Abstract
We describe a new approach for the determination of volatile organic compounds (VOCs) at precise locations in the air using active sampling on sorbent tubes outfitted to an inexpensive multicopter and analysis by thermal desorption (TD) gas chromatography-mass spectrometry (GC-MS). The aerial sampling method permits for the simultaneous collection of multiple air samples on separate TD tubes concurrently, increasing sample throughput compared to single canister sampling. Furthermore, the method is relatively inexpensive when compared to similar approaches, with overall costs below about $2000 (U.S. dollars). To demonstrate applicability, we measured VOCs at several heights near anthropogenic sources in the mid-south USA, including a municipal landfill, petroleum refinery, and a coal-fired power plant (CFPP), and within the canopy of a loblolly pine (Pinus taeda) forest. Concentrations of benzene, toluene, and xylene (BTX) were higher (p < 0.05) downwind of the refinery and CFPP compared to upwind. We observed both a unique mixture of VOCs at each site and higher concentrations of abundant VOCs downwind compared to upwind of the point sources and within versus above the forest canopy. Overall, this feasibility study demonstrates that highly maneuverable multicopters can be used to probe VOC concentrations aloft and thus have great potential to be utilized in unique sampling situations and for vertical profiling.
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References
Bauri N, Bauri P, Kumar K, Jain VK (2015) Evaluation of seasonal variations in abundance of BTXE hydrocarbons and their ozone forming potential in ambient urban atmosphere of Dehradun (India). Air Qual Atmos Health 9:95
Black O, Chen J, Scircle A, Zhou Y, Cizdziel J (2018) Adaptation and use of a quadcopter for targeted sampling of gaseous mercury in the atmosphere. Environ Sci Pollut Res Int 25:13195–13202. https://doi.org/10.1007/s11356-018-1775-y
Brown SS, Dube WP, Bahreini R, Middlebrook AM, Brock CA, Warneke C, de Gouw JA, Washenfelder RA, Atlas E, Peischl J, Ryerson TB, Holloway JS, Schwarz JP, Spackman R, Trainer M, Parrish DD, Fehshenfeld FC, Ravishankara AR (2013) Biogenic VOC oxidation and organic aerosol formation in an urban nocturnal boundary layer: aircraft vertical profiles in Houston, TX. Atmosp Chem Phys 13:11317–11337
Cetin E, Odabasi M, Seyfioglu R (2003) Ambient volatile organic compound (VOC) concentrations around a petrochemical complex and a petroleum refinery. Sci Total Environ 312(1–3):103–112
Chang CC, Wang JL, Chang CY, Liang MC, Lin MR (2016) Development of a multicopter-carried whole air sampling apparatus and its applications in environmental studies. Chemosphere 144:484–492
Chiriac R, Carre J, Perrodin Y, Vaillant H, Gasso S, Miele P (2009) Study of the dispersion of VOCs emitted by a municipal solid waste landfill. Atmos Environ 43:1926–1931
Demeestere K, Dewulf J, De Witte B, Van Langenhove V (2007) Sample preparation for the analysis of volatile organic compounds in air and water matrices. J Chromatogr A 1153:130–144
Diaz PV, Yoon S (2018) High-fidelity computational aerodynamics of multi-rotor unmanned aerial vehicles. AIAA SciTech Forum Aerospace Sciences Meeting, Kissimmee
Garcia JP, Beyne-Masclet S, Mouvier G, Masclet P (1992) Emissions of volatile organic compounds by coal-fired power stations. Atmos Environ 26(9):1589–1597
Greenberg JP, Guenther A, Zimmerman P, Baugh W, Geron C, Davis K, Helmig D, Klinger LF (1999) Tethered balloon measurements of biogenic VOCs in the atmospheric boundary layer. Atmos Environ 33(6):855–867
