Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil

The distribution coefficient of oil residuals between water and the soil under equilibrium conditions is, in the case of Patagonian soils, strongly dependent on the clay contents and humidity of the soil. Other variables such as, the soil salinity and the environmental exposure conditions, also affe...

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Autor principal: Ríos, Stella Maris
Publicado: 2004
Materias:
Distribution coefficient
Monte carlo simulation
Oil residuals
Salinity effect
Semi-empiric model
Adsorption
Biodegradation
Computer simulation
Contamination
Crude petroleum
Degradation
Desorption
Diffusion
Fertilizers
Hydrophobicity
Methanol
Monte Carlo methods
Photooxidation
Remediation
Spectrophotometry
Distribution coefficients
Salinity effects
Soils
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03270793_v34_n3_p149_Rios
http://hdl.handle.net/20.500.12110/paper_03270793_v34_n3_p149_Rios
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_03270793_v34_n3_p149_Rios
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spelling paper:paper_03270793_v34_n3_p149_Rios2023-06-08T15:33:10Z Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil Ríos, Stella Maris Distribution coefficient Monte carlo simulation Oil residuals Salinity effect Semi-empiric model Adsorption Biodegradation Computer simulation Contamination Crude petroleum Degradation Desorption Diffusion Fertilizers Hydrophobicity Methanol Monte Carlo methods Photooxidation Remediation Spectrophotometry Distribution coefficients Oil residuals Salinity effects Semi-empiric model Soils The distribution coefficient of oil residuals between water and the soil under equilibrium conditions is, in the case of Patagonian soils, strongly dependent on the clay contents and humidity of the soil. Other variables such as, the soil salinity and the environmental exposure conditions, also affect the interactions between the phases. The oil residuals are generally accompanied by water spills, that are extracted together with the oil and which, frequently, have high salinity. These salts stay on soils during long times and finally they became part of the soil. The resulting oil aqueous concentrations and the soil-water distribution ratio (IQ) may be strongly influenced by these factors. Based on experimental data of several parameters determined in different regional field samplings, a semi-empiric model was developed that allows prediction of the Kd dependence with the exposure time, the salinity of the equilibrium aqueous concentration and the clay contents of the soil. The Monte Carlo simulation was used in this work. Distribution values of soil conductivity, clays content, and assumed fixed values of the age of the oil spill were used in the model. A set of calculated values of Kd was obtained and the results show a distribution that was probabilistically analyzed. The Kd values increase with increasing age of spill and soil salinity and decrease when the salinity of the initial aqueous concentration is greater than the soil salinity. The determined parameters are useful for modeling of the environmental impact on polluted soils and for the design of remediation techniques. Fil:Ríos, S.M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2004 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03270793_v34_n3_p149_Rios http://hdl.handle.net/20.500.12110/paper_03270793_v34_n3_p149_Rios
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Distribution coefficient
Monte carlo simulation
Oil residuals
Salinity effect
Semi-empiric model
Adsorption
Biodegradation
Computer simulation
Contamination
Crude petroleum
Degradation
Desorption
Diffusion
Fertilizers
Hydrophobicity
Methanol
Monte Carlo methods
Photooxidation
Remediation
Spectrophotometry
Distribution coefficients
Oil residuals
Salinity effects
Semi-empiric model
Soils
spellingShingle Distribution coefficient
Monte carlo simulation
Oil residuals
Salinity effect
Semi-empiric model
Adsorption
Biodegradation
Computer simulation
Contamination
Crude petroleum
Degradation
Desorption
Diffusion
Fertilizers
Hydrophobicity
Methanol
Monte Carlo methods
Photooxidation
Remediation
Spectrophotometry
Distribution coefficients
Oil residuals
Salinity effects
Semi-empiric model
Soils
Ríos, Stella Maris
Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
topic_facet Distribution coefficient
Monte carlo simulation
Oil residuals
Salinity effect
Semi-empiric model
Adsorption
Biodegradation
Computer simulation
Contamination
Crude petroleum
Degradation
Desorption
Diffusion
Fertilizers
Hydrophobicity
Methanol
Monte Carlo methods
Photooxidation
Remediation
Spectrophotometry
Distribution coefficients
Oil residuals
Salinity effects
Semi-empiric model
Soils
description The distribution coefficient of oil residuals between water and the soil under equilibrium conditions is, in the case of Patagonian soils, strongly dependent on the clay contents and humidity of the soil. Other variables such as, the soil salinity and the environmental exposure conditions, also affect the interactions between the phases. The oil residuals are generally accompanied by water spills, that are extracted together with the oil and which, frequently, have high salinity. These salts stay on soils during long times and finally they became part of the soil. The resulting oil aqueous concentrations and the soil-water distribution ratio (IQ) may be strongly influenced by these factors. Based on experimental data of several parameters determined in different regional field samplings, a semi-empiric model was developed that allows prediction of the Kd dependence with the exposure time, the salinity of the equilibrium aqueous concentration and the clay contents of the soil. The Monte Carlo simulation was used in this work. Distribution values of soil conductivity, clays content, and assumed fixed values of the age of the oil spill were used in the model. A set of calculated values of Kd was obtained and the results show a distribution that was probabilistically analyzed. The Kd values increase with increasing age of spill and soil salinity and decrease when the salinity of the initial aqueous concentration is greater than the soil salinity. The determined parameters are useful for modeling of the environmental impact on polluted soils and for the design of remediation techniques.
author Ríos, Stella Maris
author_facet Ríos, Stella Maris
author_sort Ríos, Stella Maris
title Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
title_short Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
title_full Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
title_fullStr Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
title_full_unstemmed Effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
title_sort effects of solution and soil chemistry on the distribution of oil residual in patagonian soil
publishDate 2004
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03270793_v34_n3_p149_Rios
http://hdl.handle.net/20.500.12110/paper_03270793_v34_n3_p149_Rios
work_keys_str_mv AT riosstellamaris effectsofsolutionandsoilchemistryonthedistributionofoilresidualinpatagoniansoil
_version_ 1768544686615560192

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