生活垃圾转运站环境空气中恶臭成分分析及污染评价
Analysis and pollution evaluation of odorous components in ambient air of transfer station of municipal solid waste
-
摘要: 为研究垃圾转运站环境空气中恶臭成分组成特征,并对其进行污染评价,本文以北京市某一大型生活垃圾转运站为例,通过采集不同季节的环境空气样品,分别采用动态固相微萃取-气相色谱法、高效液相色谱法和冷阱富集-气质联用(GC/MS)技术对样品进行成分分析.在所采集的环境空气样品中,恶臭物质的浓度范围是383.6-2676.4 μg·m-3.检测到的恶臭物质共有41种,可分为8类:芳香烃、烷烃、烯烃、硫化物、羰基类、醇类、酯类、挥发性脂肪酸.从检出频次及检出浓度分析,芳香烃中主要的恶臭物质为苯、甲苯和间/对二甲苯;烷烃中主要的恶臭物质为2-甲基丁烷、丙烷和戊烷;烯烃中主要的恶臭物质为柠檬烯;硫化物中主要的恶臭物质为硫化氢和二甲二硫醚;醇类主要是乙醇;酯类主要是乙酸乙酯;羰基类中主要的恶臭物质为丁醛和2-丁酮;挥发性脂肪酸中主要的恶臭物质为乙酸和丙酸.同时本研究还发现,恶臭物质的总浓度和理论臭气浓度随季节变化较为明显,两者在夏季的数值分别为2273.8 μg·m-3和132.1,明显高于其他季节,这主要是由于温度是影响恶臭物质产生的关键因素.采用综合评分法对恶臭物质进行打分,排在前10位的恶臭物质是:硫化氢、丁醛、二甲二硫醚、乙酸、丙酸、甲苯、苯乙烯、间/对-二甲苯、柠檬烯和乙酸丁酯,可将这10种恶臭物质作为该垃圾转运站环境空气中的典型恶臭物质.Abstract: To investigate characteristics and pollution levels of odorous substances, ambient air samples of different seasons from a large municipal solid waste transfer station in Beijing were collected. The constituents of the air samples were analyzed by dynamic solid-phase microextraction-gas chromatography, high-performance liquid chromatography, and cold enrichment-gas chromatography-mass spectrometry. The concentration of detected odorous substances ranged from 383.6 μg·m-3 to 2676.4 μg·m-3 in collected ambient air samples. Forty-one chemicals were detected, which were divided into the following eight categories:aromatic hydrocarbons, alkanes, olefins, sulfides, carbonyls, alcohols, esters, and volatile fatty acids. Based on the detection frequencies and concentrations, the main odorous substances in each category were given, such as, aromatic hydrocarbons:benzene, toluene, and m-paraxylene; alkanes:2-methyl-butane, propane, and pentane; olefins:limonene; sulfides:hydrogen sulfide and dimethyl disulfide; alcohols:ethanol; esters:ethyl acetate; carbonyls:butyraldehyde and 2-butanone; volatile fatty acids:acetic acid and propionic acid. In addition, the total and theoretical concentrations of odorous substances at different sampling times showed obvious seasonal variations, with the highest values of 2273.8 μg·m-3 and 132.1 found in summer, respectively. Therefore, temperature was a key factor affecting the release of odorous substances. Using a comprehensive scoring method to evaluate their effect on the pollution levels, the top ten odorous substances were hydrogen sulfide, butyl aldehyde, dimethyl disulfide, acetic acid, propionic acid, toluene, styrene, m/p-dimethylbenzene, limonene, and butyl acetate. These ten substances could be used as typical odorous substances found in ambient air of municipal solid waste transfer stations.
-
Key words:
- municipal solid waste transfer station /
- ambient air /
- odor /
- component analysis /
- pollution evaluation
-
-
[1] 包景岭,李伟芳,邹克华. 浅议恶臭污染的健康风险研究[J]. 城市环境与城市生态,2012,25(4):5-7. BAO J L,LI W F,ZOU K H. Research status of health risk of odor pollution[J]. Urban Enviroment & Urban Ecology,2012,25(4):5-7(in Chinese).
