A new aerial approach for quantifying and attributing methane emissions: implementation and validation

IF 3.2 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric Measurement Techniques Pub Date : 2024-09-04 DOI:10.5194/amt-17-5091-2024
Jonathan F. Dooley, Kenneth Minschwaner, Manvendra K. Dubey, Sahar H. El Abbadi, Evan D. Sherwin, Aaron G. Meyer, Emily Follansbee, James E. Lee
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Abstract

Abstract. Methane (CH4) is a powerful greenhouse gas that is produced by a diverse set of natural and anthropogenic emission sources. Biogenic methane sources generally involve anaerobic decay processes such as those occurring in wetlands, melting permafrost, or the digestion of organic matter in the guts of ruminant animals. Thermogenic CH4 sources originate from the breakdown of organic material at high temperatures and pressure within the Earth's crust, a process which also produces more complex trace hydrocarbons such as ethane (C2H6). Here, we present the development and deployment of an uncrewed aerial system (UAS) that employs a fast (1 Hz) and sensitive (1–0.5 ppb s−1) CH4 and C2H6 sensor and ultrasonic anemometer. The UAS platform is a vertical-takeoff, hexarotor drone (DJI Matrice 600 Pro, M600P) capable of vertical profiling to 120 m altitude and plume sampling across scales up to 1 km. Simultaneous measurements of CH4 and C2H6 concentrations, vector winds, and positional data allow for source classification (biogenic versus thermogenic), differentiation, and emission rates without the need for modeling or a priori assumptions about winds, vertical mixing, or other environmental conditions. The system has been used for direct quantification of methane point sources, such as orphan wells, and distributed emitters, such as landfills and wastewater treatment facilities. With detectable source rates as low as 0.04 and up to ∼ 1500 kg h−1, this UAS offers a direct and repeatable method of horizontal and vertical profiling of emission plumes at scales that are complementary to regional aerial surveys and localized ground-based monitoring.
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量化和归因甲烷排放的新空中方法:实施与验证
摘要甲烷(CH4)是一种强大的温室气体,由多种自然和人为排放源产生。生物源甲烷一般涉及厌氧腐烂过程,如发生在湿地、永久冻土融化或反刍动物内脏中有机物的消化过程。热生甲烷来源于地壳内高温高压下有机物的分解,这一过程也会产生乙烷(C2H6)等更复杂的痕量碳氢化合物。在此,我们介绍了无人驾驶航空系统(UAS)的开发和部署情况,该系统采用了快速(1 Hz)、灵敏(1-0.5 ppb s-1)的 CH4 和 C2H6 传感器以及超声波风速计。无人机系统平台是一架垂直起飞的六旋翼无人机(DJI Matrice 600 Pro,M600P),能够在 120 米的高度进行垂直剖面测量,并在 1 公里的范围内进行羽流采样。通过对 CH4 和 C2H6 浓度、矢量风和位置数据的同时测量,可以对来源进行分类(生物源与热源)、区分和排放率,而无需对风、垂直混合或其他环境条件进行建模或先验假设。该系统已被用于直接量化甲烷点源(如无主井)和分布式排放源(如垃圾填埋场和废水处理设施)。该无人机系统的可探测源速率低至 0.04,最高可达 1500 千克/小时-1,提供了一种直接、可重复的方法,可在一定范围内对排放羽流进行水平和垂直剖面分析,是区域航空调查和局部地面监测的补充。
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来源期刊
Atmospheric Measurement Techniques
Atmospheric Measurement Techniques METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
7.10
自引率
18.40%
发文量
331
审稿时长
3 months
期刊介绍: Atmospheric Measurement Techniques (AMT) is an international scientific journal dedicated to the publication and discussion of advances in remote sensing, in-situ and laboratory measurement techniques for the constituents and properties of the Earth’s atmosphere. The main subject areas comprise the development, intercomparison and validation of measurement instruments and techniques of data processing and information retrieval for gases, aerosols, and clouds. The manuscript types considered for peer-reviewed publication are research articles, review articles, and commentaries.
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