Your search keyword '"E. Teneva"' showing total 2 results

1. Soil biostabilisation and interaction with compaction processes for earthen engineering structures production

Author

E. Bernat-Maso, L. Gil, M.J. Lis, and E. Teneva

Subjects

Particle size distribution, Mineralizer, Kinetic, Compressive strength, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Interaction between microbially induced calcium carbonate precipitation (MICP) and compaction procedures to stabilise raw soil materials has been studied with the aim of producing earthen engineering structures. Initial tests to optimise MICP in aqueous medium and in selected soils were performed. MICP and compaction were finally applied to assess medium-size elements. The main result was that sandy soils should be compacted before irrigation treatment to close the existing voids and prevent bacterial sweeping, whereas clayey soils should be compacted after irrigation treatment to avoid the plugging effect. MICP improved small sand soil compressive strength by up to 32% over the value reached by compaction alone. However, MICP had no positive effect on coarse soils and soils with an optimum particle size distribution: MICP treatment was not able to fill large connected voids in the first case and it caused little void generation due to bacteria sporulation in the second.

Published

2021

2. Bioestabilización de suelos e interacción con los procesos de compactación para la producción de estructuras ingenieriles de tierra

Author

Ernest Bernat-Maso, M.J. Lis, Lluís Gil, E. Teneva, Universitat Politècnica de Catalunya. Departament de Resistència de Materials i Estructures a l'Enginyeria, Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. LITEM - Laboratori per a la Innovació Tecnològica d'Estructures i Materials, and Universitat Politècnica de Catalunya. POLQUITEX - Materials Polimérics i Química Téxtil

Subjects

Soil stabilization, Sòls -- Estabilització, Irrigation, Void (astronomy), Compaction, Compressive strength, Cinética, Distribución del tamaño de partícula, Mineralizador, General Materials Science, Geotechnical engineering, Resistencia a compresión, Calcium carbonate precipitation, Soil compaction, Materials of engineering and construction. Mechanics of materials, Kinetic, Engineering structures, Cinètica química, Building and Construction, Particle size distribution, Chemical kinetics, Sòls -- Compactació, Mineralizer, Mechanics of Materials, Particle-size distribution, Soil water, TA401-492, Environmental science, Enginyeria civil::Geotècnia::Mecànica de sòls [Àrees temàtiques de la UPC]

Abstract

Interaction between microbially induced calcium carbonate precipitation (MICP) and compaction procedures to stabilise raw soil materials has been studied with the aim of producing earthen engineering structures. Initial tests to optimise MICP in aqueous medium and in selected soils were performed. MICP and compaction were finally applied to assess medium-size elements. The main result was that sandy soils should be compacted before irrigation treatment to close the existing voids and prevent bacterial sweeping, whereas clayey soils should be compacted after irrigation treatment to avoid the plugging effect. MICP improved small sand soil compressive strength by up to 32% over the value reached by compaction alone. However, MICP had no positive effect on coarse soils and soils with an optimum particle size distribution: MICP treatment was not able to fill large connected voids in the first case and it caused little void generation due to bacteria sporulation in the second., Se estudió la interacción entre la precipitación de carbonato de calcio inducida por bacterias (MICP) y los procesos de compactación para estabilizar suelos naturales para producir estructuras de tierra. Se realizaron ensayos iniciales en medio acuoso para optimizar la MICP. El uso conjunto de MICP y compactación fue evaluado en elementos de tamaño medio. Los resultados indican que los suelos arenosos deben ser compactados antes de los tratamientos por irrigación para cerrar los huecos evitando el lavado de bacterias, mientras que los suelos arcillosos deben ser compactados después de las irrigaciones para evitar colmatar la superficie. La MICP mejoró la resistencia a compresión de la arena fina en un 32% en comparación con únicamente compactar. No obstante, no mejoró la resistencia de suelos granulares ni con una distribución de partículas óptima, por la interconexión de poros en el primer caso y la generación de vacíos por esporulación en el segundo.

Published

2021