Low-cost, biodegradable and highly effective adsorbents for batch and column fixed bed adsorption processes of methylene blue

Abstract Araucaria angustifolia bark (AA-bark), a waste generated in wood processing, was evaluated as a potential adsorbent to remove Gentian Violet (GV) dye from aqueous solutions. The AA-bark presented an amorphous structure with irregular surface and was composed mainly of lignin and holocellulose. These characteristics indicated that the adsorbent contains available sites to accommodate the dye molecules. The GV adsorption on AA-bark was favored at pH 8.0 with adsorbent dosage of 0.80 g L−1. Pseudo-nth order model was adequate to represent the adsorption kinetics of GV on AA-bark. A fast adsorption rate was verified, with the equilibrium being attained within 30 min. Equilibrium data were well represented by the Langmuir model. The maximum adsorption capacity was 305.3 mg g−1. Adsorption was spontaneous, favorable and endothermic. AA-bark was able to treat a simulated dye house effluent, reaching color removal values of 80%. An excellent performance was found in fixed bed experiments, where the length of the mass transfer zone was only 5.38 cm and the breakthrough time was 138.5 h. AA-bark can be regenerated two times using HNO3 0.5 mol L−1. AA-bark can be used as a low-cost material to treat colored effluents in batch and fixed bed adsorption systems.

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Design Aspects of Fixed-Bed Adsorption Processes

Adsorption: Science and Technology ◽

10.1007/978-94-009-2263-1_13 ◽

1989 ◽

pp. 239-256

Author(s):

A. Rodrigues ◽

C. Costa ◽

J. Loureiro ◽

A. Leitão ◽

R. Ferreira

Keyword(s):

Fixed Bed ◽

Fixed Bed Adsorption ◽

Adsorption Processes

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Utilization of response surface methodology in optimization of de-oiled olive pomace activated biochar production

E3S Web of Conferences ◽

10.1051/e3sconf/202014802006 ◽

2020 ◽

Vol 148 ◽

pp. 02006 ◽

Cited By ~ 1

Author(s):

Ralf Ruffel Abarca ◽

Mark Daniel de Luna ◽

Sudip Chakraborty ◽

Stefano Curcio ◽

Sebastiano Candamano

Keyword(s):

Methylene Blue ◽

Pyrolysis Temperature ◽

Fixed Bed ◽

Dye Adsorption ◽

Optimum Process ◽

Activation Process ◽

Olive Pomace ◽

Activation Time ◽

Activated Biochar ◽

Fixed Bed Adsorption

Olive activated biochar (OAB) was prepared from waste de-oiled olive pomace (sansa esausta, SE) through carbonization followed by combined KOH and thermal activation. The activation process was optimized using central composite design (CCD) with pyrolysis temperature, activation time and KOH to pyrolized SE mass ratio (KOH/PSE) as independent variables, and yield, methylene blue number (MBN) and iodine number (ID) as responses. Optimized OAB was subjected to fixed bed adsorption of 100 mg L−1 methylene blue dye. Numerical optimization resulted in optimum process setting of 362°C pyrolysis temperature, 61-min activation time and 0.81 KOH/PSE under which the optimized activated biochar produced 31% OAB, MBN of 679 and ID of 899. Thomas and Yoon-Nelson models best fit the fixed bed adsorption data implying that methylene blue adsorption conforms to Langmuir isotherm and obeys pseudo-second order reversible reaction kinetics with no axial dispersion. The theoretical adsorption capacity of OAB is 131 mg g−1 with theoretical time required for 50% sorbate breakthrough of 54.69 h. These results show the potential application of OAB in dye adsorption.

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Compressive Alginate Sponge Derived from Seaweed Biomass Resources for Methylene Blue Removal from Wastewater

Polymers ◽

10.3390/polym11060961 ◽

2019 ◽

Vol 11 (6) ◽

pp. 961 ◽

Cited By ~ 2

Author(s):

Xiaojun Shen ◽

Panli Huang ◽

Fengfeng Li ◽

Xiluan Wang ◽

Tongqi Yuan ◽

...

