ASSESSING THE CARBON SEQUESTRATION POTENTIAL IN SOUTHWESTERN SWEDEN A comparative study of igneous rock from Greenland, Iceland, and Sweden to evaluate the carbonatization potential of the Billdal area, SW Sweden

The main purpose of this study is to investigate the potential of geological Carbon Capture and Storage (CCS) in SW Sweden using an innovative technique which mimics Earth's natural way of regulating the global carbon cycle by turning CO2 gas into carbonate minerals. To achieve this, comparativ...

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Bibliographic Details
Main Author: Temmar, Alaël
Other Authors: University of Gothenburg/Department of Earth Sciences, Göteborgs universitet/Institutionen för geovetenskaper
Language:English
Published: 2023
Subjects:
Climate change
carbon sequestration
rock – water geochemistry
petrology
carbonatization reaction
XRD
SEM
Greenland
Iceland
Online Access:https://hdl.handle.net/2077/78241
Description
Summary:The main purpose of this study is to investigate the potential of geological Carbon Capture and Storage (CCS) in SW Sweden using an innovative technique which mimics Earth's natural way of regulating the global carbon cycle by turning CO2 gas into carbonate minerals. To achieve this, comparative experiments on CCS potential were conducted using six different igneous rock samples. These encompassed granite, gabbro, and dolerite of Proterozoic age from the Billdal area in Gothenburg, Sweden, 1.3 Ga nepheline syenite and carbonatite from the Grønnedal-Íka alkaline complex in SW Greenland, and a young basalt from the Holuhraun volcanic eruption in Iceland 2014 – 2015. Powdered rock samples of size 45 – 250 μm were subjected to carbonation reactions with carbonated deionized water in closed systems at ambient temperature, 50°C, and 100°C, respectively. The room temperature experiments lasted 63 days, while the 50°C ran for 32 days, and the 100°C were conducted in a manner of three hours. The three experimental sets were monitored daily by recording the pH of the solutions, showing gradual increases in pH with time until reaching stable levels within the basic range. Among the rock samples, gabbro exhibited the highest pH value (8.68) at room temperature, while syenite demonstrated the highest pH (9.01) at 50°C, and carbonatite displayed the highest pH (8.42) at 100°C. After reaching a stable pH ~8, a weak NaHCO3 – Na2CO3 solution of pH 9.2 was added to the solutions to enhance the potential of carbonate precipitation. Pre- and post- treated powdered rock samples were analysed using X-Ray Diffraction (XRD), Scanning Electron Microscopy with Energy Dispersive X-Ray Spectroscopy (SEM – EDX), Circular Back Scatter detector (CBS), and Everhart-Thornley Detector (ETD). Results using XRD showed no carbonate precipitate while results of SEM-EDX found carbonate precipitates, most likely calcite, on basalt, carbonatite, and nepheline syenite, but no precipitation on the granite, gabbro, and dolerite. The low carbonatization ...

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