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Upper Troposphere Smoke Injection From Large Areal Fires

Stephanie Redfern, Julie K. Lundquist, O. B. Toon, Domingo Muñoz‐Esparza, Charles Bardeen, Branko Kosović

2021Journal of Geophysical Research Atmospheres15 citationsDOIOpen Access PDF

Abstract

Abstract Large areal fires, such as those ignited following a nuclear detonation, can inject smoke into the upper troposphere and lower stratosphere. Detailed fire simulations allow for assessment of how local weather interacts with these fires and affects smoke lofting. In this study, we employ the fire simulation package in the Weather Research and Forecasting (WRF‐Fire) model, Version 4.0.1, to explore how smoke lofting from a fire burning a homogeneous fuel bed changes with varying local winds, relative humidity, and atmospheric boundary‐layer stability for two different‐sized areal fires. The presence of moisture has the greatest influence on the results by raising the altitude of lofting, while faster wind speeds dampen lofting and lower the injection height. Stably stratified conditions inhibit plume propagation compared with neutrally stratified conditions, although the impact of stability is not as strong as that of moisture and winds. These findings highlight the importance of using an appropriate atmospheric profile when simulating large fires, as the local weather can have a meaningful influence on smoke lofting.

Topics & Concepts

Environmental scienceTroposphereAtmospheric sciencesMeteorologySmokeWeather Research and Forecasting ModelWind speedPlumeStratosphereMoistureHomogeneousRelative humidityClimatologyGeologyGeographyPhysicsThermodynamicsFire effects on ecosystemsNuclear Issues and DefenseAtmospheric chemistry and aerosols
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