Anionic Methyl Orange Removal from Aqueous Solutions by Activated Carbon Reinforced Conducting Polyaniline as Adsorbent: Synthesis, Characterization, Adsorption Behavior, Regeneration and Kinetics Study

Abstract This work investigated the elimination of Methyl Orange (MO) using a new adsorbent prepared from Activated Carbon (AC) with polyaniline reinforced by a simple oxidation chemical method. The prepared materials were characterized using XRD, TGA, FTIR and nitrogen adsorption isotherms. Furthermore, PANI@CA highest specific surface area values (near 332 m2.g− 1) and total mesoporous volume (near 0.038 cm3.g− 1) displayed the better MO removal capacity (192.52 mg.g− 1 at 298 K and pH 6.0), which is outstandingly higher than that of PANI (46.82 mg.g− 1). Besides, the process's adsorption, kinetics, and isothermal analysis were examined using various variables such as pH, MO concentration and contact time. To pretend the adsorption kinetics, various kinetics models, the pseudo first- and pseudo second- orders, were exercised to the experimental results. The kinetic analysis revealed that the pseudo second order rate law performed better than the pseudo first order rate law in promoting the formation of the chemisorption phase. In the case of isothermal studies, an analysis of measured correlation coefficient (R2) values showed that the Langmuir model was a better match to experimental results than the Freundlich model. By regeneration experiments after five cycles, acceptable results were observed.

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Adsorption Characteristics of Activated Carbon Obtained from Rice Husks by Treatment with Phosphoric Acid

Adsorption Science & Technology ◽

10.1177/026361749601300502 ◽

1996 ◽

Vol 13 (5) ◽

pp. 317-325 ◽

Cited By ~ 23

Author(s):

Laila B. Khalil

Keyword(s):

Methylene Blue ◽

Activated Carbon ◽

Phosphoric Acid ◽

Dye Removal ◽

Nitrogen Adsorption ◽

Ash Content ◽

Rice Husks ◽

Surface Areas ◽

Removal Capacity ◽

Nitrogen Adsorption Isotherms

Ground rice husks were impregnated with phosphoric acid (30–70 wt.%) followed by carbonization at 673 or 773 K. Analysis of the nitrogen adsorption isotherms was achieved by applying the BET, DR, t- and αS-methods so as to assess the contribution of micropores and mesopores in the products. The washed products showed reasonable surface areas with dimensions in the micropore range. Adsorption of methylene blue from aqueous solution indicated high affinity and high dye removal capacity. Low iodine numbers and methylene blue values were ascribed to the high ash content extending up to 50% of the activated carbon. Pre-impregnation with 50% H3PO4 and carbonization at 400°C proved to be most effective in producing an activated carbon with the highest adsorption capacity from the gas or solution.

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Adsorption Equilibrium and Kinetics of the Removal of Ammoniacal Nitrogen by Zeolite X/Activated Carbon Composite Synthesized from Elutrilithe

Journal of Chemistry ◽

10.1155/2017/1936829 ◽

2017 ◽

Vol 2017 ◽

pp. 1-9 ◽

Cited By ~ 6

Author(s):

Yong Zhang ◽

Feng Yu ◽

Wenping Cheng ◽

Jiancheng Wang ◽

Juanjuan Ma

Keyword(s):

Activated Carbon ◽

Adsorption Kinetics ◽

Nitrogen Adsorption ◽

Carbon Composite ◽

Ammoniacal Nitrogen ◽

Zeolite X ◽

Carbon Composite Material ◽

Equilibrium And Kinetics ◽

Hydrothermal Transformation ◽

Kinetics Of

Zeolite X/activated carbon composite material (X/AC) was prepared from elutrilithe, by a process consisting of carbonization, activation, and subsequent hydrothermal transformation of aluminosilicate in alkaline solution, which was used for the removal of ammoniacal nitrogen from aqueous solutions. Adsorption kinetics, equilibrium, and thermodynamic were studied and fitted by various models. The adsorption kinetics is best depicted by pseudosecond-order model, and the adsorption isotherm fits the Freundlich and Redlich-Peterson model. This explains the ammoniacal nitrogen adsorption onto X/AC which was chemical adsorption in nature. Thermodynamic properties such as ΔG, ΔH, and ΔS were determined for the ammoniacal nitrogen adsorption, and the positive enthalpy confirmed that the adsorption process was endothermic. It can be inferred that ammoniacal nitrogen removal by X/AC composite is attributed to the ion exchange ability of zeolite X. Further, as a novel sorbent, this material has the potential application in removing ammoniacal nitrogen coexisting with other organic compounds from industrial wastewater.

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Preparation and Characterization of Activated Carbon from Palm Shell by Catalytic Activation with Steam

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.787.46 ◽

2013 ◽

Vol 787 ◽

pp. 46-51 ◽

Cited By ~ 2

Author(s):

Hao Guo ◽

Xian Lun Deng

Keyword(s):

Activated Carbon ◽

Potassium Carbonate ◽

Activated Carbons ◽

Potassium Phosphate ◽

Nitrogen Adsorption ◽

Physical Activation ◽

Catalytic Activation ◽

Palm Shell ◽

Nitrogen Adsorption Isotherms

The use of palm shells as a precursor for the production of activated carbon with physical activation was investigated. The carbonized material was impregnated with potassium carbonate and potassium phosphate to improve the yield and adsorption capability of activated carbon. The produced activated carbons were characterized by Iodine number text, Methylene blue adsorption text, Nitrogen adsorption isotherms, Scanning electron microscope in order to understand the palm shell activated carbon. The results showed that palm shell is an appropriate precursor for activated carbon. The optimum activation condition is: temperature 850°C, activating time 60 min, and steam flow rate 1.0g min-1. Potassium carbonate-impregnated and potassium phosphate-impregnated sample showed higher value of surface area which attained 982m2/g and 973m2/g, respectively.

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Characteristics of Activated Carbon Produced from Rubber Seed Shell by Using Different Methods of Chemical Activation with KOH

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.781.659 ◽

2015 ◽

Vol 781 ◽

pp. 659-662 ◽

Cited By ~ 4

Author(s):

Thanchanok Pagketanang ◽

Prasong Wongwicha ◽

Mallika Thabuot

Keyword(s):

Activated Carbon ◽

Activated Carbons ◽

Chemical Activation ◽

Volume Ratio ◽

Nitrogen Adsorption ◽

Activation Method ◽

Bet Surface Area ◽

Average Pore ◽

Rubber Seed ◽

Nitrogen Adsorption Isotherms

Rubber-seed shell was selected as the precursor for the preparation of activated carbon by chemical activation with KOH as an activating agent. Impregnation-Activation Method and Carbonization-Impregnation-Activation Method were investigated with different concentration of KOH solution. Rubber-seed shell activated carbons were characterized by using scanning electron microscope, fourier transform infared spectroscopy and nitrogen adsorption isotherms. The results present that the first method which impregnation of precursor in 2%wt. KOH solution with the ratio of 300 g/l for 24 hrs before thermal activation at 700°C for 2 hrs under 2 cm3/min of nitrogen flow, was satisfied to prepare the Rubber-seed shell activated carbon. Products with maximum BET surface area, average pore diameter and volume ratio of micropores to mesopores were equal to 429 m2/g, 2.09 nm and 4.19, respectively.

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