EXTRAÇÃO DE CORANTES TÊXTEIS UTILIZANDO SISTEMAS AQUOSOS BIFÁSICOS COMPOSTOS POR 2-PROPANOL E SAIS DE SULFATO
AUTOR(ES)
Pimentel, Juliana Gomes; Gandolfi, Olga Reinert Ramos; Sampaio, Vanessa Santos; Veríssimo, Lizzy Ayra Alcântara; Rodrigues, Luciano Brito; Veloso, Cristiane Martins; Fontan, Rafael da Costa Ilhéu; Bonomo, Renata Cristina Ferreira
FONTE
Química Nova
DATA DE PUBLICAÇÃO
2022
RESUMO
Aqueous Two Phase Systems (ATPS) composed of 2-propanol + inorganic salt (Na2SO4/MgSO4) + water, at different temperatures T = (20, 30, 40 and 50) °C were applied in the partition studies of the textile dyes Yellow, Blue Royal and Red Dianix CC. The thermodynamic parameters of the free transfer energy (∆Gtr), enthalpy (∆Htr) and entropy (∆Str), respectively, were determined for dye partitioning, using the Van’t Hoff equation. The values of the partition coefficients of textile dyes Yellow, Royal Blue and Red Dianix CC, ranged from 14.21 to 1610.00, 15.15 to 994.00 and 17.32 to 311.75, respectively; and with dye extraction yields ranging from 93.17 to 99.93; 94.53 to 99.89 and 97.19 to 99.64, respectively. Based on the ∆Gtr results, it was verified that the dyes partition process was thermodynamically spontaneous, in all evaluated systems. For the 2-propanol + sodium sulfate ATPS, there was a prevalence of the enthalpic contribution over the entropic contribution (∆Htr > ∆Str), while for the 2-propanol + magnesium sulfate systems, a greater predominance of the entropic contribution was observed (∆Htr < ∆Str). The recovery yields (Y) values obtained were above 90% for all systems.
Documentos Relacionados
- Adsorção de corantes têxteis utilizando biossorventes alternativos
- Thermodynamic modeling of aqueous two phase systems containing salts and polymers.
- Sistemas aquosos bifásicos: fundamentos e aplicações para partição/purificação de proteínas
- Equilíbrio de fases de sistemas aquosos bifásicos compostos por polietilenoglicol, sulfato de zinco, sulfato de cobre e citrato de sódio sob diferentes temperaturas
- Partição dos aminoacidos L-fenilalanina, L-tirosina e L-triptofano, e da proteina insulina humana, em sistemas aquosos bifasicos contendo polimeros, copolimeros e sais