Evaluating the feasibility of air environment management system for VOCs through 'VOCs specification' of petroleum refining industry.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Min-Gyu Kim, Jeong Hun Kim, Seok J Yoon, Sung Hwan Cho, Jeong Ung Yu, Cheon Woong Kang, Kyong Whan Moon, Hyo Eun Lee
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引用次数: 1

Abstract

The chemical industry releases various types of volatile organic compounds (VOCs) into the atmosphere, and the concentration of VOCs emitted from chimneys is regulated worldwide. However, some VOCs such as benzene are highly carcinogenic, while others such as ethylene and propylene may cause secondary air pollution, owing to their high ozone-generating ability. Accordingly, the US EPA(United State, Environment Protect Agency) introduced a fenceline monitoring system that regulates the concentration of VOCs at the boundary of a facility, away from the chimney source. This system was first introduced in the petroleum refining industry, which simultaneously emits benzene, affecting the local community because of its high carcinogenicity, and ethylene, propylene, xylene, and toluene, which have a high photochemical ozone creation potential (POCP). These emissions contribute to air pollution. In Korea, the concentration at the chimney is regulated; however, the concentration at the plant boundary is not considered. In accordance with the EPA regulations, Korea's petroleum refining industries were identified and the limitations of the Clean Air Conservation Act were studied. The average concentration of benzene at the research facility examined in this study was 8.53 µg/m3, which complied with the benzene action level of 9 µg/m3. However, this value was exceeded at some points along the fenceline, in proximity to the benzene-toluene-xylene (BTX) manufacturing process. The composition ratios of toluene and xylene were 27% and 16%, respectively, which were higher than those of ethylene or propylene. These results suggest that reduction measures in the BTX manufacturing process are necessary. This study shows that legal regulations should enforce reduction measures through continuous monitoring at the fenceline of petroleum refineries in Korea.Implications: Although volatile organic compounds(VOCs) are essential in various industrial sites, they adversely affect the health of people in the near community. Benzene is highly carcinogenic, so it is dangerous if exposed continuously. In addition, there are various types of VOCs, which combine with atmospheric ozone to generate smog. Globally, VOCs are managed as Total VOCs. However, through this study, VOCs have priority, and in the case of the petroleum refining industry, it is suggested that VOCs should be preemptively measured and analyzed to be regulated. In addition, it is necessary to minimize the impact on the local community by regulating the concentration at the fenceline beyond the chimney measurement.

通过《石油炼制行业VOCs规范》评价VOCs大气环境管理体系的可行性。
化学工业向大气中排放各种类型的挥发性有机化合物(VOCs),世界范围内对烟囱排放的VOCs浓度进行了管制。然而,有些挥发性有机化合物(如苯)具有高度致癌性,而其他挥发性有机化合物(如乙烯和丙烯)由于臭氧生成能力强,可能造成二次空气污染。因此,美国环境保护署采用了一种围栏监测系统,以调节远离烟囱源的设施边界处挥发性有机化合物的浓度。该系统首先应用于石油炼制行业,该行业同时排放具有高致癌性的苯和具有高光化学臭氧生成潜力(POCP)的乙烯、丙烯、二甲苯和甲苯,对当地社区造成影响。这些排放物造成了空气污染。在韩国,烟囱的浓度是受管制的;但是,没有考虑植物边界处的浓度。根据EPA的规定,确定了韩国的炼油行业,并研究了《清洁空气保护法》的局限性。本研究检测的研究设施苯平均浓度为8.53µg/m3,符合苯9µg/m3的作用水平。然而,在靠近苯-甲苯-二甲苯(BTX)制造工艺的围栏沿线的一些点超过了该值。甲苯和二甲苯的组成比分别为27%和16%,高于乙烯和丙烯。这些结果表明,在BTX制造过程中减少措施是必要的。该研究表明,应该通过法律规定,在国内炼油企业的周边地区进行持续监测,强制执行减少措施。启示:虽然挥发性有机化合物(VOCs)在各种工业场所是必不可少的,但它们对附近社区居民的健康产生不利影响。苯具有高度致癌性,如果持续接触是危险的。此外,还有各种类型的挥发性有机化合物,它们与大气臭氧结合产生烟雾。在全球范围内,VOCs按总VOCs进行管理。但通过本研究,VOCs具有优先性,以石油炼制行业为例,建议对VOCs进行先发制人的测量和分析,进行调控。此外,有必要通过调节烟囱测量之外围栏处的浓度来减少对当地社区的影响。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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