Abstract
The adsorption of malachite green onto activated carbon prepared from apricot stones material has been investigated at batch conditions. The effects of contact time (0–60 min), initial pH (3–11), agitation speed (100–700 r/min), temperature (298–343 K), adsorbent dose (1–10 g/L), and malachite green concentration (4.45–17.6 mg/L) on the malachite green adsorption by apricot stones material have been studied. Malachite green removal increases over the contact time until equilibrium. The batch adsorption experiments were carried out to optimize the physical parameters on the malachite green removal efficiency. It has been found that 23.80 mg/g at 25°C and 88.05 mg/g at 70°C were removed. The kinetic parameters, rate constants and equilibrium adsorption capacities, were calculated and discussed for each kinetic model. The adsorption of malachite green onto apricot stones material is well described by the pseudo second-order equation. The experimental isotherm data were analyzed by different models; the adsorption follows the Langmuir model, providing a better fit of the equilibrium data. The thermodynamics parameters such as the negative free energy Δ G° (−0.191 to −4.447 kJ/mol) and positive enthalpy Δ H° (50.86 kJ/mol) indicated the spontaneous and endothermic nature of the malachite green adsorption with a chemisorption process.
Highlights
The effluents from the textile, leather, food processing, dyeing, cosmetics, paper, and dye manufacturing industries are the main sources of the aquatic pollution (Abbas and Trari, 2015)
The analysis by laser heating shows that the precursor used has a low moisture content (1.48%), the percentage of organic matter determined by X-ray fluorescence (XRF) is found to be 98.32%
The positive entropy DS (171 J/mol.K) states clearly that the randomness increases at the solid–solution interface during the malachite green (MG) adsorption, indicating that some structural exchange occurred among the active sites of the adsorbent and MG
Summary
The effluents from the textile, leather, food processing, dyeing, cosmetics, paper, and dye manufacturing industries are the main sources of the aquatic pollution (Abbas and Trari, 2015). Considering the discharged volume and effluent combustion, the wastewater from the textile industry (Iqbal and Ashiq, 2007) is considered as one of the most polluting among all industrial sectors Their presence, even at very low concentrations, is visible and undesirable; it may dramatically affect the photosynthetic activity in the aquatic life due to the reduced light penetration. One can include the coagulation, ozonation, precipitation, flocculation, and adsorption (Abbas et al, 2019) The latter is an effective method due to its low maintenance, simple operation, and removal effectiveness (Leigen et al, 2019). It provides an attractive alternative, especially if the adsorbent is low cost and readily available In this respect, activated carbon is a versatile material for the adsorption process, but remains relatively expensive. The apricot stone used in the present study was prepared by both physical and chemical activations and this study was performed with the aim to optimize the initial dye concentration, pH, grain size, contact time, adsorbent dose, Adsorption Science & Technology 38(1–2)
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