Functionalized Carbon/Alumina/Silica Nanofibrous Membrane: Preparation, Characterization and Heavy Metal Filtration Performance Publisher



Sepahdar A¹ ; Almasian A¹ ; Akbari Javar H¹ Show Affiliations
Source: Desalination and Water Treatment Published:2021

Abstract

In this paper, carbon-based membranes with an extremely high surface area were prepared as a filtration–adsorption membrane for separating Pb2+ and Cd2+ metal ions from aqueous solutions. High surface area value (1,751.1 m2 g–1) and unique microscopic structure of nanofibers were obtained with the use of polystyrene (PS) and polyethylene glycol (PEG) as organic and degradable compounds along with aluminum salt and tetraethyl orthosilicate (TEOS) in the polyacrylonitrile (PAN) matrix. The use of aluminum salt and TEOS in the PAN matrix not only influenced the Brunauer– Emmett–Teller value but also enhanced the mechanical properties of membranes. The role of PS, PEG, silica and alumina on surface area and adsorption capacity of heavy metals were evaluated. In order to improve the separation and adsorption ability of the membrane, a functionalization process was performed by triethylenetetramine. The functionalization changed some mechanical properties and hydrophilicity of the membrane resulted in better antifouling property and higher permeability. The antifouling and rejection efficiency of membranes were investigated at two different pH levels. The static adsorption capacity and the rejection efficiency of the functionalized membrane were 450.11, 431.48 mg g–1 and 93.25%, 90.11% for Pb and Cd, respectively. The role of mesopores on the adsorption of heavy metals was investigated by adsorption kinetic. The filtration studies revealed that the synthesized membrane has good filtration performance even after 10 regeneration cycles. © 2021 Desalination Publications. All rights reserved.