Dynamic olfactometry and modelling as methods for the assessment of odour impact of public utility objects

Sówka, I.; Miller, U.; Sobczyński, P.

doi:10.5277/epe160311

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Tytuł artykułu

Dynamic olfactometry and modelling as methods for the assessment of odour impact of public utility objects

Autorzy

Sówka I. , Miller U. , Sobczyński P.

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DOI

10.5277/epe160311

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Abstrakty

The methods used to the identification of odour concentrations from public utility objects, under Polish legal regulations have been presented with exemplary results of measurements by the dynamic olfactometry and model calculations. The results of the study indicate the usefulness of the dynamic olfactometry in determining odour concentrations (from point and area emission sources located in public utility objects) suitable in odour emissions calculations. Based on results of such calculations, it is possible to determine odour concentrations in the receptor points and to evaluate olfactory impact range of considered objects, taking into account all types of odour sources affecting the quality of air in the area under study. Selected methods – as an alternative to field research: measurements in the grid and in the plume – can be less time and cost consuming but also require careful planning the number of samples and proper selection of representative sampling areas, especially in the case of the area sources.

Słowa kluczowe

odour emissions emission sources public utility objects olfactometry

emisja odorów stężenie zapachowe obiekty użyteczności publicznej olfaktometr

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Environment Protection Engineering

Rocznik

2016

Tom

Vol. 42, nr 3

Strony

143--152

Opis fizyczny

Bibliogr. 18 poz., tab., rys.

Twórcy

autor

Sówka I.

izabela.sowka@pwr.edu.pl

Unit of Ecologistics and Environmental Risk Management, Faculty of Environmental Engineering, Wrocław University of Science and Technology, pl. Grunwaldzki 9, 50- 377 Wrocław, Poland

autor

Miller U.

Unit of Ecologistics and Environmental Risk Management, Faculty of Environmental Engineering, Wrocław University of Science and Technology, pl. Grunwaldzki 9, 50- 377 Wrocław, Poland

autor

Sobczyński P.

Unit of Ecologistics and Environmental Risk Management, Faculty of Environmental Engineering, Wrocław University of Science and Technology, pl. Grunwaldzki 9, 50- 377 Wrocław, Poland

Bibliografia

[1] KOŚMIDER J., WYSZYŃSKI B., MAZUR-CHRZANOWSKA B., Odours, PWN, Warsaw 2002 (in Polish).
[2] NICELL J., Assessment and regulation of odour impacts, Atmos. Environ., 2009, 43, 196.
[3] BELGIORNO V., NADDEO V., ZARRA T., Odour impact assessment handbook, Wiley, 2013.
[4] SZYNKOWSKA M., ZWOŹDZIAK J., Present Odours Issues, WNT, Warsaw 2010 (in Polish).
[5] FREDERICKSON J., BOARDMAN C.P., GLADDING T.L., SIMPSON A.E., HOWELL G., SGOURIDIS F., Evidence: Biofilter performance and operation as related to commercial composting, Environ. Agency, Bristol 2013.
[6] HAAS T., SCHULZE-LAMMERS P., DIEKMANN B., HORNER G., BOEKER P., A method for online measurement of odour with a chemosensor system, Sensor. Actuat. B: Chem., 2008, 132.
[7] MICONE P.G., GUY C., Odour quantification by a sensor array: an application to landfill gas odours from two different municipal waste treatment works, Sensor. Actuat. B: Chem., 2007, 120.
[8] SIRONI S., CAPELLI L., CENTOLA P., ROSSO R.D., Continuous monitoring of odours from a composting plant using electronic noses, Waste Manage., 2007, 27.
[9] BOURGEOIS W., STUETZ R.M., Use of a chemical sensor array for detecting pollutants in domestic wastewater, Water Res., 2006, 36.
[10] SIRONI S., CAPELLI L., CÉNTOLA P., ROSSO R.D., PIERUCCI S., Odour impact assessment by means of dynamic olfactometry, dispersion modelling and social participation, Atmos. Environ., 2010, 44 (3) 354.
[11] HENSHAW P., NICELL J., SIKDAR A., Odour impact parameters for an industrial facility, Atmos. Environ., 2006, 40.
[12] MAHIN T.D., Comparison of different approaches used to regulate odours around the world, Water Sci. Technol., 2011, 44 (9), 87.
[13] MUSSIO P., GNYP A.W., HENSHAW P.F., A fluctuating plume dispersion model for the prediction of odour-impact frequencies from continuous stationary sources, Atmos. Environ., 2001, 35 (16), 2955.
[14] SCHAUBERGER G., PIRINGER M., PETZ E., Separation distance to avoid odour nuisance due to livestock calculated by the Austrian odour dispersion model (AODM), Agr. Ecosyst. Environ., 2001, 87 (1), 13.
[15] SYKES R.I., GABRUK R.S., A 2nd-order closure model for the effect of averaging time on turbulent plume dispersion, J. Appl. Meteorol., 1997, 36, 1038.
[16] EUI-CHAN J., HYUN-KEUN S., JAE-HWAN S., Emission characteristics and factors of selected odorous compounds at a wastewater treatment plant, Sensors, 2009, 9, 311.
[17] CAPELLI L., SIRONI S., DEL ROSSO R., CÉNTOLA P., IL GRANDE M., A comparative and critical evaluation of odour assessment methods on a landfill site, Atmos. Environ., 2008, 42, 7050.
[18] BRATTOLI M., DE GENNARO G., DE PINTO V., DEMARINIS LOIOTILE A., LOVASCIO S., PENZA M., Odour detection methods. Olfactometry and chemical sensors, Sensors, 2011, 11, 5290

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Bibliografia

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