Methylene blue removal by poly(acrylic acid)-grafted pineapple leaf fiber/polyester nonwoven fabric adsorbent and its comparison with removal by gamma or electron beam irradiation

Pomicpic, Janronel; Dancel, Gian Carlo; Cabalar, Patrick Jay E.; Madrid, Jordan F.

doi:10.1016/j.radphyschem.2020.108737

Cited by 17 publications

(8 citation statements)

References 13 publications

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“…The interest in this technique mainly comes from its salient features such as low-cost, simplicity and easy handling (Benkhaya et al, 2019;Nas et al, 2019;Vakili et al, 2019). There are several reports of using different adsorbent for the removal of MB from water (Jawad & Abdulhameed, 2020;Pang et al, 2020;Pomicpic, Dancel, Cabalar, & Madrid, 2020;Shooto, Thabede, Bhila, Moloto, & Naidoo, 2020). For instance, Mouni et al (Mouni et al, 2018) reported that Algerian kaolin is an effective adsorbent for the removal of MB.…”

Section: Introductionmentioning

confidence: 99%

Removal of Methylene Blue Dye from Aqueous Solution using PDADMAC Modified ZSM-5 Zeolite as a Novel Adsorbent

Radoor

Karayil²,

Jayakumar

et al. 2021

J Polym Environ

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In the present work, we modified ZSM-5 zeolite using a bio polymer poly (diallyl dimethyl ammonium chloride) and employed it for the removal of cationic dye, methylene blue from aqueous solution. The chemical and physical properties of the modified ZSM-5 zeolite were investigated using XRD, FTIR, SEM, TEM, nitrogen adsorption, TGA and 27 Al NMR.Modified ZSM-5 zeolite possesses high surface area and pore diameter which was confirmed from SEM, TEM and nitrogen adsorption analysis. Adsorption of methylene blue on zeolite was investigated by batch adsorption technique. The effect of different parameters such as zeolite dosage, initial methylene blue concentration, temperature, p H and contact time on the adsorption process was discussed. Maximum adsorption capacity (4.31 mg/g) was achieved using 0.1g of modified ZSM-5 zeolite at the optimum conditions (initial dye concentration: 10 mg/L, pH: 10, temperature:30 o C and contact time: 300 min). The experimental data were fitted into Langmuir and Freundlich models and the results indicate that the adsorption process followed Freundlich isotherm. Kinetic data were investigated using pseudo-first-order and pseudo-second-order models. Kinetic analysis indicates that pseudo-second-order model is more suitable to describe adsorption of MB on modified ZSM-5 zeolite. The reusability test suggests that the adsorbent could be reused at least six times without significant loss in removal efficiency.

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Section: Introductionmentioning

confidence: 99%

Removal of Methylene Blue Dye from Aqueous Solution using PDADMAC Modified ZSM-5 Zeolite as a Novel Adsorbent

Radoor

Karayil²,

Jayakumar

et al. 2021

J Polym Environ

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“…For all initial concentrations taken into consideration, it took 3 h of contact time to completely remove Methylene Blue (1, 5, and 10 ppm) from the test solutions. 39 T. Chen successfully developed sodium polystyrenesulfonate (SPSS) microspheres to graft onto magnetic biobased chitosan microspheres in 2021, which were then used to adsorb Methylene Blue in an aqueous solution. The ideal experimental parameters are an energy of 1.0 MeV, an absorbed dose of 140 kGy, a mass ratio of 1:1.5, and a pH of 7.0.…”

Section: Polymer Preparationmentioning

confidence: 99%

“…To remove Methylene Blue from the aqueous solution, Pomicpic created a poly(acrylic acid)-grafted pineapple leaf fiber/polyester nonwoven fabric (PPNWF- g -PAA) using radiation-induced graft polymerization. For all initial concentrations taken into consideration, it took 3 h of contact time to completely remove Methylene Blue (1, 5, and 10 ppm) from the test solutions . T. Chen successfully developed sodium polystyrenesulfonate (SPSS) microspheres to graft onto magnetic biobased chitosan microspheres in 2021, which were then used to adsorb Methylene Blue in an aqueous solution.…”

Section: Indirect Application Of the Electron Beam Process In Dye Rem...mentioning

confidence: 99%

Application of Electron Beam Irradiation for the Removal of Dye from Textile Effluents: A Review

Mahajan,

Jaspal,

Zari

2024

Ind. Eng. Chem. Res.

