Applications of Ground-Based Infrared Cameras for Remote Sensing of Volcanic Plumes

Fred Prata, S. Corradini, Riccardo Biondi, L. Guerrieri, L. Merucci, Andrew Prata, D. Stelitano
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Abstract

Ground-based infrared cameras can be used effectively and safely to provide quantitative information about small to moderate-sized volcanic eruptions. This study describes an infrared camera that has been used to measure emissions from the Mt. Etna and Stromboli (Sicily, Italy) volcanoes. The camera provides calibrated brightness temperature images in a broadband (8–14 µm) channel that is used to determine height, plume ascent rate and volcanic cloud/plume temperature and emissivity at temporal sampling rates of up to 1 Hz. The camera can be operated in the field using a portable battery and includes a microprocessor, data storage and WiFi. The processing and analyses of the data are described with examples from the field experiments. The updraft speeds of the small eruptions at Stromboli are found to decay with a timescale of ∼10 min and the volcanic plumes reach thermal equilibrium within ∼2 min. A strong eruption of Mt. Etna on 1 April 2021 was found to reach ∼9 km, with ascent speeds of 10–20 ms−1. The plume, mostly composed of the gases CO2, water vapour and SO2, became bent over by the prevailing winds at high levels, demonstrating the need for multiple cameras to accurately infer plume heights.
地面红外摄像机在火山羽流遥感中的应用
地面红外热像仪可以有效、安全地用于提供有关中小型火山爆发的定量信息。本研究介绍了用于测量埃特纳火山和斯特龙博利火山(意大利西西里岛)排放物的红外热像仪。该相机在宽带(8-14 微米)通道中提供校准的亮度温度图像,用于确定高度、羽流上升速度以及火山云/羽流温度和发射率,时间采样率高达 1 Hz。该相机可在野外使用便携式电池操作,包括微处理器、数据存储和 WiFi。本文以现场实验为例,介绍了数据的处理和分析方法。研究发现,斯特龙博利小规模喷发的上升气流速度在 10 分钟内衰减,火山羽流在∼2 分钟内达到热平衡。2021 年 4 月 1 日,埃特纳火山强烈喷发,喷发距离达 9 千米,上升速度为 10-20 毫秒-1。烟羽主要由二氧化碳、水蒸气和二氧化硫气体组成,在高空被盛行风吹弯,这表明需要使用多台照相机来准确推断烟羽高度。
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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