Characterisation of dolomites before and after reactivity measurement with HCl solution

A1 Journal article (refereed)

Internal Authors/Editors

Publication Details

List of Authors: Lauri Järvinen, Jarkko Leiro, Frej Bjondahl, Claudio Carletti, Tom Lundin, Kristian Gunnelius, Jan-Henrik Smått, Olav Eklund
Publication year: 2015
Journal: Surface and Interface Analysis
Journal acronym: Surf. Interface Anal.
Volume number: 47
Issue number: 2
Start page: 284
End page: 294
eISSN: 1096-9918


The aim of this study was to compare different types of dolomites thro ugh batch reactivity experiments betwee n HCl and dolomite powders, and ex-situ characterisation of the part icles before and after dissolu tion. Sedimen tary do lomites wer e observed t o have higher initial reactivities than metamorphic ones with sufficiently low calcite concentrations (<6% according to our regression model). In addi tion, the initial reactivities of the me tamorphic dolomit es were dependent on calcite conc entration and could excee d those of the sedimenta ry dolomites. A regre ssion model is present ed for the dependence of initial reactivity on mineral composition and type of o rigin (sedim entary/m etamorphic). The s amples wit h the highest initia l reactiv ities had also th e largest BET (Bruna uer, Emm et, Teller) surface areas obtained with nitrogen physisorption. Yet our data indicates that mineral composition of the dolomite has a great er influence on the initial reactivity t han the BET surface area. F urthermore, it w as found that the surface of sediment ary dolomites, unlike the surface of metamorphic dolomites, becomes porous during dissolution.


Characterization, Dolomite dissolution, water–rock interaction

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