Onion membrane: an efficient adsorbent for decoloring of wastewater

Saber-Samandari, Samaneh; Heydaripour, Jalil

doi:10.1186/s40201-015-0170-6

Cited by 17 publications

(7 citation statements)

References 26 publications

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“…For commercial gelatin and CNT's beads, Freundlich model suggests that adsorption occurs on a heterogeneous surface, with energy and affinity non-uniform on the surface [36]. The parameter nF also sug-gests that adsorption is favorable when their values are between 1 to 10, in this work was obtained values of 9.61 and 6.47 (Table 2) for commercial gelatin/CNT's beads and RCTLW gelatin/CNT's beads, respectively.…”

Section: Adsorption Isothermssupporting

confidence: 55%

Tannery wastes-derived gelatin and carbon nanotubes composite beads: adsorption and reuse studies using tartrazine yellow dye

et al. 2022

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Tartrazine yellow is a dye commonly used in the food, textile, cosmetic and pharmaceutical industries. The effluents generated containing this contaminant must be treated since it presents potential carcinogenicity to the cells. The adsorption stands out among the other techniques used to remove dye from wastewater due to its ease of operation and implementation, and high removal rate. However, the production of effective and low-cost adsorbents is a constant challenge. Gelatin is a promising compound for the production of adsorbent composites, enabling the improvement of its low mechanical properties and accelerated degradation, by the addition of carbonaceous, such as carbon nanotubes (CNT's). Taking into account economic and environmental aspects, gelatin can be recovered from chromium-tanned leather wastes (RCTLW). Thus, this work aimed to study the adsorption of the tartrazine yellow dye by adsorbent composites based on:(1) commercial gelatin/CNT's beads and (2) RCTLW gelatin/CNT's beads. Commercial and RCTLW gelatin composite beads showed an adsorption capacity of 202.39 and 131.32 mg.g -1 , respectively, estimated by the Langmuir model. In adsorption kinetics, the density continued to increase after 300 min for both the composite materials, with better prediction of the pseudo-first order model. In the reuse study, the commercial and RCTLW gelatin composite beads proved to be usable for up to 10 cycles, with regenerations of 45 to 68% and 45 to 61%, respectively. In general, the composite beads of gelatin showed promise for the adsorption of dyes, mainly RCTLW gelatin, since it makes possible the use and minimization of wastes.

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Section: Adsorption Isothermssupporting

confidence: 55%

Tannery wastes-derived gelatin and carbon nanotubes composite beads: adsorption and reuse studies using tartrazine yellow dye

et al. 2022

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“…To meet the market’s color requirements for walnut oil, walnut oil is often bleached. Currently, commonly used bleaching techniques include adsorption, − membrane, , light energy, , and ultrasonic-assisted, , chemical, and enzymatic decolorization . The chemical method uses chemical reagents to decompose the pigment through a reaction; the color fades and the decolorization efficiency is high.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Acid- and Alkali-Modified Biochar for Removal of Methylene Blue Pigment

et al. 2020

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Walnut shell biochar (WSC) and wood powder biochar (WPC) prepared using the limited oxygen pyrolysis process were used as raw materials, and ZnCl2, KOH, H2SO4, and H3PO4 were used to modify them. The evaluation of the liquid-phase adsorption performance using methylene blue (MB) as a pigment model showed that modified biochar prepared from both biomasses had a mesoporous structure, and the pore size of WSC was larger than that of WPC. However, the alkaline modified was more conducive to the formation of pores in the biomass-modified biochar materials; KOH treatment resulted in the highest modified biochar-specific surface area. The isothermal adsorption of MB by the two biomass pyrolysis charcoals conformed to the Freundlich equation, and the adsorption process conformed to the quasi-second-order kinetic equation, which is mainly physical adsorption. The large number of oxygen-containing functional groups on the particle surface provided more adsorption sites for MB adsorption, which was beneficial to the adsorption reactions. The adsorption effects of woody biomass were obviously higher than that of shell biomass, and the adsorption capacities of the two raw materials’ pyrolysis charcoal were in the order of WPC > WSC. The adsorption effects of different treatment reagents on MB were in the order ZnCl2 > KOH > H3PO4 > H2SO4. The maximum adsorption capacities of the two biomass treatments were 850.9 mg/g for WPC with ZnCl2 treatment and 701.3 mg/g for WSC with KOH treatment.

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“…In other words, the surface has different sites of interaction with the adsorbate, and the occupation of these sites follows a descending order according to their interaction and energy. The decreasing and exponential occupation of the interaction sites lead to the formation of a multiple layer adsorption on the adsorbent [22]. 5where Kf is the Freundlich constant related with solid adsorption capacity (L g -1 ), and nf is the adsorption constant.…”

Section: Adsorption Test Using Jar-testmentioning

confidence: 99%

“…Still, intraparticle diffusion can occur simultaneously with surface adsorption and may not be the driving factor of the reaction [22]. We applied the Equation 10 to identify simultaneous intraparticle diffusion, according to the Boyd et al (1947) model [26].…”

Section: Kinetics Studies In Jar-testmentioning

confidence: 99%

Adsorption in Jar-Test system: a study of the physico-chemical interactions of the chitosan biopolymer with the textile dye DO 2GL

et al. 2020

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Onion membrane: an efficient adsorbent for decoloring of wastewater

Cited by 17 publications

References 26 publications

Tannery wastes-derived gelatin and carbon nanotubes composite beads: adsorption and reuse studies using tartrazine yellow dye

Tannery wastes-derived gelatin and carbon nanotubes composite beads: adsorption and reuse studies using tartrazine yellow dye

Preparation of Acid- and Alkali-Modified Biochar for Removal of Methylene Blue Pigment

Adsorption in Jar-Test system: a study of the physico-chemical interactions of the chitosan biopolymer with the textile dye DO 2GL

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