A practical framework to assess the sustainability and resiliency of civil infrastructure

Geotechnical constructions involve consumption of vast amount of nonrenewable natural resources, and energy- and carbon-intensive materials (e.g., cement and steel) that contribute significantly to global warming and climate change. This paper uses drilled shaft as an example to illustrate the importance of environmental impact assessment in the design phase of foundations. Life cycle assessment (LCA) is used to quantify the environmental impacts of construction of single drilled shafts and groups embedded in sandy soil profiles. Parametric studies are conducted to investigate the effects of soil properties, design parameters, and hauling distances of construction materials and equipment on the environmental impacts of single drilled shafts. For pile groups, different configurations, applied load, center-to-center spacing, and thickness of pile cap are considered in the parametric study. The global warming impact and human toxicity of a typical drilled shaft is found to be 39% and 486% of annual world impact per person, respectively. Based on the study, charts and tables are developed that may be used for quick estimation of global warming impact of drilled shafts without the use of specialised LCA software programs.

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A practical framework to assess the sustainability and resiliency of civil infrastructure

Cited by 4 publications

References 14 publications

Design of Drilled Shaft with Environmental Impact Considerations: A Parametric Study

Design of Drilled Shaft with Environmental Impact Considerations: A Parametric Study

Editorial

Environmental impacts of drilled shafts in sand

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