Sandy Soil Improvement Using MICP-Based Urease Enzymatic Acceleration Method Monitored by Real-Time System

This paper aims at monitoring the improvement of sandy soil properties with biocementation through the microbially induced calcite precipitation (MICP) method with reaction accelerations by self-developed soybean urease enzymes. In this study, the concentration of calcium ions (Ca2+ ions as CaCl2) i...

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Published inAdvances in materials science and engineering Vol. 2021; no. 1
Main Authors Iamchaturapatr, Janjit, Piriyakul, Keeratikan, Ketklin, Thanate, Di Emidio, Gemmina, Petcherdchoo, Aruz
Format Journal Article
LanguageEnglish
Published New York Hindawi 2021
John Wiley & Sons, Inc
Wiley
Subjects
Acceleration
Acidification
Bacteria
Bender elements
Calcite
Calcium carbonate
Calcium chloride
Calcium ions
Chemical precipitation
Enzymes
Mechanical properties
Monitoring
Morphology
Particle size
Precipitation
Real time
Sand
Sandy soils
Shear modulus
Shear strength
Shear tests
Soil improvement
Soil properties
Soybeans
Online AccessGet full text
ISSN1687-8434
1687-8442
DOI10.1155/2021/6905802

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Abstract This paper aims at monitoring the improvement of sandy soil properties with biocementation through the microbially induced calcite precipitation (MICP) method with reaction accelerations by self-developed soybean urease enzymes. In this study, the concentration of calcium ions (Ca2+ ions as CaCl2) is varied at 50, 100, 250, and 500 mM to determine an optimum shear strength. The self-developed soybean urease enzymes of 20% by volume (v/v) are used to accelerate the MICP reaction to finish within 7 days. Based on real-time monitoring bender element system and direct shear tests, the optimum Ca2+ concentration is found as 250 mM. However, a detrimental effect occurs in case of high concentration of Ca2+ as CaCl2 (500 mM) because of solution acidification from high Cl− concentration. This condition lowers CaCO3 precipitation causing the reduction of biocementation process. At equivalent shear modulus, the biocementation time of MICP-based sand with acceleration by urease enzymes is about 10 times faster than that without. Using spectrophotometer and pH meter, the ammonification rate and the solution pH of biocemented sand with acceleration by urease enzymes for 3 days are found relatively higher than those without urease enzymes for 40 days. The analyses by scanning electron microscopy (SEM) and X-ray diffraction (XRD) confirm not only the occurrence of CaCO3 binding sand particles together but also the improvement of physical strengths of sandy soil samples with the MICP-based urease enzymatic acceleration method. These results introduce an option to accelerate biocemented sandy soil improvement.
AbstractList This paper aims at monitoring the improvement of sandy soil properties with biocementation through the microbially induced calcite precipitation (MICP) method with reaction accelerations by self-developed soybean urease enzymes. In this study, the concentration of calcium ions (Ca2+ ions as CaCl2) is varied at 50, 100, 250, and 500 mM to determine an optimum shear strength. The self-developed soybean urease enzymes of 20% by volume (v/v) are used to accelerate the MICP reaction to finish within 7 days. Based on real-time monitoring bender element system and direct shear tests, the optimum Ca2+ concentration is found as 250 mM. However, a detrimental effect occurs in case of high concentration of Ca2+ as CaCl2 (500 mM) because of solution acidification from high Cl− concentration. This condition lowers CaCO3 precipitation causing the reduction of biocementation process. At equivalent shear modulus, the biocementation time of MICP-based sand with acceleration by urease enzymes is about 10 times faster than that without. Using spectrophotometer and pH meter, the ammonification rate and the solution pH of biocemented sand with acceleration by urease enzymes for 3 days are found relatively higher than those without urease enzymes for 40 days. The analyses by scanning electron microscopy (SEM) and X-ray diffraction (XRD) confirm not only the occurrence of CaCO3 binding sand particles together but also the improvement of physical strengths of sandy soil samples with the MICP-based urease enzymatic acceleration method. These results introduce an option to accelerate biocemented sandy soil improvement.
This paper aims at monitoring the improvement of sandy soil properties with biocementation through the microbially induced calcite precipitation (MICP) method with reaction accelerations by self‐developed soybean urease enzymes. In this study, the concentration of calcium ions (Ca 2+ ions as CaCl 2 ) is varied at 50, 100, 250, and 500 mM to determine an optimum shear strength. The self‐developed soybean urease enzymes of 20% by volume (v/v) are used to accelerate the MICP reaction to finish within 7 days. Based on real‐time monitoring bender element system and direct shear tests, the optimum Ca 2+ concentration is found as 250 mM. However, a detrimental effect occurs in case of high concentration of Ca 2+ as CaCl 2 (500 mM) because of solution acidification from high Cl − concentration. This condition lowers CaCO 3 precipitation causing the reduction of biocementation process. At equivalent shear modulus, the biocementation time of MICP‐based sand with acceleration by urease enzymes is about 10 times faster than that without. Using spectrophotometer and pH meter, the ammonification rate and the solution pH of biocemented sand with acceleration by urease enzymes for 3 days are found relatively higher than those without urease enzymes for 40 days. The analyses by scanning electron microscopy (SEM) and X‐ray diffraction (XRD) confirm not only the occurrence of CaCO 3 binding sand particles together but also the improvement of physical strengths of sandy soil samples with the MICP‐based urease enzymatic acceleration method. These results introduce an option to accelerate biocemented sandy soil improvement.
Author Ketklin, Thanate
Iamchaturapatr, Janjit
Piriyakul, Keeratikan
Petcherdchoo, Aruz
Di Emidio, Gemmina
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ContentType Journal Article
Copyright Copyright © 2021 Janjit Iamchaturapatr et al.
Copyright © 2021 Janjit Iamchaturapatr et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0
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Snippet This paper aims at monitoring the improvement of sandy soil properties with biocementation through the microbially induced calcite precipitation (MICP) method...
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SubjectTerms Acceleration
Acidification
Bacteria
Bender elements
Calcite
Calcium carbonate
Calcium chloride
Calcium ions
Chemical precipitation
Enzymes
Mechanical properties
Monitoring
Morphology
Particle size
Precipitation
Real time
Sand
Sandy soils
Shear modulus
Shear strength
Shear tests
Soil improvement
Soil properties
Soybeans
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Title Sandy Soil Improvement Using MICP-Based Urease Enzymatic Acceleration Method Monitored by Real-Time System
URI https://dx.doi.org/10.1155/2021/6905802
https://www.proquest.com/docview/2580586415
https://doaj.org/article/bd7405effeeb46d6afea15d2aff3d932
Volume 2021
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