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Reaction and microstructure development of one-part geopolymer for wellbore applications – An experimental and numerical study

Mayank Gupta, Xiujiao Qiu, Mohamed Omran, Yun Chen, Mahmoud Khalifeh, Guang Ye

2024Cement and Concrete Research9 citationsDOIOpen Access PDF

Abstract

This study focuses on the numerical modeling of the reaction and microstructure development of a one-part granite-based geopolymer, which is often used for carbon capture and storage (CCS) applications. This work extends the capabilities of GeoMicro3D to model one-part geopolymers containing different precursors and activators (solid and in solution). The model considers the particle size distribution of different solids and the real shape of particles to prepare the initial simulation domain. Further, the dissolution rates of different solids estimated from the experiments were used to model the dissolution of different elements in the pore solution. Subsequently, the model utilizes classical nucleation probability modeling coupled with thermodynamic modeling to estimate the precipitation of products in the microstructure. Experiments were performed to study the pore solution, reaction degree, and amount of products in the microstructure, which were further compared with the simulation results to check the rationality of the model. • Forward dissolution rates for Ca, Si and Al from various raw materials (slag, K 2 SiO 3 , micro silica) were measured. • Simulation of initial particle parking of raw materials considering real shape particles and particle size distribution. • Model can consider the dissolution rate of raw materials, transport, and nucleation of the products in the microstructure • The model predicts reaction degree, products, and pore solution composition, validated through experimental comparisons.

Topics & Concepts

MicrostructureGeopolymerWellboreMaterials scienceGeotechnical engineeringComposite materialMetallurgyGeologyMineralogyPetroleum engineeringFly ashConcrete and Cement Materials ResearchDrilling and Well EngineeringCO2 Sequestration and Geologic Interactions
Reaction and microstructure development of one-part geopolymer for wellbore applications – An experimental and numerical study | Litcius