Add to ORKGThis thesis has been focused on optimizing the resistent capacity and reducing the permeability of fine and clay granular soils through the MICP (Microbiologically induced calcite precipitation). MICP is a natural biological process that induces calcium carbonate in the soil through the hydrolysis of urea by bacteria. In addition, it has several applications in the stabilization and restoration of various construction materials. Furthermore allows a high amount of CaCO3 production in a short time. The bacteria chosen to carry out the tests is Sporosarcina Pasteurii, because of its properties that favor these processes. In order to characterize the different parameters that allow optimizing bio stabilization, first several experimental studi...
New, exciting opportunities for utilizing biological processes to modify the engineering properties ...
For construction purposes, it is very essential to provide a strong foundation for the structure. If...
Existing methods for improving the engineering properties of soils are diverse with respect to their...
This thesis has been focused on optimizing the resistent capacity and reducing the permeability of f...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Interaction between microbially induced calcium carbonate precipitation (MICP) and compaction proced...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Microbially induced carbonate precipitation (MICP) is a common natural process performed by introduc...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Microbially induced calcium carbonate precipitation (MICP)/Biocementation has emerged as a promising...
This work investigates an emerging and promising soil stabilisation method known as bio-cementationu...
Microbial-induced calcite precipitation (MICP) is one of the environmentally friendly techniques tha...
Biomediated soil improvement, also known as Microbial Induced Calcite Precipitation (MICP), is a pro...
SummaryFor construction purposes, it is very essential to provide a strong foundation for the struct...
Utilizing biological processes is new and innovative method which can be used to improve engineering...
New, exciting opportunities for utilizing biological processes to modify the engineering properties ...
For construction purposes, it is very essential to provide a strong foundation for the structure. If...
Existing methods for improving the engineering properties of soils are diverse with respect to their...
This thesis has been focused on optimizing the resistent capacity and reducing the permeability of f...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Interaction between microbially induced calcium carbonate precipitation (MICP) and compaction proced...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Microbially induced carbonate precipitation (MICP) is a common natural process performed by introduc...
Microbial biodeposition of calcite induction for improving the performance of rammed earth is a rese...
Microbially induced calcium carbonate precipitation (MICP)/Biocementation has emerged as a promising...
This work investigates an emerging and promising soil stabilisation method known as bio-cementationu...
Microbial-induced calcite precipitation (MICP) is one of the environmentally friendly techniques tha...
Biomediated soil improvement, also known as Microbial Induced Calcite Precipitation (MICP), is a pro...
SummaryFor construction purposes, it is very essential to provide a strong foundation for the struct...
Utilizing biological processes is new and innovative method which can be used to improve engineering...
New, exciting opportunities for utilizing biological processes to modify the engineering properties ...
For construction purposes, it is very essential to provide a strong foundation for the structure. If...
Existing methods for improving the engineering properties of soils are diverse with respect to their...