Abstract:
Wellbore integrity during Carbon Dioxide (CO2)
storage in deep aquifers is a major problem as the currently used
well cement will lose its integrity at higher temperatures and
eventually leads to CO2 leakage into the atmosphere. Researchers
have conducted several studies in order to find a proper well
cement material and have tested several types of geopolymers
mixing fly ash and different type of cements with an alkaline
solution curing in different temperatures. This paper presents a
study on geopolymer composites made from fired siltstone, slag as
well as alkaline liquid which were cured at temperatures ranging
from 23 0C to 80 0C. Five different types of geopolymer were
prepared with ratios of fired siltstone (to 700 oC) and slag as 0:100,
20:80, 30:70, 40:60 and 50:50, separately. After preparing samples
with various proportions under different temperatures, the
mechanical properties of them were compared. The experimental
results reveal that optimum curing temperature range is 50 to 70
0C and addition of higher proportion of slag would help
geopolymer gain better performance on mechanical strength
compared to other geopolymer materials.
Citation:
A. Ranathunga, R. P. Gamage and X. Liu, "Fired-Siltstone Based Geopolymers for CO2 Sequestration Wells : A Study on the Effect of Curing Temperature," 2018 Moratuwa Engineering Research Conference (MERCon), 2018, pp. 595-600, doi: 10.1109/MERCon.2018.8421984.