Isidorov VA, Zenkevich IG, Ioffe BV (1985) Volatile organic compounds in the atmosphere of forests. Atmos Environ 19(1):1–8
Kalabokas P, Hatzianestis J, Bartzis J, Papagiannakopoulos P (2001) Atmospheric concentrations of saturated and aromatic hydrocarbons around a Greek oil refinery. Atmos Environ 35(14):2545–2555
Kesselmeier J, Staudt M (1999) Biogenic volatile organic compounds (VOC): an overview on emission, physiology and ecology. Atmos Chem 33(1):23–88
Kovač-Andrić E, Arh G (2016) Atmospheric VOCs measurement in Nature Reserve Kopački rit, Croatia. Air Qual Atmos Health 9:681–686
Rad HD, Babaei AA, Goudarzi G, Angali KA, Ramezani Z, Mohammadi MM (2014) Levels and sources of BTEX in ambient air of Ahvaz metropolitan city. Air Qual Atmos Health 7:515–524
Ran L, Zhao CS, Xu WY, Lu XQ, Han M, Lin WL, Yan P, Xu XB, Deng ZZ, Ma N, Liu PF, Yu J, Liang WD, Chen LL (2011) VOC reactivity and its effect on ozone production during the HaChi summer campaign. Atmos Chem Phys 11(10):4657–4667
Rossi M, Brunelli D, Adami A, Lorenzelli L, Menna F, Remondino F (2014) Gas-drone: portable gas sensing system on UAVs for gas leakage localization. In: Proceedings of the 2014 IEEE SENSORS, Valencia, pp. 1431–1434
Ting M, Yue-si W, Jie J, Fang-kun W, Mingxing W (2008) The vertical distributions of VOCs in the atmosphere of Beijing in autumn. Sci Total Environ 390:97–108
USEPA United States Environmental Protection Agency (1999) Compendium Method TO-17, determination of volatile organic compounds in ambient air using active sampling onto sorbent tubes. EPA/625/R-96/010b
Villa TF, Gonzalez F, Miljievic B, Ristovski ZD, Morawska L (2016) An overview of small unmanned aerial vehicles for air quality measurements: present applications and future prospectives. Sensors 16:1072
Wei W, Cheng S, Li G, Wang G, Wang H (2014) Characteristics of volatile organic compounds (VOCs) emitted from a petroleum refinery in Beijing, China. Atmos Environ 89:358–366
Wintel J, Hösen E, Koppmann R, Krebsbach M, Hofzumahaus A, Rohrer F (2013) Stable carbon isotope ratios of toluene in the boundary layer and lower free troposphere. Atmos Chem Phys 13(21):11059–11071
Yan Y, Yang C, Peng L, Li R, Bai H (2016) Emission characteristics of volatile organic compounds from coal-, coal gangue-, and biomass-fired power plants in China. Atmos Environ 143:261–269
Yoon S, Diaz PV, Boyd Jr. DD, Chan WM, Theodore CR (2017) Computational aerodynamic modeling of small quadcopter vehicles. American Helicopter Society (AHS) 73rd Annual Forum Fort Worth, Texas
Zhou J, You Y, Bai Z, Hu Y, Zhang J, Zhang N (2011) Health risk assessment of personal inhalation exposure to volatile organic compounds in Tianjin, China. Sci Total Environ 309:452–459
Zou SC, Lee SC, Chan CY, Ho KF, Wang XM, Cahn LY, Zhang ZX (2003) Characterization of ambient volatile organic compounds at a landfill site in Guangzhou, South China. Chemosphere 51(9):1015–1022
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We thank several anonymous landowners for allowing us to sample from their private property.
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Chen, J., Scircle, A., Black, O. et al. On the use of multicopters for sampling and analysis of volatile organic compounds in the air by adsorption/thermal desorption GC-MS. Air Qual Atmos Health 11, 835–842 (2018). https://doi.org/10.1007/s11869-018-0588-y
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DOI: https://doi.org/10.1007/s11869-018-0588-y