Szczegóły publikacji

Opis bibliograficzny

Evolution of the pore structure as a result of mineral carbonation of basalts from Poland in the context of accumulation and permanent storage of $CO_{2}$ / Anna Pajdak, Marta Skiba, Aleksandra Gajda, Łukasz Anioł, Katarzyna Kozieł, Jinfeng Liu, Katarzyna BERENT, Mateusz Kudasik // International Journal of Greenhouse Gas Control ; ISSN 1750-5836. — 2024 — vol. 137 art. no. 104221, s. 1-13. — Bibliogr. s. 11-13, Abstr. — Publikacja dostępna online od: 2024-08-14

Autorzy (8)

  • Pajdak Anna
  • Skiba Marta
  • Gajda Aleksandra
  • Anioł Łukasz
  • Kozieł Katarzyna A.
  • Liu Jinfeng
  • AGHBerent Katarzyna
  • Kudasik Mateusz

Słowa kluczowe

igneous rocksCentral European Volcanic Provincemineral carbonationCO2 sequestrationgeological storagebasaltCCS

Dane bibliometryczne

ID BaDAP156180
Data dodania do BaDAP2024-11-20
Tekst źródłowyURL
DOI10.1016/j.ijggc.2024.104221
Rok publikacji2024
Typ publikacjiartykuł w czasopiśmie
Otwarty dostęptak
Creative Commons
Czasopismo/seriaInternational Journal of Greenhouse Gas Control

Abstract

The aim of the work was to identify the basic structural properties of basalts from the Central European Volcanic Province in Poland in the context of assessing the possibility of permanent CO2 storage. The research was carried out on rock samples from three Polish basalt mines. An experiment on the reactivity of minerals contained in basalt was carried out in the original geochemical reactor. In an isolated system with a capacity of 100 cm3, proper analyzes of mineral carbonation were carried out for 65 days at a temperature of 293 K and a pressure of 0.43 MP. The pressure, pH and temperature of the process were recorded. The mechanism of structural changes that occurred in pores of different diameters was determined. SEM microscopic analyzes showed a transformation of the macroporosity and morphology of the sample. The formation of new voids and transport channels was observed, which resulted from the partial dissolution and conversion of minerals. At the same time, the pore surface area in the transitional pores and finest micropores has been reduced, indicating that the surface area of these pores have been overbuilt and the tight intrapore transport pathways have been clogged. The gravimetric measurements of the sorption capacity of basalt in relation to gaseous CO2 were also conducted. After the mineral carbonation process, the efficiency of CO2 accumulation decreased, which confirmed that the previously free pore space had been filled. Comprehensive scanning, structural and sorption studies confirmed the migration and multi-track transformation of minerals from basalt.

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