Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation

Studies have reported that the calcite precipitation induced by ureolytic bacteria through the hydrolysis of urea was influenced by several important factors including the concentration of calcium ions, the surrounding pH and temperature. Recently, the microbial induced calcite precipitations (MICP)...

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Main Authors: Omar R.C., Taha H., Roslan R., Baharuddin I.N.Z.
Other Authors: 35753735300
Format: Article
Published: Science Publishing Corporation Inc 2023
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spelling my.uniten.dspace-240822023-05-29T14:55:13Z Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation Omar R.C. Taha H. Roslan R. Baharuddin I.N.Z. 35753735300 54279619100 57159693200 55812431300 Studies have reported that the calcite precipitation induced by ureolytic bacteria through the hydrolysis of urea was influenced by several important factors including the concentration of calcium ions, the surrounding pH and temperature. Recently, the microbial induced calcite precipitations (MICP) were further explored using natural elements and microorganisms from the environment. Vegetable waste provides a proper substrate for microorganism's growth and activities. In this study, the calcite forming ability of indigenous bacteria in the vegetable waste was investigated by mixing the extract of vegetable waste known as vege-grout with sandy soil. The vege-grout optimum content was determined by unconfined compression test to find the suitable ratio of vege-grout content. The results showed that there was an increase of compressive strength after 28 days of curing with vege-grout and significant improvement in soil shear strength. SEM and EDX analysis showed aggregation of soil particles and formation of calcium carbonate (CaCO 3 ). Microbiological analysis of vege-grout extract indicated the presence of ureolytic bacteria that could be responsible for the bio-cementation process. ICP-MS analysis showed that the vege-grout contained a rich source of carbon, nitrogen and calcium elements. The findings have demonstrated the potential application of vegetable waste for microbial cementation of soil particles. � 2018 Authors. Final 2023-05-29T06:55:13Z 2023-05-29T06:55:13Z 2018 Article 10.14419/ijet.v7i4.35.22897 2-s2.0-85059229314 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059229314&doi=10.14419%2fijet.v7i4.35.22897&partnerID=40&md5=e2529c5bf612fc32f2be983324279dae https://irepository.uniten.edu.my/handle/123456789/24082 7 4 491 494 Science Publishing Corporation Inc Scopus
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description Studies have reported that the calcite precipitation induced by ureolytic bacteria through the hydrolysis of urea was influenced by several important factors including the concentration of calcium ions, the surrounding pH and temperature. Recently, the microbial induced calcite precipitations (MICP) were further explored using natural elements and microorganisms from the environment. Vegetable waste provides a proper substrate for microorganism's growth and activities. In this study, the calcite forming ability of indigenous bacteria in the vegetable waste was investigated by mixing the extract of vegetable waste known as vege-grout with sandy soil. The vege-grout optimum content was determined by unconfined compression test to find the suitable ratio of vege-grout content. The results showed that there was an increase of compressive strength after 28 days of curing with vege-grout and significant improvement in soil shear strength. SEM and EDX analysis showed aggregation of soil particles and formation of calcium carbonate (CaCO 3 ). Microbiological analysis of vege-grout extract indicated the presence of ureolytic bacteria that could be responsible for the bio-cementation process. ICP-MS analysis showed that the vege-grout contained a rich source of carbon, nitrogen and calcium elements. The findings have demonstrated the potential application of vegetable waste for microbial cementation of soil particles. � 2018 Authors.
author2 35753735300
author_facet 35753735300
Omar R.C.
Taha H.
Roslan R.
Baharuddin I.N.Z.
format Article
author Omar R.C.
Taha H.
Roslan R.
Baharuddin I.N.Z.
spellingShingle Omar R.C.
Taha H.
Roslan R.
Baharuddin I.N.Z.
Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
author_sort Omar R.C.
title Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
title_short Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
title_full Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
title_fullStr Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
title_full_unstemmed Vege-Grout: A Potential Bio-Grout material from vegetable waste for bio-cementation
title_sort vege-grout: a potential bio-grout material from vegetable waste for bio-cementation
publisher Science Publishing Corporation Inc
publishDate 2023
_version_ 1806426210677293056
score 13.222552