Selection of acid for weak acid processing of wollastonite for mineralisation of CO₂

Ghoorah, Manisha; Dlugogorski, Bogdan Z.; Balucan, Reydick D.; Kennedy, Eric M.

Title: Selection of acid for weak acid processing of wollastonite for mineralisation of CO₂
Creator: Ghoorah, Manisha; Dlugogorski, Bogdan Z.; Balucan, Reydick D.; Kennedy, Eric M.
Relation: Fuel Vol. 122, p. 277-286
Publisher Link: http://dx.doi.org/10.1016/j.fuel.2014.01.015
Publisher: Elsevier
Resource Type: journal article
Date: 2014
Description: Typically, mineral carbonation comprises aqueous phase reactions involving the dissolution of naturally occurring magnesium and calcium silicate rocks, such as olivine, serpentinites and wollastonite, followed by the precipitation of magnesium and calcium carbonate minerals. In this report, we evaluated the effect of formic, acetic and DL-lactic acids on the calcium-leaching process from wollastonite between 22°C and 80°C and at atmospheric pressure. OLI Analyzer Studio 3.0 predicted equilibrium conversions of calcium and its speciation in the aqueous phase. Additionally, we measured dissolution rates, for a constant pH system, as a function of temperature for the three organic acids. All experiments involved the reaction of 17 ± 1 µm (volume mean diameter) ground rock samples with the acids in a stirred batch reactor equipped with in situ pH measurements. Inductively coupled plasma-optical emission spectrometry (ICP-OES) analysed the concentration of calcium ions in the leaching medium while scanning electron microscopy/energy dispersive spectroscopy (SEM/EDS) examined the morphology and surface chemical composition of the residual solid phase from dissolution experiments. We estimated the maximum dissolution rates of wollastonite in the limit of low but achievable pH and in the absence of diffusion limitation in pores and cracks of the SiO₂ skin. At 80°C, these rates correspond to 26(±7) × 10^-5, 14(±3) × 10^-5 and 17(±4) × 10^-5 mol m^-2 s^-1 for formic, acetic and DL-lactic acids, respectively. The apparent activation energies amount to 11 ± 3, 47 ± 13 and 52 ± 14 kJ mol^-1 for dissolution in formic, acetic and DL-lactic acids, respectively. These values indicate the initial diffusion limitation in the film around wollastonite particles for formic acid, and kinetic limitation for acetic and DL-lactic acids. The rates of dissolution rapidly decline for acetic and DL-lactic acids, but remain high for formic acid. The findings are altogether indicative of high performance of formic acid for extraction of Ca²⁺ for storing CO₂. Further experiments are needed to assess the recycling of formic acid to determine its overall suitability as a Ca²⁺ carrier for the weak acid process.
Subject: mineral carbonation; formic acid; dissolution; Wollastonite
Identifier: http://hdl.handle.net/1959.13/1305564
Identifier: uon:21073
Identifier: ISSN:0016-2361
Language: eng
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