ERC for Bio-mediated and Bio-inspired Geotechnics

The CBBG ERC focuses on “nature-compatible” approaches to boosting the resiliency of civil infrastructure, improving the effectiveness of environmental protection and ecological restoration methods, and developing ways to make infrastructure construction and natural resource development operations more sustainable. CBBG’s researchers will conduct basic research to understand biological processes that act in the ground, including the action of bacteria, plants and animals. The Center will develop ways to directly use naturally occurring bacteria to strengthen the soil, to mitigate against earthquake-induced liquefaction, and clean up polluted sites. It will also use methods inspired by biological processes to design more efficient tunneling processes, foundations and sensors that can penetrate the ground and travel to desired locations. The expected benefits of this research will be less costly construction of civil infrastructure with reduced energy and material use and less environmental degradation.

Energy and Sustainability

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Energy and Sustainability Icon

Energy, Sustainability, and Infrastructure

Location

Tempe, Arizona

Lead Institution

Arizona State University

Start Year

Fact Sheet

Core Partners

Georgia Institute of Technology
New Mexico State University
University of California, Davis
Image

Additional Information

Focus

CBBG will employ or mimic natural biological processes and materials to engineer the ground in ways that reduce infrastructure development lifecycle costs and impacts while mitigating natural hazards and environmental degradation.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

ERC for Bio-mediated and Bio-inspired Geotechnics

The CBBG ERC focuses on “nature-compatible” approaches to boosting the resiliency of civil infrastructure, improving the effectiveness of environmental protection and ecological restoration methods, and developing ways to make infrastructure construction and natural resource development operations more sustainable. CBBG’s researchers will conduct basic research to understand biological processes that act in the ground, including the action of bacteria, plants and animals. The Center will develop ways to directly use naturally occurring bacteria to strengthen the soil, to mitigate against earthquake-induced liquefaction, and clean up polluted sites. It will also use methods inspired by biological processes to design more efficient tunneling processes, foundations and sensors that can penetrate the ground and travel to desired locations. The expected benefits of this research will be less costly construction of civil infrastructure with reduced energy and material use and less environmental degradation.

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy, Sustainability, and Infrastructure

Location

Tempe, Arizona

Lead Institution

Arizona State University

Start Year

Website

Fact Sheet

Core Partners

Georgia Institute of Technology
New Mexico State University
University of California, Davis

Image

Focus

CBBG will employ or mimic natural biological processes and materials to engineer the ground in ways that reduce infrastructure development lifecycle costs and impacts while mitigating natural hazards and environmental degradation.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

Locations

ERC for Bio-mediated and Bio-inspired Geotechnics

The CBBG ERC focuses on “nature-compatible” approaches to boosting the resiliency of civil infrastructure, improving the effectiveness of environmental protection and ecological restoration methods, and developing ways to make infrastructure construction and natural resource development operations more sustainable. CBBG’s researchers will conduct basic research to understand biological processes that act in the ground, including the action of bacteria, plants and animals. The Center will develop ways to directly use naturally occurring bacteria to strengthen the soil, to mitigate against earthquake-induced liquefaction, and clean up polluted sites. It will also use methods inspired by biological processes to design more efficient tunneling processes, foundations and sensors that can penetrate the ground and travel to desired locations. The expected benefits of this research will be less costly construction of civil infrastructure with reduced energy and material use and less environmental degradation.

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy, Sustainability, and Infrastructure

Location

Tempe, Arizona

Lead Institution

Arizona State University

Start Year

Fact Sheet

Core Partners

Georgia Institute of Technology
New Mexico State University
University of California, Davis
Image

Additional Information

Focus

CBBG will employ or mimic natural biological processes and materials to engineer the ground in ways that reduce infrastructure development lifecycle costs and impacts while mitigating natural hazards and environmental degradation.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

Locations