Factorial Design Statistical Analysis and Optimization of the Adsorptive Removal of COD from Olive Mill Wastewater Using Sugarcane Bagasse as a Low-Cost Adsorbent-Reference-Cited by-同舟云学术

Factorial Design Statistical Analysis and Optimization of the Adsorptive Removal of COD from Olive Mill Wastewater Using Sugarcane Bagasse as a Low-Cost Adsorbent

Published:2023-04-21 Issue:8 Volume:15 Page:1630
ISSN:2073-4441
Container-title:Water
language:en
Short-container-title:Water

Author:

Elayadi Fatima¹²,Achak Mounia²³,Boumya Wafaa⁴,Elamraoui Sabah²,Barka Noureddine⁴^ORCID,Lamy Edvina⁵^ORCID,Beniich Nadia⁶,El Adlouni Chakib¹

Affiliation:

1. Laboratory of Marine Biotechnologies and Environment, Sciences Faculty, Chouaïb Doukkali University, El Jadida 24000, Morocco

2. Science Engineer Laboratory for Energy, National School of Applied Sciences, Chouaïb Doukkali University, El Jadida 24000, Morocco

3. Chemical & Biochemical Sciences, Green Process Engineering, CBS, Mohammed VI Polytechnic University, Ben Guerir 43150, Morocco

4. Multidisciplinary Research and 12 Innovation Laboratory, FP Khouribga, Sultan Moulay Slimane University of Beni Mellal, Beni-Mellal 23000, Morocco

5. EA 4297 TIMR Laboratory, Department of Chemical Engineering, Centre de Recherche de Royallieu, University of Technology of Compiegne—Sorbonne University, Rue du Dr Schweitzer, CS 60319, 60200 Compiegne, France

6. Dynamical Systems Laboratory, Sciences Faculty, Chouaïb Doukkali University, El Jadida 24000, Morocco

Abstract

This work highlights the elimination of chemical oxygen demand (COD) from olive mill wastewater using sugarcane bagasse. A 25−1 fractional factorial design of experiments was used to obtain the optimum conditions for each parameter that influence the adsorption process. The influence of the concentration of sugarcane bagasse, solution pH, reaction time, temperature, and agitation speed on the percent of COD removal were considered. The design experiment describes a highly significant second-order quadratic model that provided a high removal rate of 55.07% by employing optimized factors, i.e., a temperature of 60 °C, an adsorbent dose of 10 g/L, a pH of 12, a contact time of 1 h, and a stirring speed of 80 rpm. The experimental data acquired at optimal conditions were confirmed using several isotherms and kinetic models to assess the solute interaction behavior and kind of adsorption. The results indicated that the experimental data were properly fitted with the pseudo-first-order kinetic model, whereas the Langmuir model was the best model for explaining the adsorption equilibrium.

Publisher

MDPI AG

Subject

Water Science and Technology,Aquatic Science,Geography, Planning and Development,Biochemistry

Link

https://www.mdpi.com/2073-4441/15/8/1630/pdf

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