燃煤电厂负荷变化下PMtotal、PM10、PM2.5、NOx、SO2排放因子比较

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2021-09-11 DOI:10.5572/ajae.2021.104
JeongHun Yu, Jihan Song, DoYoung Lee, MyeongSang Yu, JongHan Jung, Sung-Nam Chun, GaYoung Lee, JongHo Kim
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引用次数: 0

摘要

对两家 500 MW 煤粉燃烧型烟煤发电厂的 PM 总量、>PM10、PM2.5-10、PM2.5、NOx 和 SO2 的浓度进行了测量,并通过现场测量计算了其排放因子。测量点从锅炉下游开始,一直到串联安装的大气污染控制装置(APCD),即选择性催化还原系统(SCR)、空气预热器(APH)、静电除尘器(ESP)和湿法烟气脱硫系统(WFGD)。采用韩国空气污染物标准方法在一个点进行了三次以上的测量。然而,除烟囱外,所有测量点都不符合标准测试方法。此外,可吸入颗粒物浓度过高,等动采样无法缩短采集时间。测量结果的代表性有一定的局限性。在实地测量期间,P-1 和 P-2 两座燃煤发电厂的发电率分别为 91.6% 和 79.2%。此外,在发电率较低的 P-2 中,PMtotal、PM10、PM2.5 和 NOx 的浓度较低,用测量浓度值除以燃料用量计算出的排放因子估计也较低。这些结果是由于燃煤室和各种类型的大气污染物综合排放装置是在低于设计能力的低负荷条件下运行的。因此,产生的污染物数量较少,对污染物的去除效率较高。但研究发现,与负荷率的变化相比,煤的含硫量对二氧化硫的产生浓度和排放系数的影响更大。因此,降低燃煤电厂的运行负荷可提高燃烧效率和 APCD 性能,降低排放系数,从而比简单计算减少更多的大气污染物。
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Comparison of PMtotal, PM10, PM2.5, NOx, and SO2 Emission Factors from Coal-fired Power Plants per Load Change

For two bituminous coal-fired power plants with 500 MW and pulverized coal combustion type, the concentration of PMtotal, >PM10, PM2.5-10, PM2.5, NOx, and SO2 was measured, and their emission factors were calculated through field measurement. The measurement points started from the boiler downstream and continued to the air pollution control devices (APCDs) that are installed in series, namely, the selected catalytic reduction system (SCR), air preheater (APH), electrostatic precipitator (ESP) and wet flue gas desulfurization system (WFGD). The measurement was performed at one point for more than three times by using the Korean standard method for air pollutants. However, all measurement points, except for the stacks, were not representative of the standard test method. In addition, the PM concentration was too high to reduce the collection time due to isokinetic sampling. There is a limitation of how representative the measurement results can be. During the field measurement period, the power production rate of the two coal-fired power plants was 91.6% and 79.2% in the P-1 and P-2, respectively. Moreover, in the P-2, with a low power production rate, the concentration of PMtotal, PM10, PM2.5, and NOx was found to be low, and the emission factor calculated by dividing the measured concentration value by the fuel usage was also estimated to be low. Such results are due to the coal combustion chamber and various types of APCD being operated at a lower-load condition than the design capacity. In turn, the number of pollutants generated was less, and the removal efficiency of the pollutant became high. However, it was found that the concentration of SO2 generated and the emission factor are more significantly affected by the sulfur content of the coal than the load factor change. To this end, reducing the operation load of the coal-fired power plant improves the combustion efficiency and APCDs performance and decreases the emission factor, resulting in more reduction of the air pollutants than that based on the simple calculation.

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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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