Add to ORKGExcessive effluent ammonia limits the potential ground improvement applications of the Microbially Induced Calcite Precipitation (MICP) process due to its harmful environmental consequences. Alternatively, innocuous biopolymers are being researched for strengthening soils, but their hydrophilic nature reduces their ground improvement potential overtime. This research not only optimized the current MICP process (by reducing the excessive effluent ammonia) for strengthening coastal sand deposits by using sea water but also conducted the first laboratory scale study of using gellan gum biopolymer for strengthening these sands using sea water. Statistically optimized trials of MICP treatment were developed by using Response Surface Methodology ...
Due to climate changes, construction of coastline structures such as dikes and breakwaters have beco...
A newly emerging microbiological soil stabilization method, known as microbially induced calcite pre...
Microbial-induced calcite precipitation (MICP) utilises the metabolic pathway of ureolytic bacteria ...
This study proposes and describes a novel approach for cementing sandy soils in marine environments ...
Featured Application Coastal erosion is a natural process which poses serious problems to coastal co...
This work investigates an emerging and promising soil stabilisation method known as bio-cementationu...
This work investigates an emerging and promising soil stabilisation method known as bio-cementation ...
Biological approaches have been explored as environmentally friendly alternatives to engineered soil...
Microbial-induced calcium carbonate precipitation (MICP) has the potential to be an environmentally ...
In recent years, traditional material for coastal erosion protection has become very expensive and n...
Microbially-induced calcite precipitation (MICP) is an innovative technique in geotechnical engineer...
Microbiologically-induced calcite precipitation (MICP) is an innovative technique in geotechnical en...
Existing methods for improving the engineering properties of soils are diverse with respect to their...
In the recent times, chemical grouting is being employed to improve mechanical strength of the soil ...
© 2019 American Society of Civil Engineers. Limited research has been reported on strength improveme...
Due to climate changes, construction of coastline structures such as dikes and breakwaters have beco...
A newly emerging microbiological soil stabilization method, known as microbially induced calcite pre...
Microbial-induced calcite precipitation (MICP) utilises the metabolic pathway of ureolytic bacteria ...
This study proposes and describes a novel approach for cementing sandy soils in marine environments ...
Featured Application Coastal erosion is a natural process which poses serious problems to coastal co...
This work investigates an emerging and promising soil stabilisation method known as bio-cementationu...
This work investigates an emerging and promising soil stabilisation method known as bio-cementation ...
Biological approaches have been explored as environmentally friendly alternatives to engineered soil...
Microbial-induced calcium carbonate precipitation (MICP) has the potential to be an environmentally ...
In recent years, traditional material for coastal erosion protection has become very expensive and n...
Microbially-induced calcite precipitation (MICP) is an innovative technique in geotechnical engineer...
Microbiologically-induced calcite precipitation (MICP) is an innovative technique in geotechnical en...
Existing methods for improving the engineering properties of soils are diverse with respect to their...
In the recent times, chemical grouting is being employed to improve mechanical strength of the soil ...
© 2019 American Society of Civil Engineers. Limited research has been reported on strength improveme...
Due to climate changes, construction of coastline structures such as dikes and breakwaters have beco...
A newly emerging microbiological soil stabilization method, known as microbially induced calcite pre...
Microbial-induced calcite precipitation (MICP) utilises the metabolic pathway of ureolytic bacteria ...