[2] 韩博,吴建会,王凤炜,等. 典型工业恶臭源恶臭排放特征研究[J]. 中国环境科学,2013,33(3):416-422. HAN B,WU J H,WANG F W,et al. Characterization of industrial odor sources[J]. China Environmental Science,2013,33(3):416-422(in Chinese).
[3] TASSI F,MONTEGROSSI G,VASELLI O,et al. Degradation of C2-C15 volatile organic compounds in a landfill cover soil[J]. The Science of the Total Environment,2009,407(15):4513-4525. [4] 李伟芳,李昌建,曹阳,等. 天津市环境空气恶臭污染状况与典型气态污染物识别[J]. 环境科学研究,2014,27(6):567-574. LI W F,LI C J,CAO Y,et al. Odor pollution conditions and typical gaseous pollutants in urban ambient air in Tianjin City[J]. Research of Environmental Sciences,2014,27(6):567-574(in Chinese).
[5] 方晶晶,章骅,吕凡,等.生活垃圾收运过程中恶臭暴露的健康风险评估[J]. 中国环境科学,2015,35(3):906-916. FANG J J,ZHANG Y,LV F,et al. Health risk assessment of exposure to odorous pollutants emitted from the transportation process of MSW[J]. China Environmental Science,2015,35(3):906-916(in Chinese).
[6] VILAVERT L,NADAL M,FIGUERAS M,et al. Volatile organic compounds and bioaerosols in the vicinity of a municipal waste organic fraction treatment plant. Human health risks[J]. Environmental Science and Pollution Research (International),2012,19(1):96-104. [7] LERNER J,SANCHEZ E,SAMBETH J,et al. Characterization and health risk assessment of VOCs in occupational environments in Buenos Aires,Argentina[J]. Atmosphric Environment,2012,55:440-447. [8] 芦会杰. 典型生活垃圾处理设施恶臭排放特征及污染评价[J]. 环境科学,2017,38(8):3178-3184. LU H J. Odor emission characteristics and pollution evaluation from typical household rubbish disposal facilities[J]. Environmental Science,2017,38(8):3178-3184(in Chinese).
[9] GAO S,BAI Z P,WANG X Y,et al. Cancer risk assessment of volatile organic compounds in an ornament market in Tianjin,China[R]. International Symposium on Public Health and Environmental Protection (PHEP),Macau,China,2012. [10] LI G,ZHANG Z,SUN H,et al. Pollution profiles,health risk of VOCs and biohazards emitted from municipal solid waste transfer station and elimination by an integrated biological-photocatalytic flow system:A pilot-scale investigation[J]. Journal of Hazardous Materials,2013,250/251:147-154. [11] 孙杰,王跃思,吴方堃,等. 唐山市和北京市夏秋季节大气VOCs组成及浓度变化[J]. 环境科学,2010,31(7):1438-1443. SUN J,WANG Y S,WU F K,et al. Concentration and change of VOCs in summer and autumn in Tangshan[J]. Environmental Science,2010,31(7):1438-1443(in Chinese).
[12] 李雷,李红,王学中,等.广州市中心城区环境空气中挥发性有机物的污染特征与健康风险评价[J]. 环境科学,2013,34(12):4558-4564. LI L,LI H,WANG X Z,et al. Pollution Characteristics and health risk assessment of atmospheric VOCs in the downtown area of Guangzhou[J]. Environmental Science,2013,34(12):4558-4564(in Chinese).
[13] 周裕敏,郝郑平,王海林. 北京城乡结合地空气中挥发性有机物健康风险评价[J]. 环境科学,2011,32(12):3566-3570. ZHOU Y M,HAO Z P,WANG H L. Health assessment of atmospheric volatile organic compounds in urban rural juncture belt area[J]. Environmental Science,2011,32(12):3566-3570(in Chinese).
