Cangqin Jia scite author profile

Cangqin Jia

3Publications

2Citation Statements Received

58Citation Statements Given

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177

Affiliations

China University of Geosciences (Beijing), Ministry of Natural Resources

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Role of Na-Montmorillonite on Microbially Induced Calcium Carbonate Precipitation

et al. 2021

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The use of additives has generated significant attention due to their extensive application in the microbially induced calcium carbonate precipitation (MICP) process. This study aims to discuss the effects of Na-montmorillonite (Na-MMT) on CaCO3 crystallization and sandy soil consolidation through the MICP process. Compared with the traditional MICP method, a larger amount of CaCO3 precipitate was obtained. Moreover, the reaction of Ca2+ ions was accelerated, and bacteria were absorbed by a small amount of Na-MMT. Meanwhile, an increase in the total cementing solution (TCS) was not conducive to the previous reaction. This problem was solved by conducting the reaction with Na-MMT. The polymorphs and morphologies of the CaCO3 precipitates were tested by using X-ray diffraction and scanning electron microscopy. Further, when Na-MMT was used, the morphology of CaCO3 changed from an individual precipitate to agglomerations of the precipitate. Compared to the experiments without Na-MMT in the MICP process, the addition of Na-MMT significantly reduced the hydraulic conductivity (HC) of sandy soil consolidated.

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Physical-mechanical properties of microbially induced calcite precipitation-treated loess and treatment mechanism

et al. 2022

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Valorization of Water-Based Drill Cuttings through the Bio-Carbonation Approach

Tang

Huang

Wang

et al. 2022

Advances in Materials Science and Engineering

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This study proposed a novel bio-carbonation method to recycle water-based drill cutting (WDC) to prepare samples, which contains reactive magnesia (MgO) cement (RMC), ground granulated blast furnace slag (GGBS), and fly ash (FA), with the adoption of microbially induced carbonate precipitation (MICP). Through the investigation of some parameters (i.e., GGBS content, FA content, and curing time), the microstructures and strength development of bio-carbonated RMC-based WDC samples were evaluated. The preliminary results revealed that bio-carbonated RMC-based WDC samples outperformed the control group (i.e., without bio-carbonation) in terms of the 28-day strength (i.e., 9.8 MPa versus 4.4 MPa), which can be assigned to formation of the carbonates, that is, hydrated magnesium carbonates (HMCs). Further, in addition to the identification of HMCs, the microstructural analysis also revealed a continuous carbonate network due to the presence of HMCs, which accounts for the strength boost of samples.

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Cangqin Jia

Role of Na-Montmorillonite on Microbially Induced Calcium Carbonate Precipitation

Physical-mechanical properties of microbially induced calcite precipitation-treated loess and treatment mechanism

Valorization of Water-Based Drill Cuttings through the Bio-Carbonation Approach

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