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为研究2019年江苏省一次专项管控期间VOCs浓度的变化情况,于8月13日~9月30日在13个设区市重点工业园区开展VOCs连续观测,分析江苏省工业园区VOCs浓度现状及分布特征,对各市工业园区管控期间VOCs的减排效果进行评估并给出相应对策建议。结果表明:VOCs是江苏省臭氧生成的主要前体物,13个设区市典型工业园区VOCs体积浓度为26.2×10-9,呈现“南高北低”态势,烷烃、烯烃、炔烃和芳香烃物种对臭氧生成贡献的占比分别为16.7%、44.0%、0.6%和39.1%;管控有效减缓了臭氧浓度上升的幅度,但不同地区对臭氧的生成贡献较大的物种不同,建立优先控制物种数据库,既达到调控目的,又减少对社会经济的影响。 相似文献
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为了解南充城区秋季大气环境中挥发性有机物(VOCs)的污染特征及来源,2018年11月7日~11月15日,利用在线GC-MS对南充城区的VOCs成分进行了连续在线监测,并运用PMF模型对VOCs的来源进行了解析。结果表明:监测期间,南充城区的VOCs共检出103种,小时平均体积分数约为(32.5±5.7)×10-9,由烷烃、含氧挥发性有机物(OVOCs)、芳香烃、烯烃、卤代烃等组成,占比分别为38.5%、31.7%、10.2%、9.5%和8.0%;各类污染物中烯烃对总臭氧生成潜势(OFP)的贡献度最大,占32.6%,OVOCs次之(31.7%),其余依次为芳香烃(26.0%)、烷烃(8.3%)和卤代烃(1.1%);VOCs的日变化总体呈现两高两低的趋势,但变化幅度较小,VOCs与NO 2、CO、PM 2.5和PM 10浓度呈正相关关系,与O 3的浓度呈负相关关系;运用PMF模型共解析出道路交通源、工业源、油气挥发、燃料燃烧和餐饮油烟5个因子,道路交通源是南充城区秋季大气环境VOCs最大贡献源(29.3%),其次为工业源(26.1%)和油气挥发(23.0%),燃料燃烧(14.4%)和餐饮油烟(7.2%)的贡献最小。相关分析表明:南充城区秋季大气环境中的VOCs受机动车尾气、工业溶剂、油气挥发和生物质燃烧的影响较大,建议后期应重点关注这4类污染源。 相似文献
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Janet M. Carter Wayne W. Lapham John S. Zogorski 《Journal of the American Water Resources Association》2008,44(2):399-416
Abstract: Samples of ambient ground water were collected during 1985‐2002 from 3,498 wells in 98 aquifer studies throughout the United States. None of the sampled wells were selected because of prior knowledge of nearby contamination. Most of these samples were analyzed for 55 volatile organic compounds (VOCs) to characterize their national occurrence. Volatile organic compounds were found in samples collected from 90 of the 98 aquifer studies. Occurrence frequencies of one or more VOCs for the 98 aquifer studies ranged from 0 to about 77% at an assessment level of 0.2 microgram per liter (μg/l). The aquifer studies with the largest occurrence frequencies were in southern Florida, southern New York, southern California, New Jersey, and Nevada. Trihalomethanes and solvents were the most frequently occurring VOC groups. Of the 55 VOCs included in this assessment, 42 occurred in at least one sample at an assessment level of 0.2 μg/l. Chloroform, perchloroethene, and methyl tert‐butyl ether were the most frequently occurring VOCs. Many factors, such as the hydrogeology of the aquifer, use of VOCs, land use, and the transport and fate properties of VOCs, affect the occurrence of VOCs in ground water. 相似文献
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挥发性有机废气净化技术研究进展 总被引:16,自引:4,他引:16
本文对生物净化技术、等离子体净化技术、吸附和催化氧化技术在控制废气中挥发性有机物的研究进展及应用进行了综述。气体生物净化技术在VOCs混合物和改进设备工艺方面开展的研究工作较多,等离子体净化技术与催化技术的组合越来越受到关注。吸附和催化氧化方面则着重在吸附剂(活性炭和沸石)吸附性能的进一步研究和新型催化剂的研制。 相似文献