Emission Characteristics of PM (PMtotal, PM10, PM2.5), NOx, CO and VOCs Emitted from LNG-fired Gas Turbine and Small Domestic Boiler

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2021-12-17 DOI:10.5572/ajae.2021.15.4.129
JongHyeon Kim, JeongHun Yu, Jihan Song, DoYoung Lee, MyeongSang Yu, InJun Hwang, JinSung Kim, JongHo Kim
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Abstract

In recent years, natural gas is increasingly being used in the heating and power generation sectors as a clean fuel with an aim to reduce air pollution. In this study, a standard test method was used to measure air pollutants and identify emission characteristics for gas turbines and small domestic boilers, which use LNG as fuel. For gas turbines, the air pollutants were measured at 14 sites, whereas for small domestic boilers, six of them were installed in a laboratory to run tests due to limitations in on-site measuring and testing. However, the small domestic boilers were all new machines and were operated for long consecutive hours for testing, meaning that the results could vary from that of on-site boilers. The results show that gas turbines and small domestic boilers not only emit PM2.5, but also particulate matters larger than PM2.5. According to the measurements, the average concentration level of PMtotal, PM10, and PM2.5 generated from gas turbines are 51.8, 38.5, and 28.1 µg/m3 (@O2 15%), respectively. Those generated from small domestic boilers were 31.3, 26.2, and 20.0 µg/m3 (@O2 4%), respectively. The NOx concentration levels complied with the emission limits. Especially where a NOx control device was in place, both the NOx and CO concentration levels were relatively low. However, the NOx and CO concentration levels were generated from small domestic boilers were relatively high, since the emission limits were not applied. VOCs were measured at 10 facilities where 28 samples were collected. The compounds that were identified were Aromatics, Oxygenated VOCs, Alkanes, in that order, which were consistent across the samples. Aromatics consisted mostly of toluene, o,m,p-xylenes, benzene, and ethylbenzene. Among oxygenated VOCs, ethyl acetate, vinyl acetate, and isopropyl alcohol, etc. were identified. In other words, gas turbines generated a wider range and higher concentration levels of VOCs compared to small domestic boilers. The emission factors of gas turbines and small domestic boilers were derived from the measurements, and then compared with the standard emission factors of other countries (NAER, U.S. EPA AP-42, EMEP/EEA). PM emission factors calculated in this study were lower than that of existing emission factors and the calculated NOx emission factors (uncontrolled) for the small boilers were also lower. The CO emission factor for gas turbines was lower than that of existing emission factors, but higher for the small domestic boilers. Emission factors of benzene, toluene, and xylenes, which are hazardous air pollutants, were lower than those of U.S. EPA AP-42.

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液化天然气燃气轮机和家用小型锅炉PM(PMtotal、PM10、PM2.5)、NOx、CO和VOCs的排放特征
近年来,天然气作为一种清洁燃料越来越多地用于供热和发电行业,以减少空气污染。本研究采用标准测试方法测量空气污染物,并确定使用液化天然气作为燃料的燃气轮机和小型家用锅炉的排放特征。对于燃气轮机,在 14 个地点对空气污染物进行了测量,而对于小型家用锅炉,由于现场测量和测试的局限性,其中 6 台安装在实验室进行测试。然而,小型家用锅炉都是新机器,测试时连续运行时间较长,这意味着测试结果可能与现场锅炉的测试结果不同。结果显示,燃气轮机和小型家用锅炉不仅排放 PM2.5,还排放比 PM2.5 更大的颗粒物。根据测量结果,燃气轮机产生的 PMtotal、PM10 和 PM2.5 的平均浓度水平分别为 51.8、38.5 和 28.1 微克/立方米(@O2 15%)。小型家用锅炉产生的 PM 分别为 31.3、26.2 和 20.0 微克/立方米(@O2 4%)。氮氧化物浓度水平符合排放限值。特别是在安装了氮氧化物控制装置的地方,氮氧化物和一氧化碳的浓度水平都相对较低。然而,由于未采用排放限值,小型家用锅炉产生的氮氧化物和一氧化碳浓度水平相对较高。在 10 个设施中测量了挥发性有机化合物,收集了 28 个样本。确定的化合物依次为芳烃、含氧挥发性有机化合物、烷烃,这些化合物在所有样本中都是一致的。芳烃主要包括甲苯、邻、间、对二甲苯、苯和乙苯。在含氧挥发性有机化合物中,发现了乙酸乙酯、乙酸乙烯酯和异丙醇等。换言之,与小型家用锅炉相比,燃气轮机产生的 VOC 种类更多,浓度水平更高。燃气轮机和小型家用锅炉的排放因子是通过测量得出的,然后与其他国家的标准排放因子(NAER、美国 EPA AP-42、EMEP/EEEA)进行比较。本研究计算出的 PM 排放因子低于现有的排放因子,计算出的小型锅炉氮氧化物排放因子(未控制)也较低。燃气轮机的 CO 排放因子低于现有的排放因子,但小型家用锅炉的 CO 排放因子较高。有害空气污染物苯、甲苯和二甲苯的排放因子低于美国环保局 AP-42 的排放因子。
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来源期刊
Asian Journal of Atmospheric Environment
Asian Journal of Atmospheric Environment METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
2.80
自引率
6.70%
发文量
22
审稿时长
21 weeks
期刊最新文献
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