biopolymer-based soil treatment(BPST)

Fundamentals of Biopolymer-based Soil Treatment (BPST) and Biopolymer-treated Soil (BPTS)

Why BPST?

BPST from Micro to Macro

Micro

Characterization of the clay-water-ion interaction in aqueous phase using advance liquid cell microscopy

Characterization of particle-biopolymer hydrogel interaction and bonding behavior using Microfluidic chip (MFC)

Investigation of new biopolymer material and treatment method (e.g. cross-link) for civil engineering practices

Environment and clay mineral effect on biopolymer rheology

Interface adhesion characterization of biopolymer-soils using atomic force microscope (AFM)

Constitutive modeling on the biopolymer-treated soils using empirical relationships and DEM (Discrete Element Method)

Meso

Laboratory tests to evaluate geotechnical properties of biopolymer-soils including:
- Sedimentation
- (Wave-based) Consolidation
- Soil-water-characteristic (SWC)
  : Drying and Wetting
- Unconfined compression (for UCS) and 3-to-4 point bending (for flexural strength)
- Direct shear (DS)
- Interface shear
- Static Triaxial (CU, UU)
- Cyclic Triaxial
- Resonant Column and Torsional Shear (RC/TS)
- Hydraulic conductivity
  :Constant & Falling head, pressurized
- Durability / Decomposition
  : Heating-cooling; Wetting-drying; freezing-thawing; Acid rain

Empirical relationship derivation

Macro

Up-scale laboratory programs to investigate the in-situ behaviors of biopolymer-soils including:
- EFA (Erosion Function Apparatus)
- Hydraulic flume apparatus
  : 20-m-length; 0.5-m-width; 1-m-depth
- Modified Jet-Hole erosion apparatus
- Grout injection system for biopolymer-based grouts
- Prototype equipment design and production for bio-soil spraying

Development of site implementation methods for biopolymer-soils
- Dry-mix and spray-system (DMS)
- Wet-mix and spray-system (WMS)
- Thermostat ground injection
- Surface stabilization and non-asphalt pavement
- Building bricks for Adobe construction

Micro-to-Macro scale effect and efficiency

BPST - Geomechanical behavior characterization

BPST - Practical implementation technology development

Sustainable Geotechnical Engineering

BPST for Sustainable Ground Improvement and Soil Preservation (e.g. Anti-desertification)

BPST for Geohazards mitigation and recovery (e.g. Post-wildfires)

Fundamentals of Biopolymer-based Soil Treatment (BPST) and Biopolymer-treated Soil (BPTS)

Why BPST?

BPST from Micro to Macro

Micro

Characterization of the clay-water-ion interaction in aqueous phase using advance liquid cell microscopy

​

Characterization of particle-biopolymer hydrogel interaction and bonding behavior using Microfluidic chip (MFC)

​

Investigation of new biopolymer material and treatment method (e.g. cross-link) for civil engineering practices

​

Environment and clay mineral effect on biopolymer rheology

​

Interface adhesion characterization of biopolymer-soils using atomic force microscope (AFM)

​

Constitutive modeling on the biopolymer-treated soils using empirical relationships and DEM (Discrete Element Method)

Meso

Laboratory tests to evaluate geotechnical properties of biopolymer-soils including:

Sedimentation ​

(Wave-based) Consolidation

Soil-water-characteristic (SWC) : Drying and Wetting

Unconfined compression (for UCS) and 3-to-4 point bending (for flexural strength)

Direct shear (DS)

Interface shear

Static Triaxial (CU, UU)

Cyclic Triaxial

Resonant Column and Torsional Shear (RC/TS)

Hydraulic conductivity :Constant & Falling head, pressurized

Durability / Decomposition : Heating-cooling; Wetting-drying; freezing-thawing; Acid rain

​

Empirical relationship derivation

Macro

Up-scale laboratory programs to investigate the in-situ behaviors of biopolymer-soils including:

EFA (Erosion Function Apparatus)​

Hydraulic flume apparatus : 20-m-length; 0.5-m-width; 1-m-depth

Modified Jet-Hole erosion apparatus

Grout injection system for biopolymer-based grouts

Prototype equipment design and production for bio-soil spraying

​

Development of site implementation methods for biopolymer-soils​

D​ry-mix and spray-system (DMS)

Wet-mix and spray-system (WMS)

Thermostat ground injection

Surface stabilization and non-asphalt pavement

Building bricks for Adobe construction

​

Micro-to-Macro scale effect and efficiency

BPST - Geomechanical behavior characterization

BPST - Practical implementation technology development

Sustainable Geotechnical Engineering

BPST for Sustainable Ground Improvement and Soil Preservation (e.g. Anti-desertification)

BPST for Geohazards mitigation and recovery (e.g. Post-wildfires)

Sedimentation

Soil-water-characteristic (SWC)
: Drying and Wetting

Hydraulic conductivity
:Constant & Falling head, pressurized

Durability / Decomposition
: Heating-cooling; Wetting-drying; freezing-thawing; Acid rain

EFA (Erosion Function Apparatus)

Hydraulic flume apparatus
: 20-m-length; 0.5-m-width; 1-m-depth

Development of site implementation methods for biopolymer-soils

Dry-mix and spray-system (DMS)