Application of a 2k–p fractional experimental design in coagulation-flocculation processes in the treatment of wastewater from a slaughterhouse

Determining the optimal dose of coagulant required to perform flocculation is critical in most water treatment plants’ planning and operation. This study implemented a 2k–p fractional factorial design of experiments to identify the factors influencing the color decrease of wastewater from a slaughte...

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Autores:: Carpintero Durango, Javier Andrés
Villa-Dominguez, Jennifer
Tavera Quiroz, Maria Jose
Tavera, Humberto
Kaźmierczak, Bartosz
Fábregas Villegas, Jonathan
Canales, Fausto
Canales, Fausto Alfredo

Tipo de recurso:: Article of investigation

Fecha de publicación:: 2022

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

Description
Summary:	Determining the optimal dose of coagulant required to perform flocculation is critical in most water treatment plants’ planning and operation. This study implemented a 2k–p fractional factorial design of experiments to identify the factors influencing the color decrease of wastewater from a slaughterhouse. The variables assessed were the velocity gradient, residence time, primary coagulant dosage, chlorine dosage, and coagulation adjuvant dosage. The results indicate that the primary coagulant dose and the velocity gradient significantly affect the samples’ color and that the other factors can be run at a low technical-economic level to start up the water treatment plant. The fractional factorial design allowed reducing the number of experimental points without affecting the minimum information required to identify which factors are significant in reducing the color of a wastewater sample.

Application of a 2k–p fractional experimental design in coagulation-flocculation processes in the treatment of wastewater from a slaughterhouse

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