Carbon dioxide dissolution and ammonia losses in bubble columns for precipitated calcium carbonate (PCC) production

A1 Journal article (refereed)


Internal Authors/Editors


Publication Details

List of Authors: Ron Zevenhoven, Daniel Legendre, Arshe Said, Mika Järvinen
Publisher: Elsevier
Place: Amsterdam
Publication year: 2019
Journal: Energy
Volume number: 175
Start page: 1121
End page: 1129
eISSN: 1873-6785


Abstract

The slag2PCC concept aims at transforming steelmaking slag into precipitated calcium carbonate (PCC) with market value. This paper reports on R&D work on two features that impact the overall performance and costs of slag2PCC as a carbon capture and utilisation (CCU) technology. Operating near ambient conditions, calcium is selectively leached from steelmaking slag using aqueous ammonium salt solvent, followed by carbonation using a CO2-containing stream. Separators for removing spent slag and PCC connect two reactors for extraction and carbonation, respectively, between which the solvent solution is cycling. One requirement is effective conversion of the CO2 fed to the system: while the dissolution of CO2 is the rate-liming step it is essential to minimise release of unreacted CO2. Mixing the solutions enhances mass transfer. High-speed video recordings were made around mixers located at various heights in a bubble column, analysing CO2 bubble swarm dissolution. A second feature studied are losses of ammonia (NH3) from the solution. An outlet for unreacted gas presents a risk of NH3 vapour release, which lowers solution alkalinity while adding costs. Multicomponent mixture mass transfer analysis showed that diffusion of NH3 into CO2 bubbles may be significant at least during initial stages of dissolution. Experimental findings were verified.


Keywords

ammonia, bubble column, carbon dioxide, diffusion, Slag2PCC, Steelmaking slag

Last updated on 2020-02-04 at 09:29