On-demand ridesourcing services from
transportation network companies
(TNCs), such as Uber and Lyft, have reshaped urban travel and changed
externality costs from vehicle emissions, congestion, crashes, and
noise. To quantify these changes, we simulate replacing private vehicle
travel with TNCs in six U.S. cities. On average, we find a 50–60%
decline in air pollutant emission externalities from NOx, PM2.5, and VOCs due to avoided “cold starts”
and relatively newer, lower-emitting TNC vehicles. However, increased
vehicle travel from deadheading creates a ∼20% increase in
fuel consumption and associated greenhouse gas emissions and a ∼60%
increase in external costs from congestion, crashes, and noise. Overall,
shifting private travel to TNCs increases external costs by 30–35%
(adding 32–37 ¢ of external costs per trip, on average).
This change in externalities increases threefold when TNCs displace
transit or active transport, drops by 16–17% when TNC vehicles
are zero-emission electric, and potentially results in reduced externalities
when TNC rides are pooled.
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