Application of Electronic Nose to Ambient Air Quality Evaluation With Respect to Odour Nuisance in Vicinity of Municipal Landfills and Sewage Treatment
Abstract
This chapter contains information about application of the electronic nose type instruments to evaluation of ambient air odour quality connected with such sectors of human activity as municipal landfills or sewage treatment plants. The authors present potential sources of emission from these sectors, characterize the chemical compounds responsible for presence of unpleasant odours, describe the influence of those compounds on human health and related discomfort. Legal aspects pertaining to admissible odour concentration levels in selected countries are also presented. The chapter describes instrumental and sensory methods utilized for determination of odour concentration, odour intensity, or hedonic quality. The chemical sensors potentially and currently employed in the electronic nose type devices are also characterized. Moreover, the future prospects of application of the electronic nose instruments to evaluation of ambient air with respect to odour nuisance are discussed.
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- Accepted or Published Version
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- Category:
- Monographic publication
- Type:
- rozdział, artykuł w książce - dziele zbiorowym /podręczniku w języku o zasięgu międzynarodowym
- Title of issue:
- W : Electronic Nose Technologies and Advances in Machine Olfaction strony 175 - 201
- ISSN:
- 2327-039X
- Language:
- English
- Publication year:
- 2018
- Bibliographic description:
- Gębicki J., Szulczyński B., Byliński H., Kolasińska P., Dymerski T., Namieśnik J.: Application of Electronic Nose to Ambient Air Quality Evaluation With Respect to Odour Nuisance in Vicinity of Municipal Landfills and Sewage Treatment// Electronic Nose Technologies and Advances in Machine Olfaction/ ed. Y. Albastaki, F. Albalooshi Bahrajn: IGI Global, 2018, s.175-201
- DOI:
- Digital Object Identifier (open in new tab) 10.4018/978-1-5225-3862-2
- Bibliography: test
-
- Bai, H., & Shi, G. (2007). Gas Sensors Based on Conducting Polymers. Sensors (Basel), 7(3), 267-307. doi:10.3390/s7030267 open in new tab
- Barczak, R., Kulig, A., & Szyłak-Szydłowski, M. (2012). Olfactometric methods application for odour nuisance assessment of wastewater treatment facilities in Poland. Chemical Engineering Transactions, 30, 187-192. open in new tab
- Bourgeois, W., & Stuetz, R. M. (2002). Use of a chemical sensor array for detecting pollutants in domestic wastewater. Water Research, 36(18), 4505-4512. doi:10.1016/S0043-1354(02)00183-5 PMID:12418653 open in new tab
- Byliński, H., Lewkowska, P., Gębicki, J., Dymerski, T., & Namieśnik, J. (2016). Identification of aromatic compounds in odours mixture by gas chromatography and field olfactometry techniques. Proceedings of the 12th Modern Analytical Chemistry, 108-112.
- Capelli, L., Sironi, S., Del Rosso, R., & Centola, P. (2009). Predicting odour emissions from wastewater treatment plants by means of odour emission factors. Water Research, 43(7), 1977-1985. doi:10.1016/j. watres.2009.01.022 PMID:19232669 open in new tab
- Capelli, L., Sironi, S., Del Rosso, R., Centola, P., & Il Grande, M. (2008). A comparative and critical evaluation of odour assessment methods on a landfill site. Atmospheric Environment, 42(30), 7050-7058. doi:10.1016/j.atmosenv.2008.06.009 open in new tab
- Capelli, S., Sironi, P., Centola, R., del Rosso, R., & Il Grande, M. (2008). Electronic noses for the con- tinuous monitoring of odours from a wastewater treatment plant at specific receptors: Focus on training methods. Sensors and Actuators. B, Chemical, 131(1), 53-62. doi:10.1016/j.snb.2007.12.004 open in new tab
