"NL - Nizozemsko" . "10"^^ . . "394267" . . . . "Semi-empirical approach to modeling of soil flushing: Model development, application to soil polluted by zinc and copper"@en . . "copper; flushing; modeling; remediation; soil; zinc"@en . "Semi-empirical approach to modeling of soil flushing: Model development, application to soil polluted by zinc and copper" . . . "RIV/67985840:_____/08:00340555" . "M\u00FCllerov\u00E1, M." . . . . . "5"^^ . . "Semi-empirical approach to modeling of soil flushing: Model development, application to soil polluted by zinc and copper"@en . "\u017Dilka, M." . . "Ko\u010D\u00ED, V." . "This paper describes a semi-empirical approach to modeling the soil flushing technology. A new mathematical model aimed at predicting the course of the continuous soil flushing process by use of the input data obtained from simple batch laboratory experiments is described in the theoretical part. An objective of the study is to apply this new model to soil polluted by zinc and copper (11949 mg kg(-1) and 1895 mg kg(-1), respectively) by flushing the soil with an ammonia nitrogen solution. A set of batch experiments provided both equilibrium and kinetic data characterizing the leaching ability of both metals. By use of the model, the optimal ammonia concentration in the flushing solution was estimated (0.6 mol L-1). For this concentration, validity of the model results was verified by a column experiment. The removal efficiency obtained was 44% (zinc) and 54% (copper)."@en . "392" . . . "Science of the Total Environment" . "This paper describes a semi-empirical approach to modeling the soil flushing technology. A new mathematical model aimed at predicting the course of the continuous soil flushing process by use of the input data obtained from simple batch laboratory experiments is described in the theoretical part. An objective of the study is to apply this new model to soil polluted by zinc and copper (11949 mg kg(-1) and 1895 mg kg(-1), respectively) by flushing the soil with an ammonia nitrogen solution. A set of batch experiments provided both equilibrium and kinetic data characterizing the leaching ability of both metals. By use of the model, the optimal ammonia concentration in the flushing solution was estimated (0.6 mol L-1). For this concentration, validity of the model results was verified by a column experiment. The removal efficiency obtained was 44% (zinc) and 54% (copper)." . "[0BBEB80B1779]" . "1"^^ . "M\u00FCller, Vladim\u00EDr" . "2-3" . "S, Z(AV0Z10190503)" . "0048-9697" . "Semi-empirical approach to modeling of soil flushing: Model development, application to soil polluted by zinc and copper" . "000253833900002" . . "\u0160v\u00E1b, M." . . . "RIV/67985840:_____/08:00340555!RIV10-AV0-67985840" . .