxfordian Clay: Applicability of Existing Adsorption Models for Dilute Systems to Real Compact Rock.
Gilles MontavonCatherine LerougeKarine DavidSolange RibetYahaya Hassan-LoniMyriam LeferrecCéline BaillyJean-Charles RobinetBernd GrambowPublished in: Environmental science & technology (2020)
In a waste management context, predicting the mobility of contaminants is essential. A key issue entails assessing the applicability of current knowledge on adsorption processes to natural systems. Such is the focus herein for nickel in interaction with Callovo-Oxfordian (COx) clay rock, a formation selected in France for possible radioactive waste disposal. The challenge is to link predictive modeling results with the experimental data characterizing the behavior of the labile and naturally occurring Ni fraction by implementing a new simple method. Retention studies on compact systems serve to complete this work. Combined electron microprobe and laser ablation high-resolution inductively coupled plasma mass spectrometry data show that natural Ni (∼39 mg kg-1) is homogeneously distributed within the clay matrix, which corresponds to the main reservoir (∼70%). Data interpretation of desorption tests yields an in situ Kd value of ∼80 L kg-1 and a labile Ni amount of ∼5 mg kg-1, that is, ∼13% of the Ni inventory. Predictive modeling explains the sorption data in considering that only weak clay fraction sites take part in the adsorption. The role of the clay matrix in Ni retention is confirmed by analyzing the Ni-spiked compact COx samples, whereby an increase of the Ni content in the clay fraction is observed following the retention experiment.
Keyphrases
- metal organic framework
- electronic health record
- high resolution
- mass spectrometry
- transition metal
- big data
- healthcare
- heavy metals
- aqueous solution
- municipal solid waste
- liquid chromatography
- data analysis
- quality improvement
- sewage sludge
- machine learning
- atrial fibrillation
- carbon nanotubes
- tandem mass spectrometry
- gas chromatography
- psychometric properties
- electron microscopy