Adsorption of reactive dye from an aqueous solution by chitosan: isotherm, kinetic and thermodynamic analysis

“…[45] Values n indicate that the SnO 2 /(NH 4 ) 2 -SnCl 6 -NCs-AC may be uniform dyes adsorption can be also explained by this model. [46] As stated in the literature, the E value of Dubinin-Radushkevich equation ranges from 1.0 to 8.0 kJ mol −1 for physical adsorption and from 8.0 to 16.0 kJ mol −1 for chemical ion exchange adsorption. [47] Hence, the values of E in the present study are found to be below 8 kJ mol −1 (Table 4).for both dyes which corresponds to physical adsorption.…”

Synthesis and characterization of SnO₂/(NH₄)₂‐SnCl₆ nanocomposites loaded on activated carbon and its application for adsorption of methylene Blue and Orange G

“…[45] Values n indicate that the SnO 2 /(NH 4 ) 2 -SnCl 6 -NCs-AC may be uniform dyes adsorption can be also explained by this model. [46] As stated in the literature, the E value of Dubinin-Radushkevich equation ranges from 1.0 to 8.0 kJ mol −1 for physical adsorption and from 8.0 to 16.0 kJ mol −1 for chemical ion exchange adsorption. [47] Hence, the values of E in the present study are found to be below 8 kJ mol −1 (Table 4).for both dyes which corresponds to physical adsorption.…”

Synthesis and characterization of SnO₂/(NH₄)₂‐SnCl₆ nanocomposites loaded on activated carbon and its application for adsorption of methylene Blue and Orange G

“…Some of the reported adsorbents include agricultural and poultry by-products (eggshell waste, bagasse pith, maize cob, hen feathers, rice husk, and coconut shell), industrial waste products (waste carbon slurries and metal hydroxide sludge), clay materials (bentonite and kaolinite), zeolites, siliceous material (silica beads, alunite, and perlite), bio-sorbents (chitosan, peat, and biomass) and others (starch, cyclodextrin, and cotton), microorganisms such as algae [3][4][5][6][7][8][9][10][11][12][13]. Chitosan has received considerable interest for heavy metals removal due to its excellent metal-binding capacities and low cost, as can be obtained for free from fishery wastes such as shrimp, lobster, and crab shells [14][15][16][17][18].…”

Potency of Chitin as an Adsorbent in Black Water Treatment Process at Peatland Environment

“…These behaviors can be explained by the ineffectiveness of the overdosed chitosan, i.e., the appropriate dosage of chitosan can cause the dye particles to aggregate (destabilization) and settle, so that chitosan-dye bridging occurs [8]. And when the chitosan dosage in the solution exceeds an optimal threshold, there will not be enough bare dye particles with unoccupied surface available for the attachment of hydroxyl or amino group of chitosan [27]. Moreover, because of the COD in chitosan solution, the excessive chitosan itself makes COD value increase after chitosan is overdosed, hence the drop of COD removal.…”

Applying an Artificial Neural Network to Predict Coagulation Capacity of Reactive Dyeing Wastewater by Chitosan