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The influence of chosen calculation parameters on the total volume of the LNAPL product estimated in a mathematical model

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Języki publikacji
EN
Abstrakty
EN
There is a number of mathematical models applied to simulate the migration of oil-derived pollution, with the LNAPL (Light non-aqueous phase liquid) volumes in the saturation and aeration zones being analysed in two-phase modeling. A number of hydrogeological parameters and the parameters describing the second phase consisting of oil derivatives are assumed for the sake of the simulation. A part of the data predetermined for the mathematical model is applied on the basis of direct investigations in the field or laboratory, whereas some data are based on a literature analysis or are used by analogy to similar areas. The model data should be additionally verified and validated in the mathematical model. In the case of the LNAPL remediation system being simulated, it is the parameters related to the ground-water environment and the parameters defining the free product of oil that are very important in determining the volume of the recovered LNAPL. With a good deal of data applied for the remediation process simulation one may expect model solutions of different levels of reliability.
Rocznik
Strony
463--469
Opis fizyczny
Bibliogr. 7 poz., , rys., wykr.
Twórcy
autor
  • Kielce University of Technology, Faculty of Environmental Engineering, Geomatic and Energy Engineering, Kielce, Poland
autor
  • AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, Krakow, Poland
Bibliografia
  • [1] Draper Aden Environmental Modeling, Inc.: Multiphase Areał Remediation Simulator MARS. Technical Documentation and User Guide. Asubsidiary of Draper Aden Associates, Inc., 1997.
  • [2] Elhakeem A.A., Elshorbagy W., Chebbi R.: Oil Spili Simulation and Yalidation in the Arabian (Persian) Gulfwith Special Reference to the UAE Coast. Water Air Soil Pollut, vol. 184, 2007, pp. 243-254.
  • [3] Wilson K.B., Law D.R., Hari A.C.: A Comparison of Light Non-Aqueous Phase Liąuid (LNAPL) Recovery Results by Numerical Modeling and Field Pilot Testing. Langan Engineering & Environmental Services P.O. Box 1569 Doylestown, PA 18901, 2006, http://info.ngwa.org/GWOL/pdf/070981949.pdf.
  • [4] Knez J., Knez D., Modelling ofthe System for Cleaning up Free Oil Products with the Application of the MARS Simulator. AGH Drilling, Oil, Gaz, vol. 30, no. 2, 2013, pp. 327-332.
  • [5] Rasmusson K., Rasmusson M: NAPL spili modeling and simulation of pumping remediation, NAPL modellering och simulering av pumpning, UPTEC W09 033, Examensarbete 30 hp, Department of Earth Sciences, Air, Water and Landscape Science, Uppsala University, December 2009 [master thesis].
  • [6] Waddill D.W., Parker J.C.: Modeling of Non-Aqueous Phase Liquid Migration and Recovery in Heterogeneous Aquifers [in:] Soil and Aquifer Pollution. Non-Aqueous Phase Liquids- Contamination and Reclamation, ed. H. Rubin, N. Narkis, J. Carberry, Springer Berlin Heidelberg, Berlin 1998, pp. 220-235.
  • [7] Ying Lu, Wei Fan, Yang Y.S., Du X.Q., Zhang G.X.: Mathematical Modeling of Differentiation Processes in Porous Media During Soil Vapor Extraction (SVE) Remediation of Contaminated Soil/Water. Water Air & Soil Pollution, vol. 225, 2014, p. 1856.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e8ef596f-4549-418c-9ebe-9bf66f7db8d9
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