新型聚四氟乙烯腔体的表征和异构多功能光氧化产物的在线分析

IF 3.2 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric Measurement Techniques Pub Date : 2024-07-31 DOI:10.5194/amt-17-4553-2024
Finja Löher, Esther Borrás, Amalia Muñoz, Anke Christine Nölscher
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引用次数: 0

摘要

摘要对流层中挥发性有机化合物(VOCs)的光氧化反应对空气质量、天气和气候有重要影响。通过在受控条件下研究这些反应并分析新出现的光氧化产物,可以加深对其基本机制的理解。这需要专用的实验室基础设施以及灵敏的选择性分析技术。在这里,我们建造了一个新的 300 升室内聚四氟乙烯大气模拟室,作为拜罗伊特大气模拟室(BATCH)基础设施的一部分。该模拟室由一个带通滤波的太阳模拟器照射,可进行真实光子通量和羟自由基浓度的实验。它与质子转移反应飞行时间质谱仪(PTR-ToF-MS)和固相微萃取-气相色谱-质谱仪(SPME-GC-MS)系统相连,用于在线分析气相中的前体挥发性有机化合物及其氧化产物。作为 SPME-GC-MS 方法的一部分,用 O-(2,3,4,5,6-五氟苄基)羟胺 (PFBHA) 和 N-三甲基硅基-N-甲基三氟乙酰胺 (MSTFA) 对多功能含氧化合物(羰基、醇类、羧酸)进行了衍生。我们设计了一种在线添加内标物的渗透源,以提高方法的重现性。通过研究羟基自由基诱导的甲苯(大气中最丰富的芳香烃之一)光氧化反应,对联合装置进行了测试和验证。为了确定腔室的特性,我们首先得出了几种典型甲苯产品在辐照 BATCH 聚四氟乙烯腔室中的光解率(1.77 × 10-8-3.02 × 10-4 s-1)。此外,壁面损失率也是根据经验确定的(4.54 × 10-6-8.53 × 10-5 s-1),然后根据基本分子特性进行参数化。对于甲酚,我们为 PTR-ToF-MS 编制了一个加权校准因子,其中考虑到了特定异构体的灵敏度以及 SPME-GC-MS 确定的相对分布。加权校准将仪器一致性提高了 14%,而 PTR-ToF-MS 在使用平均校准因子时,与 SPME-GC-MS 的浓度相比,高估了 31% 的异构体总和。因此,综合数据集有助于深入了解时间趋势和异构体组成。最后,我们进行了六次甲苯光氧化实验,以评估保留环的第一代产品。根据损失校正浓度,我们得出了邻甲酚(8.0 ± 1.8 %)、间甲酚(0.4 ± 0.1 %)、对甲酚(2.4 ± 0.6 %)、苯甲醇(0.5 ± 0.1 %)和苯甲醛(4.6 ± 1.7 %)在 T = 298 ± 1 K 无氮氧化物条件下的形成产率。
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Characterization of a new Teflon chamber and on-line analysis of isomeric multifunctional photooxidation products
Abstract. The photooxidation of volatile organic compounds (VOCs) in the troposphere has important implications for air quality, weather, and climate. A deeper understanding of the underlying mechanisms can be achieved by studying these reactions under controlled conditions and analysing the emerging photooxidation products. This requires dedicated laboratory infrastructure as well as sensitive and selective analytical techniques. Here, we constructed a new 300 L indoor Teflon atmospheric simulation chamber as part of the Bayreuth ATmospheric simulation CHambers (BATCH) infrastructure. The chamber was irradiated by a bandpass-filtered solar simulator that enabled experiments with realistic photon fluxes and OH radical concentrations. It was coupled to a proton-transfer-reaction time-of-flight mass spectrometer (PTR-ToF-MS) and a solid-phase microextraction–gas chromatography–mass spectrometry (SPME-GC-MS) system for the on-line analysis of the precursor VOC and its oxidation products in the gas phase. As part of the SPME-GC-MS method, multifunctional oxygenated compounds (carbonyls, alcohols, carboxylic acids) were derivatized with O-(2,3,4,5,6-pentafluorobenzyl)hydroxylamine (PFBHA) and N-trimethylsilyl-N-methyltrifluoroacetamide (MSTFA). We designed a permeation source for the on-line addition of internal standards to improve method reproducibility. The joint setup was tested and validated by studying the OH-radical-induced photooxidation of toluene, one of the most abundant aromatic hydrocarbons in the atmosphere. For chamber characterization, we first derived the photolysis rates for several typical toluene products in the irradiated BATCH Teflon chamber (1.77 × 10−8–3.02 × 10−4 s−1). Additionally, wall loss rates were determined empirically (4.54 × 10−6–8.53 × 10−5 s−1) and then parameterized according to fundamental molecular properties. For the cresols, we compiled a weighted calibration factor for the PTR-ToF-MS, taking into account isomer-specific sensitivities as well as the relative distribution as determined by the SPME-GC-MS. The weighted calibration improved the instrumental agreement to 14 %, whereas the PTR-ToF-MS overestimated the sum of the isomers by 31 % compared to the SPME-GC-MS concentrations when using the averaged calibration factor. Thus, the combined data set offered insight into both temporal trends and the isomeric composition. Finally, we conducted six toluene photooxidation experiments to evaluate the ring-retaining first-generation products. Based on the loss-corrected concentrations, we derived formation yields for o-cresol (8.0 ± 1.8 %), m-cresol (0.4 ± 0.1 %), p-cresol (2.4 ± 0.6 %), benzyl alcohol (0.5 ± 0.1 %), and benzaldehyde (4.6 ± 1.7 %) under NOx-free conditions at T = 298 ± 1 K. These yields are consistent with previous studies and therefore serve as proof of concept for our applied methods.
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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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