Measuring coupled fire-atmosphere dynamics: The California Fire Dynamics Experiment (CalFiDE)

IF 6.9 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES Bulletin of the American Meteorological Society Pub Date : 2024-01-30 DOI:10.1175/bams-d-23-0012.1
Brian J. Carroll, W. Alan Brewer, Edward Strobach, Neil Lareau, Steven S. Brown, M. Miguel Valero, Adam Kochanski, Craig B. Clements, Ralph Kahn, Katherine T. Junghenn Noyes, Amanda Makowiecki, Maxwell W. Holloway, Michael Zucker, Kathleen Clough, Jack Drucker, Kristen Zuraski, Jeff Peischl, Brandi McCarty, Richard Marchbanks, Scott Sandberg, Sunil Baidar, Yelena L. Pichugina, Robert M. Banta, Siyuan Wang, Andrew Klofas, Braeden Winters, Tyler Salas
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Abstract

Abstract The social, economic, and ecological impacts of wildfires are increasing over much of the U.S. and globally, partially due to changing climate and build-up of fuels from past forest management practices. This creates a need to improve coupled fire-atmosphere forecast models. However, model performance is difficult to evaluate due to scarcity of observations for many key fire-atmosphere interactions, including updrafts and plume injection height, plume entrainment processes, fire intensity and rate-of-spread, and plume chemistry. Intensive observations of such fire-atmosphere interactions during active wildfires are rare due to the logistical challenges and scales involved. The California Fire Dynamics Experiment (CalFiDE) was designed to address these observational needs, using Doppler lidars, high-resolution multispectral imaging, and in-situ air quality instruments on a NOAA Twin Otter research aircraft, and Doppler lidars, radar, and other instrumentation on multiple ground-based mobile platforms. Five wildfires were studied across northern California and southern Oregon over 16 flight days from 28 August to 25 September 2022, including a breadth of fire stages from large blow-up days to smoldering air quality observations. Missions were designed to optimize the observation of the spatial structure and temporal evolution of each fire from early afternoon until sunset during multiple consecutive days. The coordination of the mobile platforms enabled four-dimensional sampling strategies during CalFiDE that will improve understanding of fire-atmosphere dynamics, aiding in model development and prediction capability. Satellite observations contributed aerosol measurements and regional context. This article summarizes the scientific objectives, platforms and instruments deployed, coordinated sampling strategies, and presents first results.
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测量火灾-大气耦合动态:加州火灾动态实验(CalFiDE)
摘要 在美国和全球大部分地区,野火对社会、经济和生态的影响日益严重,部分原因是气候变化和过去的森林管理措施造成的燃料堆积。这就需要改进火灾-大气耦合预报模型。然而,由于缺乏对许多关键的火灾-大气相互作用的观测,包括上升气流和羽流注入高度、羽流夹带过程、火灾强度和蔓延速度以及羽流化学反应,因此很难对模型性能进行评估。由于所涉及的后勤挑战和规模,在野火活跃期间对这种火-大气相互作用进行密集观测的情况非常罕见。加利福尼亚火灾动态实验(CalFiDE)旨在满足这些观测需求,在 NOAA 双水獭研究飞机上使用多普勒激光雷达、高分辨率多光谱成像和现场空气质量仪器,并在多个地面移动平台上使用多普勒激光雷达、雷达和其他仪器。在 2022 年 8 月 28 日至 9 月 25 日的 16 个飞行日里,对加利福尼亚州北部和俄勒冈州南部的五处野火进行了研究,包括从大火焚烧日到燃烧的空气质量观测等各种火灾阶段。飞行任务的设计旨在优化对每场火灾的空间结构和时间演变的观测,观测时间为连续多天从下午到日落。移动平台的协调使 CalFiDE 期间的四维采样策略得以实现,这将增进对火灾-大气动态的了解,有助于模型开发和预测能力的提高。卫星观测为气溶胶测量和区域背景提供了帮助。本文概述了科学目标、部署的平台和仪器、协调采样策略,并介绍了初步成果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
9.80
自引率
6.20%
发文量
231
审稿时长
6-12 weeks
期刊介绍: The Bulletin of the American Meteorological Society (BAMS) is the flagship magazine of AMS and publishes articles of interest and significance for the weather, water, and climate community as well as news, editorials, and reviews for AMS members.
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