Leveraging environmental assessment and environmental justice to deliver equitable, decarbonized built infrastructure

Greer, Fiona

doi:10.1088/2634-4505/ad084b

Environ. Res.: Infrastruct. Sustain.

2023

DOI: 10.1088/2634-4505/ad084b

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Leveraging environmental assessment and environmental justice to deliver equitable, decarbonized built infrastructure

Fiona Greer

Abstract: Climate change is the most pressing sustainability issue of our time, with anthropogenic greenhouse gas emissions causing economic, environmental, and human health impacts. We need to achieve net-zero civil infrastructure systems to limit global temperature increases. Energy production and supply, transportation, buildings, and industry are examples of civil infrastructure systems. Examining the full scope of impacts throughout the conception, design, construction, operation, maintenance, and decommissioning o… Show more

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Cited by 2 publications

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Exploring the significance of transportation emissions in upfront embodied carbon in buildings

Greer,

Horvath

2025

Building and Environment

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Exploring the significance of transportation emissions in upfront embodied carbon in buildings

Greer,

Horvath

2025

Building and Environment

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Comparative Life Cycle Assessment of Airport Ground Operations: Environmental Impact of Diesel, Biodiesel, and Electric Sources

Bahman,

Khan,

Mahmood

2024

Environmental and Climate Technologies

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In pursuit of the United Nations (UN) Sustainable Development Goals (SDGs), nations are growing more conscious of the importance of implementing SDGs and adopting various tools and frameworks to advance environmental and human development. Current study aims to investigate the environmental impacts of airport ground operations through Life Cycle Assessment (LCA) and was conducted on three different Ground Power Units (GPU) namely, diesel, biodiesel, and electric-powered by adopting a system boundary of cradle-to-gate, using SimaPro version 9.4 software and adopted a CML Baseline V3.09 EU25 characterization model. Results show that the highest environmental impact was caused by diesel-powered GPU, followed by the biodiesel-powered GPU. At the same time, the electric-powered GPU contributed to lower environmental impact in comparison. The Abiotic Depletion (AD) in the diesel, biodiesel, and electric-powered GPU in a respective manner was (in kg Sb eq, 0.196, 0.196 and 0.162), global warming (kg CO2 eq of 1142, 1130 and 1044), Ozone Depletion Potential (ODP) (kg CFC-11 eq of 0.0003, 0.0001 and 0.0001), Human Toxicity Potential (HTP) (kg 1,4-DB eq of 516.49, 510.96 and 549.29), Freshwater Aquatic Ecotoxicity (kg 1,4-DB eq of 441.56, 463.22 and 605.91), Terrestrial Ecotoxicity (kg 1,4-DB eq of 2.74, 2.31 and 2.35), Photochemical Oxidation (kg C2H4 eq of 0.609, 0.70 and 0.545), Acidification (kg SO2 eq of 11.01, 11.23 and 10.11) and Eutrophication of (kg PO4 eq 3.432, 3.459 and 3.2311). Batteries, diesel, aluminium, wheel rims, and synthetic rubber were the main contributors to these environmental impacts. It was concluded that lead-ion batteries are a good replacement to lithium-ion batteries due to their lower impact. Similarly, switching to stationary GPUs rather than mobile, can contribute to lowering impacts as the wheel rims in mobile GPUs are the main contributors to overall environmental impact of airport ground operations.

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Leveraging environmental assessment and environmental justice to deliver equitable, decarbonized built infrastructure

Cited by 2 publications

References 23 publications

Exploring the significance of transportation emissions in upfront embodied carbon in buildings

Exploring the significance of transportation emissions in upfront embodied carbon in buildings

Comparative Life Cycle Assessment of Airport Ground Operations: Environmental Impact of Diesel, Biodiesel, and Electric Sources

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