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W2771842614 endingPage "406" @default.
W2771842614 startingPage "388" @default.
W2771842614 abstract "Emission models are useful tools for the study and management of atmospheric emissions from passive liquid surfaces in wastewater treatment plants (WWTPs), which are potential sources of odour nuisance and other environmental impacts. In this work, different theoretical and empirical models for the gas-side (kG) and liquid-side (kL) mass transfer coefficients in passive surfaces in WWTPs were critically reviewed and evaluated against experimental data. Wind forcing and the development of the wind-wave field, especially the occurrence of microscale wave breaking, were identified as the most important physical factors affecting mass transfer in these situations. Two approaches performed well in describing the available data for kG for water vapour. One is an empirical correlation whilst the other consists of theoretical models based on the description of the inner part of the turbulent boundary layer over a smooth flat plate. We also fit to the experimental data set a new, alternate equation for kG, whose performance was comparable to existing ones. However, these three approaches do not agree with each other in the whole range of Schmidt numbers typical for compounds found in emissions from WWTPs. As to kL, no model was able to satisfactorily explain the behaviour and the scatter observed in the whole experimental data set. Excluding two suspected biased sources, the WATER9 (US EPA, 1994. Air Emission Models for Waste and Wastewater. North Carolina, USA. EPA-453/R-94–080A) approach produced the best results among the most commonly used kL models, although still with considerably high relative errors. For this same sub-set, we propose a new, alternate approach for estimating kL, which resulted in improved performance, particularly for longer fetches. Two main gaps were found in the literature, the understanding of the evolution of the mass transfer boundary layer over liquid surfaces, and the behaviour of kL for larger fetches, especially in the range from 40 to 60 m." @default.
W2771842614 created "2017-12-22" @default.
W2771842614 creator A5030436732 @default.
W2771842614 creator A5065682253 @default.
W2771842614 creator A5078884753 @default.
W2771842614 creator A5086162773 @default.
W2771842614 date "2018-03-01" @default.
W2771842614 modified "2023-09-27" @default.
W2771842614 title "A critical review on liquid-gas mass transfer models for estimating gaseous emissions from passive liquid surfaces in wastewater treatment plants" @default.
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W2771842614 doi "https://doi.org/10.1016/j.watres.2017.12.001" @default.
W2771842614 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29258050" @default.
W2771842614 hasPublicationYear "2018" @default.
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