Keyword(s):

Methylene Blue ◽

Water Treatment ◽

Low Cost ◽

Fixed Bed ◽

Polymer Materials ◽

Batch Adsorption ◽

Maximum Adsorption Capacity ◽

Seaweed Biomass ◽

Biomass Resources ◽

The Impact

Low cost fabrication of water treatment polymer materials directly from biomass resources is urgently needed in recent days. Herein, a compressive alginate sponge (AS) is prepared from seaweed biomass resources through a green two-step lyophilization method. This material is much different from conventional oven-, air-, vacuum-dried alginate-based adsorbents, which show limitations of shrinkage, rigidness, tight nonporous structure and restricted ions diffusion, hindering its practical applications, and was used to efficiently remove methylene blue (MB), a main colorful contaminant in dye manufacturing, from wastewater. The batch adsorption studies are carried out to determine the impact of pH, contact time and concentration of dye on the adsorption process. The maximum adsorption capacity can be obtained at 1279 mg g−1, and the shape-moldable AS can be facilely utilized as a fixed-bed absorption column, providing an efficient approach for continuous removal of MB within a short time. It is also important that such a compressive AS can be regenerated by a simple squeezing method while retaining about 70% capacity for more than ten cycles, which is convenient to be reused in practical water treatment. Compressive AS demonstrates its merits of high capability, large efficiency and easy to recycle as well as low cost resources, indicating widespread potentials for application in dye contaminant control regarding environmental protection.

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Development of Energy Balances for Fixed-Bed Adsorption Processes: Thermodynamic Paths, Heat Capacities and Isosteric Heats

Adsorption ◽

10.1007/s10450-005-5984-6 ◽

2005 ◽

Vol 11 (S1) ◽

pp. 555-559

Author(s):

Krista S. Walton ◽

M. Douglas Levan

Keyword(s):

Fixed Bed ◽

Heat Capacities ◽

Fixed Bed Adsorption ◽

Adsorption Processes ◽

Energy Balances

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Potentials of African Star Apple (Chrysophyllum albidum) Fruit Shell Adsorbent in Recovery of Valuable Hydrocarbons for Spent Engine Oil

International Journal of Engineering and Technologies ◽

10.18052/www.scipress.com/ijet.20.9 ◽

2021 ◽

Vol 20 ◽

pp. 9-22

Author(s):

Elijah Taiwo ◽

Oluwatosin Tokede ◽

Olayinka Sanda

Keyword(s):

Agricultural Waste ◽

Fixed Bed ◽

Renewable Resource ◽

Apple Fruit ◽

Engine Oil ◽

Lubricating Oil ◽

Fixed Bed Adsorption ◽

Spent Engine Oil ◽

Adsorption Processes ◽

African Star Apple

Inventory of spent engine oil continuously increase and indiscriminately disposed of at auto-mechanics garages. Adsorptive separation established to be indispensable in recovery of these hydrocarbons was carried out using Chrysophyllum albidum (African star apple) fruit shell – a renewable resource. In this study, clay pretreated spent engine oil was recovered in a fixed bed adsorption processes and the recovered adsorbate components determined by GC-MS analysis. The results showed African star apple fruit shell adsorbent effective in recovering n-hexane solubilized spent lubricating oil. The study concluded that using the developed African star apple fruit shell adsorbent, an agricultural waste adsorbent in the recovery of waste lubricating oil will enhance greatly the nation’s economy.

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REMOÇÃO DE CORANTES TÊXTEIS POR COAGULAÇÃO-FLOCULAÇÃO-SEDIMENTAÇÃO E ADSORÇÃO

Colloquium Exactarum ◽

10.5747/ce.2020.v12.n2.e320 ◽

2020 ◽

Vol 12 (2) ◽

pp. 77-88

Author(s):

Gabriela Fonseca da Costa ◽

Marcella Yuri de Almeida Sawaguchi ◽

Vilson Gomes da Assunção Júnior

Keyword(s):

Water Quality ◽

Methylene Blue ◽

Adsorption Capacity ◽

Copper Phthalocyanine ◽

Fixed Bed ◽

Pigment Dispersion ◽

Proper Treatment ◽

Treatment Efficiency ◽

Fixed Bed Adsorption

Textile effluents when discharged into water bodies without proper treatment cause damage to the water quality of the receiving bodies, mainly due to the large amount of dyes used for dyeing tissues, being necessary to conduct research aiming to improve the treatment efficiency of these effluents. Thus, the objective of this work wasto assessthe removal of pigments Copper phthalocyanine,naphthol monoazole, diaxazine and diazotic, by testbench. For this, the synthetic effluent with pigment dispersion of Copper phthalocyanine was prepared, and the treatments used were coagulation-flocculation and sedimentation using polyaluminium hydroxychloride as coagulant, followed by fixed bed adsorption and the treatment efficiency was measuredthe following parameters: pH, conductivity, turbidity and pigment concentration. The results indicated the best coagulation condition with in pH of 7.41 and 10 mg.L-1dosage of coagulant resulting in 95.0% turbidity and 90.0% color removal. The best adsorbent, CAG 01,for adsorption sampled in this work presented Methylene blue index of 328.12 mg.g-1 and adsorption capacity in equilibrium equal44.57 mg g-1. Coagulation-flocculation and sedimentation treatment removed 75.29% of the pigments and withadsorption treatment, the removal of the pigments reached 97.30%.

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