Removal efficiency for micro-polystyrene in water by the oil-based ferrofluid employ response surface methodology

Natasha Nizam, and Sumithra Mohanasunthar, and Alyza A. Azmi, and Sabiqah Tuan Anuar, and Yusof Shuaib Ibrahim, and Wan Mohd Afiq Wan Mohd Khalik, (2023) Removal efficiency for micro-polystyrene in water by the oil-based ferrofluid employ response surface methodology. Sains Malaysiana, 52 (8). pp. 2191-2207. ISSN 0126-6039

[img]
Preview
PDF
1MB

Official URL: https://www.ukm.my/jsm/english_journals/vol52num8_...

Abstract

This research article presents a study on the potential use of oil-based ferrofluid for the efficient removal of microplastics from water. The targeted analyte, micro-polystyrene (micro-PS), was chosen along with palm oil as the carrier liquid. Fourier Transform Infrared (FTIR) analysis was conducted to identify the main peaks in the ferrofluid, including carboxyl group (1542 cm-1), C-H bonding (1022 cm-1), CH2 bonding (2941 cm-1), CH3 bonding (3461 cm-1), C=C bonding (1255 cm-1), and Fe-O (597.34 cm-1). A comprehensive investigation of the synergistic effect of six variables was performed: volume of oil (4-15 mL), weight of magnetite nanoparticles (0.1-0.2 g), stirring rate (132-468 rpm), contact time (3-12 min), pH value of water samples (pH 6-8), and effect on ionic strength (0-16 g/L). Response surface methodology, including 26 -Plackett-Burman and 24 -central composite design, were employed to establish the relationship between the variables. The optimum operational settings proposed by the model were as follows: volume of oil (14.6 mL), weight of magnetite nanoparticles (0.1 g), stirring rate (216 rpm), contact time (3.29 min), pH value of water samples (pH 6-6.5), and effect on ionic strength (16 g/L), resulting in a remarkable removal efficiency of 91.09 ± 0.99%. The method exhibited desirable figures of merit, including a low bias (%RSD) of below 5% and the ability to reuse the ferrofluids for up to five cycles. Additionally, an analytical greenness metric was employed to assess the environmental impact of the sample preparation process, with a green score of 0.69/1.0 (indicating a light green colour). Future work in this field could focus on the scalability of the developed method and its applicability to real-wastewater treatment.

Item Type:Article
Keywords:Emerging contaminant; Magnetic separation; Marine debris; Microplastic
Journal:Sains Malaysiana
ID Code:22885
Deposited By: Siti Zarenah Jasin
Deposited On:18 Jan 2024 02:18
Last Modified:18 Jan 2024 02:18

Repository Staff Only: item control page