Shared electric scooters, or e-scooters, may be greener than most cars, but they can be less green than several other options, according to new research.
“E-scooter companies tout themselves as having little or no carbon footprint, which is a bold statement,” says corresponding author Jeremiah Johnson, an associate professor of civil, construction, and environmental engineering at North Carolina State University. “We wanted to look broadly at the environmental impacts of shared e-scooters—and how that compares to other local transportation options.”
To capture the impact of e-scooters, researchers looked at emissions associated with four aspects of each scooter’s life cycle: the production of the materials and components that go into each scooter; the manufacturing process; shipping the scooter from the manufacturer to its city of use; and collecting, charging, and redistributing the scooters.
“Biking—even with an electric bike—is almost always more environmentally friendly than using a shared e-scooter.”
The researchers also conducted a small-scale survey of e-scooter riders to see what modes of transportation they would have used if they hadn’t used an e-scooter. The researchers found that 49% of riders would have biked or walked; 34% would have used a car; 11% would have taken a bus; and 7% wouldn’t have taken the trip at all. These results were similar to those of a larger survey done by the city of Portland, Oregon.
In order to compare the impact of e-scooters to that of other transport options, the researchers looked at previously published life cycle analyses of cars, buses, electric mopeds, and bicycles. Researchers looked at four types of pollution and environmental impact: climate change impact; nutrient loading in water; respiratory health impacts related to air pollution; and acidification. The performance results were similar for all four types of pollution.
“A lot of what we found is pretty complicated, but a few things were clear,” Johnson says. “Biking—even with an electric bike—is almost always more environmentally friendly than using a shared e-scooter. The sole possible exception is for people who use pay-to-ride bike-share programs. Those companies use cars and trucks to redistribute the bicycles in their service area, which can sometimes make them less environmentally friendly than using an e-scooter.”
By the same token, the researchers found that driving a car is almost always less environmentally friendly than using an e-scooter. But some results may surprise you. For example, taking the bus on a route with high ridership is usually more environmentally friendly than an e-scooter.
“We found that the environmental impact from the electricity used to charge the e-scooters is fairly small—about 5% of its overall impact,” Johnson says. “The real impact comes largely from two areas: using other vehicles to collect and redistribute the scooters; and emissions related to producing the materials and components that go into each scooter.”
That means that there are two major factors that contribute to each scooter’s environmental footprint. First, the less driving companies have to do to collect and redistribute the scooters, the smaller the impact. The second factor is the scooters’ lifetime: the longer the scooter is in service, the more time it has to offset the impact making all of its constituent parts causes.
“There are a lot of factors to consider, but e-scooters are environmentally friendly compared to some modes of transport,” Johnson says. “And there are things that companies and local governments can do to further reduce their impacts. For example, allowing—or encouraging—companies to collect scooters only when they hit a battery depletion threshold would reduce a scooter’s impact, because you wouldn’t be collecting scooters that don’t need re-charging.”
The paper appears in the journal Environmental Research Letters.
Support for the research came, in part, from the North Carolina State University civil, construction, and environmental engineering department’s Research Experience for Undergraduates Program.
Source: NC State