The Enhanced Carbamate Adsorption of Modified Bentonite with Coscinium fenestratum

Tha-in, S.; Dau, Holger; Dumri, Kanchana

doi:10.7763/ijesd.2013.v4.384

Cited by 6 publications

(5 citation statements)

References 15 publications

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“…https://doi.org/10.1051/e3sconf/202019103002 aromatic content that indicates if there is fuel present in the UMO. Thus, after the adsorption using the activated clays S40% and MIX40%, the intensity of the UMO bands decrease, this confirm that clays are efficient [13,21]. Table 1 details the results obtained in the UV-Vis analysis and the efficiency in batch adsorption process.…”

Section: Ftir Analysismentioning

confidence: 72%

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Acid activation of bentonite clay for recycled automotive oil purification

2020

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The search for inexpensive and environmentally friendly alternatives for used motor oil (UMO) purification has become a topic of research. In this study, the use of bentonite clay modified by acid activation is proposed. Sulfuric acid, acetic acid (v-acid/w-clay ratio=20, 40 and 60%) and sulfuric/acetic mixtures (1:1 ratio) were used in the bentonite clay activation. The activated clays were used in the UMO treatment in a ratio of 1:4 w/v, using batch adsorption processes (contact time=12 min). To determine the structural and morphological modifications produced by the acid activation process, the clays were characterized by Fourier transform infrared spectroscopy, X-ray diffraction and scanning electron microscopy. The oil clarification efficiency was quantified by UV-Vis spectroscopy, acidity, alkalinity and viscosity index. It was determined that sulfuric acid and the sulfuric/acetic activations presented a similar bentonite structure transformation, which appears in the cations leaching of intermediate layer. The treated oil with the highest clarifications (with respect to UMO) were the ones treated using bentonite activated with sulfuric acid 40 v/w% and sulfuric/acetic acid (1:1 ratio) with clarifications of 70 and 68%, respectively. The oil treated with clay activated with sulfuric acid (40%) reduced its viscosity, acidity and alkalinity by 23%, 80% and 29%, respectively.

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Section: Ftir Analysismentioning

confidence: 72%

“…[6]. In wastewater treatments, activated clay has shown to be efficient in the removal of heavy metals, pesticides, and other hazardous contaminants [11][12][13]. In the oil recycling process, the use of activated bentonite has additional advantages such as reducing the residual sludge volume and the oil loss in the sludge [9].…”

Section: Introductionmentioning

confidence: 99%

Acid activation of bentonite clay for recycled automotive oil purification

2020

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“…Tha‐in et al (2013) investigated the ability of modified bentonite with berberine (C 20 H 18 NO 4 ) + , contained in the natural extract of Coscinium fenestratum, to adsorb carbaryl. High‐performance liquid chromatography (HPLC) analysis of residue carbaryl after the adsorption process showed up to 80% carbaryl adsorption when bentonite was modified by extracted berberine, while commercial bentonite showed a 70% adsorption capacity.…”

Section: Carbaryl Adsorptionmentioning

confidence: 99%

A review on the adsorption of diuron, carbaryl, and alachlor using natural and activated clays

Isak

Xhaxhiu

2023

Remediation Journal

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Pesticides are considered predominant organic pollutants because they are widespread in many ecosystems. Pesticide residues can degrade chemically, physically, and biochemically in nature, but, because of their high stability and, in some cases, water solubility, they continue to persist in the environment. Pesticides have been eliminated from contaminated waters using a variety of methods that fall under the categories of biological, chemical, physical, and physicochemical remediation processes from various types of matrices, including water and soil. Due to their excellent qualities as adsorbents and pesticide transporters, the use of natural soil components such as clays, iron oxides, or humic acid has recently attracted growing interest. Clays have several advantages over other adsorbents, including large specific surface areas due to their small particle size, low cost, and widespread availability. Clay minerals have a great capacity for adsorption due to Coulombic forces and, attributable to their large surface area, van der Waals forces. This review describes historical, current, and emerging techniques and materials to remove the pesticides diuron, carbaryl, and alachlor using clays as adsorbents.

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“…BBr-bentonite-CMCh and Na-bentonite-CMCh films (insets in figure 4e and c, respectively) were intensively used for filtration to remove 5 ppm OP insecticides from spiked water samples. This work was carried out based on our previous and selected reports elsewhere about: (i) the diverse absorptivity of bentonite to various OP insecticides [6,7,9,[38][39][40][41]; (ii) the large water solubility of CMCh over a wide range of pH from 4 to11 and temperature from 10 to 50 • C, which is not influenced by ionic strength in aqueous solution [42,43]; (iii) the non-toxic nature of both bentonite and CMCh material to humans and the environment [19,34,44,45]. Apparently, the BBr-bentonite-CMCh film could absorb OP insecticides in water.…”

Section: Batch Filtration To Remove Op Insecticides Using Modified Bementioning

confidence: 99%

“…Bentonite clay and carboxymethyl chitosan (CMCh) products are now commercialized world-wide and studied variously for environmental application. Bentonite is a well-known material for the development of environment clean-up techniques by its absorptivity for diverse materials from heavy-metal toxins, e.g., As (III), Cd (II), Cu (II, III), Ni (II) and Pb (II) [1][2][3][4][5], to agricultural herbicides and insecticides, e.g., atrazine, carbaryl, dichlovos, parathion, paraoxon [6][7][8][9], and hazardous polycyclic aromatic hydrocarbons, e.g. naphthalene, flouranthene, benzo[a]pyrene and benzo[a]anthracene [10,11].…”

Section: Introductionmentioning

confidence: 99%

Facile fabrication of organobentonite–carboxymethyl chitosan hybrid film that absorbs organophosphate insecticides

Anh¹,

Dumri

2017

Bull Mater Sci

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Organophosphate (OP)-insecticide-absorbing hybrid film containing 10% (w/w) organobentonite and carboxymethyl chitosan (CMCh) was fabricated and tested. Bentonite clay was modified to organobentonite by two steps modification with (1) NaCl and (2) plant alkaloid monovalent cation berberine. CMCh was synthesized from commercial shrimp chitosan. Afterwards, organobentonite was immobilized into CMCh matrix via in situ polymerization of CMCh to cast a hybrid film with 0.5 mm thickness. Scanning electron microscopy images of organobentonite powder and the film revealed the porous material and layer-upon-layer structure, respectively, which is supposed to enhance the water permeability of the film. Fourier transform infrared spectrometry analysis revealed similarly chemical characteristics of the CMCh component in the film and synthesized CMCh polymer powder. The film was then investigated to remove four OP insecticides including profenofos, chlorpyrifos, methyl parathion and dimethoate of 5 ppm concentration in spiked water samples via batch filtration. High-pressure liquid chromatography analysis showed that the removal rates for profenofos, chlorpyrifos, methyl parathion and dimethoate after seven batches were 42, 39, 24 and 20%, respectively. Hence, absorptivity of this film for tested OP insecticides was demonstrated. Furthermore, the combination of organobentonite and natural chitosan is promising for novel absorptive film material generation with regard to environmental clean-up study.

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The Enhanced Carbamate Adsorption of Modified Bentonite with Coscinium fenestratum

Cited by 6 publications

References 15 publications

Acid activation of bentonite clay for recycled automotive oil purification

Acid activation of bentonite clay for recycled automotive oil purification

A review on the adsorption of diuron, carbaryl, and alachlor using natural and activated clays

Facile fabrication of organobentonite–carboxymethyl chitosan hybrid film that absorbs organophosphate insecticides

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