Recovery of phenolic compounds from olive oil washing wastewater by adsorption/desorption process

[EN] Agroindustry wastewater represents an opportunity to recover high added value antioxidants such as phenolic compounds. An adsorption/desorption process was investigated to recuperate these compounds using Purolite non-ionic resins (MN200, MN202, PAD900 and PAD950). The study was conducted with...

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Detalhes bibliográficos
Autores: Cifuentes-Cabezas, Magdalena Soledad, Sánchez-Arévalo, Carmen María|||0000-0001-6357-8107, Mendoza Roca, José Antonio, Vincent Vela, Maria Cinta|||0000-0001-8493-0165, Alvarez Blanco, Silvia
Formato: artículo
Fecha de publicación:2022
País:España
Recursos:Universitat Politècnica de València (UPV)
Repositorio:RiuNet. Repositorio Institucional de la Universitat Politécnica de Valéncia
Idioma:inglés
OAI Identifier:oai:riunet.upv.es:10251/195086
Acesso em linha:https://riunet.upv.es/handle/10251/195086
Access Level:acceso abierto
Palavra-chave:Adsorption
Desorption
Non-ionic resins
Olive oil washing wastewater
Phenolic compounds recovery
INGENIERIA QUIMICA
Descrição
Resumo:[EN] Agroindustry wastewater represents an opportunity to recover high added value antioxidants such as phenolic compounds. An adsorption/desorption process was investigated to recuperate these compounds using Purolite non-ionic resins (MN200, MN202, PAD900 and PAD950). The study was conducted with a model solution containing 1.1 g.L-1 of tyrosol and 0.2 g.L-1 of catechin, which are two of the main phenolic compounds found in olive mill wastewaters, and with a real olive mill wastewater. The main objective was to determine the optimal concentration of resin and the best desorption solvent for the maximum recovery of phenolic compounds. For it, the process kinetics were determined, and the adsorption mechanisms were characterized by means of isotherm models. Results showed that the pseudo-second order kinetic model fitted to the experimental data, while the Langmuir isotherm correctly modelled the adsorption process for the MN resins, whereas the Freundlich isotherm was the model that best described the adsorption process with PAD resins. A resin concentration of 40 g.L-1 and a 50% v/v ethanol-water solution were selected as the best options for recovering the phenolic compounds. The tests with olive oil washing wastewater showed that, for some of the resins, other compounds present, such as sugars, interfered with the adsorption of phenolic compounds, reducing the effectiveness of their recovery. Finally, the MN200 resin was selected as the best adsorbent. It achieved a recovery of 91% of the phenolic compounds present in the initial wastewater, finding only 5% of the sugars measured in the initial OOWW sample, in the final stream.