[14] 闫凤越,邹克华,李伟芳,等. 垃圾填埋场恶臭气体的指纹谱[J]. 环境化学,2013,32(5):854-859. YAN F Y,ZOU K H,LI W F,et al. Research of odor pollutant's fingerprints in ambient air of landfill area[J]. Environmental Chemistry,2013,32(5):854-859(in Chinese).
[15] 张妍,王元刚,卢志强. 我国餐厨废物生化处理设施恶臭排放特征分析[J]. 环境科学,2015,36(10):3603-3610. ZHANG Y,WANG Y G, LU Z Q. Odor emission characteristics from biochemical treatment facilities of kitchen waste in China[J]. Environmental Science,2015,36(10):3603-3610(in Chinese).
[16] 姬亚芹,陈丽,宫庆超,等. 恶臭排放规律及其采样和分析方法[J]. 中国环境监测,2013,29(3):132-136. JI Y Q,CHEN L, GONG Q C,et al. Malodorous emission law and the method of sampling and analysis[J]. Environmental Monitoring in China,2013,29(3):132-136(in Chinese).
[17] 孟洁,王亘,韩萌,等. 动态固相微萃取-气相色谱法测定环境空气中挥发性脂肪酸的研究[J]. 分析测试学报,2016,35(12):1611-1615. MENG J,WANG G,HAN M,et al. Analysis of six volatile fatty acids in air using dynamic solid-phase microextration-gas chromatography[J]. Journal of Instrumental Analysis,2016,35(12):1611-1615(in Chinese).
[18] 羌宁,王红玉,赵爱华,等. 生活垃圾填埋场作业面恶臭散发率研究[J]. 环境科学,2014,35(2):513-519. QIANG N,WANG H Y,ZHAO A H,et al. Odor emission rate of municipal solid waste from landfill working area[J]. Environmental Science,2014,35(2):513-519(in Chinese).
[19] 赵鹏,刘杰民,伊芹,等. 异味污染评价与治理研究进展[J]. 环境化学,2011,30(1):310-325. ZHAO P,LIU J M,YI Q,et al. Advance on the study of odor assessment and treatment[J]. Environmental Chemistry,2011,30(1):310-325(in Chinese).
[20] 孙中涛,楼紫阳,王罗春,等. 混合生活垃圾恶臭特性及评估方法研究[J]. 环境污染与防治,2015,37(11):11-15. SUN Z T,LOU Z Y,WANG L C,et al. Characteristics of odor emission from mixed waste and the odor evaluation process[J]. Environmental Pollution & Control,2015,37(11):11-15(in Chinese).
[21] 王亘,孟洁,商细彬,等. 国外恶臭污染管理办法对我国管理体系构建的启示[J]. 环境科学研究,2018,31(8):1337-1345. WANG G,MENG J,SHANG X B,et al. The enlightenment of foreign odor management approaches for its establishment in China[J]. Research of Environmental Sciences,2018,31(8):1337-1345(in Chinese).
[22] 赵岩,陆文静,王洪涛,等. 城市固体废物处理处置设施恶臭污染评估指标体系研究[J]. 中国环境科学,2014,34(7):1804-1810. ZHAO Y, LU W J,WANG H T,et al. Evaluation index system of odor pollution for municipal solid waste treatment facilities[J]. China Environmental Science,2014,34(7):1804-1810(in Chinese).
[23] 王亘,翟增秀,耿静,等. 40种典型恶臭物质嗅阈值测定[J]. 安全与环境学报, 2015,6:348-351. WANG G,ZHAI Z X,GENG J,et al. Testing and determination of the olfactory thresholds of the 40 kinds of typical malodorous substances[J]. Journal of Safety and Environment, 2015,6:348-351(in Chinese).
-
点击查看大图
计量
- 文章访问数: 3470
- HTML全文浏览数: 3470
- PDF下载数: 70
- 施引文献: 0
下载:
