Flux Model Development and Synthesis Optimization for an Enhanced GO Embedded Nanocomposite Membrane Through FFD and RSM Approach

Overview

Journal Heliyon

Specialty Social Sciences

Date 2020 Dec 11

PMID 33305039

Citations 1

Authors

Mohamad Syafiq Abdul Wahab

Sunarti Abd Rahman

Rozaimi Abu Samah

Affiliations

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Abstract

A two-level full factorial design was used to analyze several factors involved in PSF-GO-Pebax thin film nanocomposite membranes development. Permeate flux was chosen as a single response for four possible factors: Pebax selective layer concentration, amount of GO load to Pebax selective layer, Pebax-GO selective layer thickness, and amount of GO load to PSF substrate. The study is aimed at factors interaction and contribution towards the highest permeation flux via FFD and RSM approach. obtained from the ANOVA is 0.9937 with Pebax concentration as the highest contributing factor. Pebax concentration-amount of GO load to PSF substrate is the only interaction contributing to the highest flux. A regression analysis concluded the study with model development and an optimized condition for the membrane design.

Citing Articles

Nanostructure-manipulated filtration performance in nanocomposite membranes: A comprehensive investigation for water and wastewater treatment.

Tahmasebi Sefiddashti F, Homayoonfal M Heliyon. 2024; 10(17):e36874.

PMID: 39319140 PMC: 11419920. DOI: 10.1016/j.heliyon.2024.e36874.

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