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« Previous AbstractEvaluation of a horizontal permeable reactive barrier for preventing upward diffusion of volatile organic compounds through the unsaturated zone    Next AbstractThe impacts of different heating systems on the environment: A review »

J Contam Hydrol


Title:Dissolution kinetics of volatile organic compound vapors in water: An integrated experimental and computational study
Author(s):Mahmoodlu MG; Pontedeiro EM; Perez Guerrero JS; Raoof A; Majid Hassanizadeh S; van Genuchten MT;
Address:"Department of Earth Sciences, Utrecht University, Utrecht, The Netherlands; Department of Watershed and Rangeland Management, Gonbad Kavous University, Iran. Electronic address: m.gharehmahmoodlu@uu.nl. Department of Earth Sciences, Utrecht University, Utrecht, The Netherlands; Department of Nuclear Engineering, Federal University of Rio de Janeiro, UFRJ, Rio de Janeiro, Brazil. Radioactive Waste Division, Brazilian Nuclear Energy Commission, CNEN, Rio de Janeiro, Brazil. Department of Earth Sciences, Utrecht University, Utrecht, The Netherlands. Department of Earth Sciences, Utrecht University, Utrecht, The Netherlands; NIDES Interdisciplinary Centr for Social Development, Federal University of Rio de Janeiro, UFRJ, Rio de Janeiro, Brazil"
Journal Title:J Contam Hydrol
Year:2017
Volume:20161210
Issue:
Page Number:43 - 51
DOI: 10.1016/j.jconhyd.2016.12.004
ISSN/ISBN:1873-6009 (Electronic) 0169-7722 (Linking)
Abstract:"In this study we performed batch experiments to investigate the dissolution kinetics of trichloroethylene (TCE) and toluene vapors in water at room temperature and atmospheric pressure. The batch systems consisted of a water reservoir and a connected headspace, the latter containing a small glass cylinder filled with pure volatile organic compound (VOC). Results showed that air phase concentrations of both TCE and toluene increased relatively quickly to their maximum values and then became constant. We considered subsequent dissolution into both stirred and unstirred water reservoirs. Results of the stirred experiments showed a quick increase in the VOC concentrations with time up to their solubility limit in water. VOC vapor dissolution was found to be independent of pH. In contrast, salinity had a significant effect on the solubility of TCE and toluene vapors. VOC evaporation and vapor dissolution in the stirred water reservoirs followed first-order rate processes. Observed data could be described well using both simplified analytical solutions, which decoupled the VOC dynamics in the air and water phases, as well as using more complete coupled solutions. However, the estimated evaporation (k(e)) and dissolution (k(d)) rate constants differed by up to 70% between the coupled and uncoupled formulations. We also numerically investigated the effects of fluid withdrawal from the small water reservoir due to sampling. While decoupling the VOC air and water phase mass transfer processes produced unreliable estimates of k(d), the effects of fluid withdrawal on the estimated rate constants were found to be less important. The unstirred experiments showed a much slower increase in the dissolved VOC concentrations versus time. Molecular diffusion of the VOCs within the aqueous phase became then the limiting factor for mass transfer from air to water. Fluid withdrawal during sampling likely caused some minor convection within the reservoir, which was simulated by increasing the apparent liquid diffusion coefficient"
Keywords:"Diffusion Gases/*analysis/chemistry Kinetics *Models, Theoretical Solubility Toluene/*analysis/chemistry Trichloroethylene/*analysis/chemistry Volatile Organic Compounds/*analysis/chemistry Volatilization Water Pollutants, Chemical/*analysis/chemistry Dis;"
Notes:"MedlineMahmoodlu, Mojtaba G Pontedeiro, Elizabeth M Perez Guerrero, Jesus S Raoof, Amir Majid Hassanizadeh, S van Genuchten, Martinus Th eng Netherlands 2016/12/21 J Contam Hydrol. 2017 Jan; 196:43-51. doi: 10.1016/j.jconhyd.2016.12.004. Epub 2016 Dec 10"

 
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