Visit DRI’s Northern Nevada campus on a clear afternoon, and you may hear a near-deafening buzzing. A massive swarm of bees? Thankfully, no—it’s an unmanned aircraft system (UAS), or drone, being flown by researchers from DRI’s Airborne Systems Testing and Environmental Research (ASTER) laboratory.
Adam Watts, Ph.D., associate research professor of fire ecology and director of the ASTER lab, has worked over the last several years to apply UAS technology in a variety of research projects in dangerous or hard-to-access environments. Perhaps most notably, Watts led a 32-mile UAS flight at 1,500 feet above ground, the longest commercial UAS flight in American aviation history, in 2017. This historic flight was part of a larger effort to determine the feasibility of routinely using UAS for aerial cloud-seeding operations, which until recently have required pilots to fly in dangerous winter storm conditions. (You can read a full write up on the project in Popular Science.)
More recently, Watts and his team in the ASTER lab have been working in entirely different environmental conditions: above prescribed burns.
“One of the big questions in land management, and in public health, is how smoke from prescribed fires versus wildfires differ, and what the effects are,” said Watts. His team is looking to UAS technology to explore this question and learn more about the differences between prescribed fire emissions and those from wildfire.
Earlier this year, postdoctoral researcher and fire ecologist Kellen Nelson, Ph.D., led the development of an innovative air sampling payload—a set of sensors and sampling equipment installed aboard the UAS—used to collect samples of wildland fire smoke. Traditionally, smoke has been collected by researchers from the air thousands of feet above the fire, or from a safe position on the ground far from the center of the smoke plume.
Using a UAS, the research team has the unprecedented ability to collect samples directly from plumes and to move with a fire as its behavior changes, taking real-time measurements of CO2, CO, particulate matter, temperature, humidity, and pressure.
Read rest of the story at dri.edu.