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Autonomous vehicle adoption: use phase environmental implications

Wissam Kontar, Soyoung Ahn, Andrea Hicks

2021Environmental Research Letters22 citationsDOIOpen Access PDF

Abstract

Abstract This paper investigates the environmental trade offs resulting from the adoption of autonomous vehicles (AVs) as a function of modal shifts and use phase. An empirical approach is taken to formulate a mode choice model informed from a stated preference (SP) survey conducted in Madison, Wisconsin. A life cycle analysis based on well-to-wheel model is then conducted to quantify the use phase environmental impacts across different categories. The mode choice analysis reveals the potential users of AVs and its attractiveness as a mode of transportation, ultimately competing with traditional modes available. This translates into modal shifts that are shown to result in an expected increase in environmental impacts across all studied categories: energy consumption (5.93%), greenhouse gas emissions (5.72%), particulate matter (6.80%), sulfur (6.85%) and nitrogen oxides (5.70%). The adoption of electric AVs (E-AVs) is then analyzed as an offsetting strategy to combat the increase in environmental impacts. The analysis reveals that E-AVs are capable of offsetting the foreseen impacts, yet their effectiveness is dependent on the electricity generation mix and adoption rate.

Topics & Concepts

Environmental economicsAttractivenessModalElectricityGreenhouse gasMode (computer interface)PreferenceConsumption (sociology)Mode choiceEnvironmental impact assessmentEnvironmental scienceEnergy consumptionBusinessComputer scienceEconomicsTransport engineeringMicroeconomicsEngineeringEcologyBiologyOperating systemPsychoanalysisPsychologyChemistrySociologyPublic transportSocial scienceElectrical engineeringPolymer chemistryTransportation and Mobility InnovationsUrban Transport and AccessibilityTransportation Planning and Optimization