Merging TROPOMI and eddy covariance observations to quantify 5-years of daily CH4 emissions over coal-mine dominated region

IF 6.9 1区 工程技术 Q2 ENERGY & FUELS
Wei Hu, Kai Qin, Fan Lu, Ding Li, Jason B. Cohen
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Abstract

A simple and flexible mass balance approach was applied to observations of XCH4 from TROPOMI to estimate CH4 emissions over Shanxi Province, including the impacts of advective transport, pressure transport, and atmospheric diffusion. High-frequency eddy-covariance flux observations were used to constrain the driving terms of the mass balance equation. This equation was then used to calculate day-to-day and 5 km × 5 km grided CH4 emissions from May 2018 to July 2022 based on TROPOMI RPRO column CH4 observations. The Shanxi-wide emissions of CH4, 126 ± 58.8 ug/m2/s, shows a fat tail distribution and high variability on a daily time scale (the 90th percentile is 2.14 times the mean and 2.74 times the median). As the number of days in the rolling average increases, the change in the variation decreases to 128 ± 35.7 ug/m2/s at 10-day, 128 ± 19.8 ug/m2/s at 30-day and 127 ± 13.9 ug/m2/s at 90-day. The range of values of the annual mean emissions on coal mine grids within Shanxi for the years 2018 to 2022 was 122 ± 58.2, 131 ± 71.2, 111 ± 63.6, 129 ± 87.1, and 138 ± 63.4 ug/m2/s, respectively. The 5-year average emissions from TROPOMI are 131 ± 68.0 ug/m2/s versus 125 ± 94.6 ug/m2/s on the grids where the EDGAR bottom-up database also has data, indicating that those pixels with mines dominate the overall emissions in terms of both magnitude and variability. The results show that high-frequency observation-based campaigns can produce a less biased result in terms of both the spatial and temporal distribution of CH4 emissions as compared with approaches using either low-frequency data or bottom-up databases, that coal mines dominate the sources of CH4 in Shanxi, and that the observed fat tail distribution can be accounted for using this approach.

Abstract Image

合并 TROPOMI 和涡度协方差观测数据,量化煤矿主导区域 5 年的甲烷日排放量
对来自 TROPOMI 的 XCH4 观测数据采用了简单灵活的质量平衡方法,以估算山西省上空的 CH4 排放量,包括平流输送、压力输送和大气扩散的影响。高频涡度协方差通量观测用于约束质量平衡方程的驱动项。然后,根据TROPOMI RPRO柱CH4观测数据,利用该方程计算2018年5月至2022年7月的逐日和5 km×5 km网格CH4排放量。山西全境的甲烷排放量为126±58.8微克/平方米/秒,呈肥尾分布,日时间尺度上的变异性较大(第90百分位数是平均值的2.14倍,是中位数的2.74倍)。随着滚动平均值天数的增加,变异值的变化也随之减小,10 天为 128 ± 35.7 微克/平方米/秒,30 天为 128 ± 19.8 微克/平方米/秒,90 天为 127 ± 13.9 微克/平方米/秒。2018年至2022年,山西境内煤矿电网年均排放量的取值范围分别为122±58.2、131±71.2、111±63.6、129±87.1和138±63.4微克/平方米/秒。在 EDGAR 自下而上数据库也有数据的网格上,TROPOMI 的 5 年平均排放量为 131 ± 68.0 微克/平方米/秒,而 125 ± 94.6 微克/平方米/秒,这表明有地雷的像素在总体排放量的大小和变化方面都占主导地位。结果表明,与使用低频数据或自下而上数据库的方法相比,基于高频观测的方法在甲烷排放的空间和时间分布方面产生的结果偏差较小,煤矿是山西甲烷的主要来源,而且使用这种方法可以解释观测到的肥尾分布。
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来源期刊
CiteScore
11.40
自引率
8.40%
发文量
678
审稿时长
12 weeks
期刊介绍: The International Journal of Coal Science & Technology is a peer-reviewed open access journal that focuses on key topics of coal scientific research and mining development. It serves as a forum for scientists to present research findings and discuss challenging issues in the field. The journal covers a range of topics including coal geology, geochemistry, geophysics, mineralogy, and petrology. It also covers coal mining theory, technology, and engineering, as well as coal processing, utilization, and conversion. Additionally, the journal explores coal mining environment and reclamation, along with related aspects. The International Journal of Coal Science & Technology is published with China Coal Society, who also cover the publication costs. This means that authors do not need to pay an article-processing charge.
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