Authors:
Marius Simion, Gabriela Paun, Aurelia Meghea, Jianzhong Ma, Fan Zhang
Marius Simion, Gabriela Paun, Aurelia Meghea, Jianzhong Ma, Fan Zhang
Conference: International Symposium “The Environment and the Industry”
Date: October 13-14, 2016
Location: Bucharest, Romania
Published: 2016
Keywords:
Bola
Surfactants
Casein
Membranes
Dyes
Bola
Surfactants
Casein
Membranes
Dyes
Abstract:
The influence of a classic surfactant: palmitoyl-glycylglycine and bola amphiphilic: bis[2-
butyl(sodium bis-thioacetate) sodium dicarboxylate 1,10 decanediyl ester] upon the casein
membrane preparation and separation technologies for removing organic pollutants (dyes)
was studied by: UV-VIS and FT/IR-ATR spectroscopy, dynamic light scattering, optical and
scanning electron microscopy, contact angle, microbiological tests and the separation rates.
The membranes were produced by a casting-solvent evaporation technique. The casein
powder was dissolved in a water- acetic acid (75:25 v/v) solution with and without plasticizer:
glycerol and surfactant (classic or bola), constant continuous stirring for 6-8 hrs. at 40ºC, then
degassed the solution for 2 hrs. The solution was poured and afterwards maintained in the
oven at 40-50°C for 8-12 hrs. Membranes were obtained with different surfactants which
influenced the separation properties of membranes.
Ecological membranes are obtained from a biodegradable biopolymer and can be used
successfully in removing dyes from wastewaters.
The influence of a classic surfactant: palmitoyl-glycylglycine and bola amphiphilic: bis[2-
butyl(sodium bis-thioacetate) sodium dicarboxylate 1,10 decanediyl ester] upon the casein
membrane preparation and separation technologies for removing organic pollutants (dyes)
was studied by: UV-VIS and FT/IR-ATR spectroscopy, dynamic light scattering, optical and
scanning electron microscopy, contact angle, microbiological tests and the separation rates.
The membranes were produced by a casting-solvent evaporation technique. The casein
powder was dissolved in a water- acetic acid (75:25 v/v) solution with and without plasticizer:
glycerol and surfactant (classic or bola), constant continuous stirring for 6-8 hrs. at 40ºC, then
degassed the solution for 2 hrs. The solution was poured and afterwards maintained in the
oven at 40-50°C for 8-12 hrs. Membranes were obtained with different surfactants which
influenced the separation properties of membranes.
Ecological membranes are obtained from a biodegradable biopolymer and can be used
successfully in removing dyes from wastewaters.