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The effects of the textile industry on the environment are now a major global concern. Many dyestuffs are toxic, carcinogenic, and non-biodegradable, which are being used in large amounts in dyeing and printing processes. Electron beam radiation is a wastewater treatment technology that is more effective than the conventional methods used for treatment of dye wastewater. The current paper presents a review on the recent advances, applications, and efficiency of electron beam irradiation and its combination with other textile effluent decolorization techniques. The purpose of this study is to accurately characterize the textile effluent electron beam treatment, to reveal its main issues, and to offer suggestions for additional growth and research. The current work examines the generation of reactive species by electron beams and their interactions with dye molecules. The mechanisms of decolorization and degradation caused by electron beam radiation have been thoroughly studied. This study also highlights the use of electron beam irradiation for the preparation of different materials and their applications in dye removal from textile effluents. This study also focuses on the use of an integrated approach of electron beam irradiation in combination with other treatment techniques for the removal of dyes from textile effluents.

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“…These applications include the adsorption of heavy metals such as Cd (II) and Pb(II) [25,26], phytoremediation of soil contaminated with cadmium [27], reinforcing the TiO2/polyester resin-based composites [28] and adsorption of dyes i.e., MB [29], malachite green [30], sumfixe supra red [31], alpacelle lumiere brown [31] and alpacide yellow [32]. Gupta et al [33] grafted Luffa cylindrical fibre and ficus carica fibre [34], Sharma et al [35] grafted Hibiscus cannabinus fibre, Pomicipic et al [36] grafted pineapple leaf fibre and Hakram et al [37] grafted bacterial cellulose with acrylic acid (AAc) for adsorption of MB dye from wastewater and reported that AAc graft copolymerization significantly impacts the adsorbing nature of biomass. Hamissa et al used raw AAF fibres for the adsorption of methylene blue, but in the present study, we have modified the surface of https://doi.org/10.31881/TLR.2023.140 pretreated AAFs by bio-compatible dopamine followed by polyacrylic acid and finally doped the obtained materials with the silver nanoparticle to enhance its MB adsorption or degradation tendencies [29].…”

Section: Introductionmentioning

confidence: 99%

Removal of Methylene Blue Dye from Wastewater Using Polydopamine Agave Americana Fibres-co-Poly(AAc)/Ag Nanocomposites

Dogra,

Rana

2023

Text Leather Rev

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In this research, efforts have been made to tailor the surface of Agave americana fibre by utilising a sequence of chemical techniques and their subsequent utilisation as adsorbents to remove methylene blue dye from wastewater. The surface modification of Agave americana cellulosic fibre was carried out by utilising a polydopamine (PDA) coating agent, which was subsequently graft copolymerized with vinyl monomer acrylic acid (AAc), and finally doped with silver nanoparticles (Ag NPs) to synthesise nanocomposites. Different characterisation techniques, such as SEM, FTIR and XRD were used to characterise the samples and UV-visible spectroscopy was utilised to assess their potential for the removal of dye from wastewater. The grafting of polydopamine, polyacrylic acid, and silver nanoparticles onto the cellulosic fibre resulted in morphological changes and the formation of new bonds, as confirmed by SEM images and FTIR spectra of the grafted samples, respectively. Further, during the dye adsorption/degradation study, among different surface-modified fibres, silver nanoparticles-doped Agave americana fibres graft copolymerized samples showed a maximum of 94.40% dye adsorption/degradation tendency and 85.20 mg/g adsorption capacity. Further, the adsorption was found to be close to Langmuir adsorption.

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Methylene blue removal by poly(acrylic acid)-grafted pineapple leaf fiber/polyester nonwoven fabric adsorbent and its comparison with removal by gamma or electron beam irradiation

Cited by 17 publications

References 13 publications

Removal of Methylene Blue Dye from Aqueous Solution using PDADMAC Modified ZSM-5 Zeolite as a Novel Adsorbent

Removal of Methylene Blue Dye from Aqueous Solution using PDADMAC Modified ZSM-5 Zeolite as a Novel Adsorbent

Application of Electron Beam Irradiation for the Removal of Dye from Textile Effluents: A Review

Removal of Methylene Blue Dye from Wastewater Using Polydopamine Agave Americana Fibres-co-Poly(AAc)/Ag Nanocomposites

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