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Is 15 feet the new 6 feet?

When we walk briskly or run, air moves differently around us, increasing the space required to maintain a proper social distance

Little has been known about what happens when people are moving NYTNS

NYTNS
Published 22.04.20, 10:40 AM

It may be a good idea to give one another more than six feet of space while exercising outside during the current pandemic, according to a compelling study that looked at how air flows around bodies in motion. The study has not yet been published in a peer-reviewed journal and the results need confirmation. But they indicate that runners and brisk walkers may create a wake of air behind them that could carry exhaled respiratory droplets for 15 feet or more, meaning that the droplets could reach people walking or jogging well behind them.

The findings have been shared widely on social media and prompted some trepidation among people. But the study, which has now been posted in full online, did not look at coronavirus particles specifically or how they are carried in respiratory droplets in real-life conditions. Still, its calculations make sense. It finds that when we walk or run, the air moves differently around us than when we are still and the best way to maintain a proper social distance in that situation is to avoid slipstreams, the currents of air that follow a moving body.

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By now, we all are familiar with social distancing, which mandates that we stay at least six feet apart. This edict is based on studies and models showing that exhaled droplets capable of carrying the coronavirus rarely travel as far as six feet. But that research generally looked at quiet air and immobile people. Little has been known about what happens when people are moving.

So Bert Blocken, who studies fluid dynamics, decided to model airflow between and around active people. Blocken, a professor of civil engineering with dual appointments at Eindhoven University of Technology in the Netherlands and KU Leuven in Belgium, had created past computational models of drafting while cycling and the flight paths of viruses as they drift through inadequately ventilated buildings.

For the new modelling study, he and his colleagues thought they would combine those two research interests to compute the 'aerodynamically equivalent social distance' needed during exercise. That term, which they invented, refers to how far apart people should remain while running or walking in order to have about the same potential exposure to droplets as if they were seated or standing about six feet apart.

To find those equivalencies, they combined results from several already-completed models, one of which computed the paths of respiratory droplets of various sizes, using droplet data gathered after the Sars epidemic in 2003. This model approximated how far vapour droplets generated during normal breathing would be pushed by air moving at various speeds. The second model calculated airflow around and behind a lean six-foot runner moving at a pace of about 6 minutes and 40 seconds per mile (about 10 kmph) or walking at a leisurely 2.5 miles per hour (about 4 kmph).

They then mathematically determined what might happen to respiratory droplets exhaled by that theoretical runner or walker.

They found that most droplets swirled directly into the wake of air following that runner and were pulled along in his slipstream long enough that the aerodynamically equivalent social distance — the distance he should remain separated from those behind him to achieve relatively low droplet concentrations — was almost 30 feet. The equivalent social distance during brisk walking was about 15 feet, the researchers also calculated.

Interestingly, they noted little side-to-side flow of air droplets or spillage outside of the athlete’s slipstream. The respiratory droplets clustered in the long, narrow corridor of the athlete’s wake, which was about the width of his shoulders.

The implication of these findings, Blocken says, is that to keep social distance, runners and walkers should swing well-wide when passing other people and not cut back sharply in front of them after passing.

“Be nice and wait awhile before you move back in front of anyone,” Blocken told me, preferably spacing yourself at least 15 feet or more in front.

Similarly, if you find yourself behind someone while walking or jogging, move to the side until that leading person’s body no longer blocks your view, which should situate you outside of his or her slipstream.

Reassuringly, “there is no empirical evidence that runners or bikers are a point source of infection,” says Dr Dean Winslow, a professor of medicine at Stanford University and an infectious disease specialist, who reviewed the new modelling study at my request.

The study also remains unpublished or peer-reviewed. “But the results look reasonable,” says Linsey Marr, a professor at Virginia Tech who studies airflow and also reviewed the study for me. “Common sense, and this study, suggest that if someone is walking or running, we need to allow for more space around them” than if we are together but still.

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