Benzene and other hazardous air pollutants in consumer-grade natural gas in Europe.

IF 5.6 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Research Letters Pub Date : 2026-03-28 Epub Date: 2026-03-25 DOI:10.1088/1748-9326/ae499f

Tamara L Sparks, Yannai S Kashtan, Sebastian T Rowland, Eric D Lebel, Jackson S W Goldman, Colin Finnegan, Gan Huang, Nicole Lucha, Abenezer Shankute, Nick Heath, Sofia Bisogno, Kelsey R Bilsback, Anchal Garg, Lee Ann L Hill, Robert B Jackson, Seth B C Shonkoff, Drew R Michanowicz

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Abstract

Consumer-grade natural gas leaks contribute to methane-induced climate change and can degrade air quality. However, limited leakage and gas composition data exist outside of North America. Here, we measured stove-off gas leakage in 35 homes and chemically characterized 78 unburned gas samples from residential stoves across seven cities in the United Kingdom, Netherlands, and Italy. On average, benzene in unburned gas was substantially elevated compared to North America (9 to 73 times higher), while sulfur-based odorants were lower. Modeling of indoor and outdoor benzene enhancements from gas leaks showed potential for hazardous benzene exposure, often undetectable by odor. Three of 35 homes exhibited a stove-off leak that, combined with city-median benzene in gas, resulted in modeled benzene enhancements above the European Union's annual limit value (1.6 ppbv). The combination of high benzene and relatively low odorization in natural gas suggests that hazardous leaks are likely underreported in Europe.

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欧洲消费级天然气中的苯和其他有害空气污染物。

消费级天然气泄漏会导致甲烷引起的气候变化，并可能降低空气质量。然而，北美以外地区的泄漏和天然气成分数据有限。在这里，我们测量了35个家庭的炉膛煤气泄漏，并对来自英国、荷兰和意大利七个城市的住宅炉膛的78个未燃烧气体样本进行了化学表征。平均而言，与北美相比，未燃烧气体中的苯含量大幅增加（高出9至73倍），而硫基气味剂则较低。气体泄漏对室内和室外苯增强的建模显示了有害苯暴露的潜力，通常无法通过气味检测到。35户家庭中有3户出现炉灶泄漏，再加上城市中苯气体含量，导致模拟苯浓度高于欧盟的年度限值（1.6 ppbv）。天然气中的高苯和相对较低的气味表明，危险的泄漏可能在欧洲被低估了。

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

Environmental Research Letters 环境科学-环境科学

CiteScore

11.90

自引率

4.50%

发文量

763

审稿时长

4.3 months

期刊介绍： Environmental Research Letters (ERL) is a high-impact, open-access journal intended to be the meeting place of the research and policy communities concerned with environmental change and management. The journal''s coverage reflects the increasingly interdisciplinary nature of environmental science, recognizing the wide-ranging contributions to the development of methods, tools and evaluation strategies relevant to the field. Submissions from across all components of the Earth system, i.e. land, atmosphere, cryosphere, biosphere and hydrosphere, and exchanges between these components are welcome.