Across the country from the California wildfires, researchers in Massachusetts are working to recreate a smaller-scale version of the phenomenon in a lab where it can be studied.
A look at fire tornadoes:
What is a fire tornado?
Fire whirl, fire devil, fire tornado or even firenado — scientists, firefighters and regular folks use multiple terms to describe similar phenomena, and they don’t always agree on what’s what. Some say fire whirls are formed only by heat, while fire tornadoes involve clouds generated by the fire itself.
The National Wildfire Coordinating Group’s glossary of wildland fire terms doesn’t include an entry for fire tornado, but it defines a fire whirl as a “spinning vortex column of ascending hot air and gases rising from a fire and carrying aloft smoke, debris and flame,” and says large whirls “have the intensity of a small tornado.”
Wildfires with turbulent plumes can produce clouds that in turn can produce lightning or a vortex of ash, smoke and flames, said Leila Carvalho, professor of meteorology and climatology at the University of California, Santa Barbara.
“There is a rotation caused by very strong wind shear and a very hot, localized low-pressure system,” she said.
What is a fire tornado capable of?
Fire tornadoes can make fires stronger by sucking up air, Carvalho said. “It creates a tornado track, and wherever this goes, the destruction is like any other tornado.”
In 2018, a fire tornado the size of three football fields killed a firefighter as it exploded in what already was a vast and devastating wildfire near Redding, about 250 miles (400 kilometers) north of San Francisco in northern California. Scientists later described an ice-capped cloud that reached 7 miles (11 km) into the air and caused winds up to 143 mph (230 kph).
Research also suggests fire tornadoes can carry airborne embers, also called firebrands, over long distances, said James Urban, an assistant professor in the Department of Fire Protection Engineering at Worcester Polytechnic Institute. They also can change the fire's behavior, he said.
“That’s also something that is dangerous and scary for first responders, or really anyone,” he said. “It can change and maybe go in a different direction.”
The interaction between wind, the fire plume and topography determines whether a tornado will develop, he said. For example, sometimes a certain topography will restrict airflow in such a way that a spiral pattern develops.
Can you make one in a lab?
Together with San José State University, Worcester Polytech is part of a Wildfire Interdisciplinary Research Center. In the lab in Worcester, researchers have created small fire tornadoes by putting up walls around a fire or arranging a bunch of little fires that together restrict airflow. But that’s on a much smaller scale than what’s happening with the wildfires.
“We’ve got the biggest fire lab in the U.S. for a university, but we cannot get something the size of what’s been reported at these fires,” he said. “You can’t really bottle that and put it in a lab.”
The lab is able to create a spinning wheel of fire in an enclosed chamber. The model illustrates how destructive such a weather phenomenon can be, said Urban.
He said the fire tornadoes spread flames quickly and produce hazardous levels of smoke, “but then the tornado aspect or the high winds add the risk of wind damage.”
The formation of the fire tornadoes, which Urban called fire whirls, illustrates the sheer intensity and danger of the California fires.
“One way in which we’re seeing just how intense these fires are is the formation of these so-called fire tornadoes or fire whirls,” Urban said. “And I think it’s a good manifestation of the destructive power of these fires.”
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Associated Press video journalist Rodrique Ngowi contributed to this report.
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