- Czerny, M., Christlbauer, M., Christlbauer, M., Fischer, A., Granvogl, M., Hammer, M., ... Schieberle, P. (2008). Re-investigation on odour thresholds of key food aroma compounds and development of an aroma language based on odour qualities of defined aqueous odorant solutions. European Food Research and Technology, 228(2), 265-273. doi:10.1007/s00217-008-0931-x open in new tab
- Delgado-Rodriguez, M., Ruiz-Montoya, M., Giraldez, I., Lopez, R., Madejon, E., & Diaz, M. J. (2012). Use of electronic nose and GC-MS in detection and monitoring some VOC. Atmospheric Environment, 51, 278-285. doi:10.1016/j.atmosenv.2012.01.006 open in new tab
- Application of Electronic Nose to Ambient Air Quality Evaluation With Respect to Odour Nuisance Dewettinck, T., van Hege, K., & Verstraete, W. (2001). The electronic nose as a rapid sensor for volatile compounds in treated domestic wastewater. Water Research, 35(10), 2475-2483. doi:10.1016/S0043- 1354(00)00530-3 PMID:11394782 open in new tab
- Dincer, F., Odabasi, M., & Muezzinoglu, A. (2006). Chemical characterization of odorous gases at a landfill site by gas chromatography-mass spectrometry. Journal of Chromatography. A, 1122(1-2), 222-229. doi:10.1016/j.chroma.2006.04.075 PMID:16697389 open in new tab
- Fang, J. J., Yang, N., Cen, D. Y., Shao, L. M., & He, P. J. (2012). Odor compounds from different sources of landfill: Characterization and source identification. Waste Management (New York, N.Y.), 32(7), 1401-1410. doi:10.1016/j.wasman.2012.02.013 PMID:22480726 open in new tab
- Gallego, E., Perales, J. F., Roca, F. J., & Guardino, X. (2014). Surface emission determination of vola- tile organic compounds (VOC) from a closed industrial waste landfill using a self-designed static flux chamber. The Science of the Total Environment, 470-471, 587-599. doi:10.1016/j.scitotenv.2013.09.105 PMID:24176707 open in new tab
- Gebicki, J. (2016). Application of electrochemical sensors and sensor matrixes for measurement of odorous chemical compounds. Trends in Analytical Chemistry, 77, 1-13. doi:10.1016/j.trac.2015.10.005 open in new tab
- Gębicki, J., Dymerski, T., & Namieśnik, J. (2016). Evaluation of Ambient Air Odour Quality in Vicinity of Municipal Landfill Using Electronic Nose Technique. Chemical Engineering Transactions, 54, 253-258. open in new tab
- Gębicki, J., Dymerski, T., & Namieśnik, J. (2017). Investigation of Air Quality beside a Municipal Landfill: The Fate of Malodour Compounds as a Model VOC. Environments, 4(1). open in new tab
- Giungato, P., de Gennaro, G., Barbieri, P., Briguglio, S., Amodio, M., de Gennaro, L., & Lasigna, S. (2016). Improving recognition of odors in a waste management plant by using electronic noses with different technologies, gas chromatography-mass spectrometry/olfactometry and dynamic olfactometry. Journal of Cleaner Production, 133, 1395-1402. doi:10.1016/j.jclepro.2016.05.148 open in new tab
- Hansen, M. J., Jonassen, K. E. N., & Feilberg, A. (2014). Evaluation of Abatement Technologies for Pig Houses by Dynamic Olfactometry and On-site Mass Spectrometry. Chemical Engineering Journal, 40, 253-258. open in new tab
- Harynuk, J., & Górecki, T. (2004). Comprehensive two-dimensional gas chromatography in stop-flow mode. Journal of Separation Science, 27(5-6), 431-441. doi:10.1002/jssc.200301649 PMID:15335078 open in new tab
- Hung, Y. T., Wang, L. K., & Shammas, N. K. (Eds.). (2012). Handbook of Environment and Waste Management: Air and Water Pollution Control. World Scientific Publishing Co. Pte. Ltd. open in new tab
- Kośmider, J., & Krajewska, B. (2007). Determining temporary odour concentration under field condi- tions -Comparison of methods. Polish Journal of Environmental Studies, 16, 215-225.
- Application of Electronic Nose to Ambient Air Quality Evaluation With Respect to Odour Nuisance open in new tab
- Lehtinen, J., & Veijanen, A. (2011). Odour monitoring by combined TD-GC-MS-sniff technique and dynamic olfactometry at the wastewater treatment plant of low H2S concentration. Water, Air, and Soil Pollution, 218(1-4), 185-196. doi:10.1007/s11270-010-0634-3 open in new tab
- Littarru, P. (2007). Environmental odours assessment from waste treatment plants: Dynamic olfactometry in combination with sensorial analysers "electronic noses,". Waste Management (New York, N.Y.), 27(2), 302-309. doi:10.1016/j.wasman.2006.03.011 PMID:16766175 open in new tab
- Mahin, T. D. (2001). Comparison of different approaches used to regulate odours around the world. Water Science and Technology, 44(9), 87-102. PMID:11762488 open in new tab
- Micone, P. G., & Guy, C. (2007). Odour quantification by a sensor array: An application to landfill gas odours from two different municipal waste treatment works. Sensors and Actuators. B, Chemical, 120(2), 628-637. doi:10.1016/j.snb.2006.03.026 open in new tab
- Naddeo, V., Zarra, T., Giuliani, S., & Belgiorno, V. (2012). Odour Impact Assessment in Industrial Areas. Chemical Engineering Transactions, 30, 85-90. open in new tab
- Nagata, Y. (2003). Measurement of Odor Threshold by Triangle Odor Bag Method. Odor Measurement Review, 118-127.
- Nake, A., Dubreuil, B., Raynaud, C., & Talou, T. (2005). Outdoor in situ monitoring of volatile emis- sions from wastewater treatment plants with two portable technologies of electronic noses. Sensors and Actuators. B, Chemical, 106(1), 36-39. doi:10.1016/j.snb.2004.05.034 open in new tab
- Nicell, J. A. (2009). Assessment and regulation of odour impacts. Atmospheric Environment, 43(1), 196-206. doi:10.1016/j.atmosenv.2008.09.033 open in new tab
- Nicolas, J., Cerisier, C., & Delva, J. (2012). Potential of a Network of Electronic Noses to Assess in Real Time the Odour Annoyance in the Environment of a Compost Facility. Chemical Engineering Transactions, 30, 133-138.
- Onkal-Engin, G., Demir, I., & Engin, S. N. (2005). Determination of the relationship between sewage odour and BOD by neural networks. Environmental Modelling & Software, 20(7), 843-850. doi:10.1016/j. envsoft.2004.04.012 open in new tab
- Ritvay, D., & Kovács, D. (2006). The international and Hungarian practice of odor emission control (in Hungarian). National Environmental Conference, Siófok, 19-21 September 2006, Romain, A.C., Delva, J., & Nicolas J. (2008). Complementary approaches to measure environmental odours emitted by landfill areas. Sensors and Actuators. B, Chemical, 131, 18-23.
- Romain, A., Molitor, N., Adam, G., & Bietlot, E. (2016). Comparison " Low Cost Chemical Sensors -Analytical Instruments " for Odour Monitoring in a Municipal Waste Plant. Chemical Engineering Transactions, 54, 211-216.
- Application of Electronic Nose to Ambient Air Quality Evaluation With Respect to Odour Nuisance Stuetz, R. M., Fenner, R. A., & Engin, G. (1999). Assessment of odours from sewage treatment works by an electronic nose, H2S analysis and olfactometry. Water Research, 33(2), 453-461. doi:10.1016/ S0043-1354(98)00246-2 open in new tab
- Talaiekhozani, A., Bagheri, M., Goli, A., & Talaei Khoozani, M. R. (2016). An overview of principles of odor production, emission, and control methods in wastewater collection and treatment systems. Journal of Environmental Management, 170, 186-206. doi:10.1016/j.jenvman.2016.01.021 PMID:26829452 open in new tab
- Trincavelli, M., Coradeschi, S., & Loutfi, A. (2009). Odour classification system for continuous monitor- ing applications. Sensors and Actuators. B, Chemical, 139(2), 265-273. doi:10.1016/j.snb.2009.03.018 open in new tab
- Wenjing, L., Zhenhan, D., Dong, L., Jimenez, L. M. C., Yanjun, L., Hanwen, G., & Hongtao, W. (2015). Characterization of odor emission on the working face of landfill and establishing of odorous compounds index. Waste Management (New York, N.Y.), 42, 74-81. doi:10.1016/j.wasman.2015.04.030 PMID:25997990 open in new tab
- Zhu, J., Chen, F., Wang, L., Niu, Y., & Xiao, Z. (2017). Evaluation of the synergism among volatile compounds in Oolong tea infusion by odour threshold with sensory analysis and E-nose. Food Chemistry, 221, 1484-1490. doi:10.1016/j.foodchem.2016.11.002 PMID:27979119 open in new tab
- Sources of funding:
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- Statutory activity/subsidy
- Verified by:
- Gdańsk University of Technology
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