Journal ArticleDOI
Optimal isotherm parameters for phenol adsorption from aqueous solutions onto coconut shell based activated carbon: Error analysis of linear and non-linear methods
TLDR
In this article, a low cost and easily available agricultural waste of coconut shells based activated carbon were utilized as adsorbent to study its viability and efficiency for phenol removal from wastewater.Abstract:
Removal of phenolic pollutants from wastewaters has become mandatory due to stringent environmental regulations and adverse effects on aquatic marine environment. Adsorption process which is most effective process to remove pollutants, hinders its applications in diverse field due to high cost of adsorbents. In this study, a low cost and easily available agricultural waste of coconut shells based activated carbon were utilized as adsorbent to study its viability and efficiency for phenol removal from wastewater. The efficacy of the phenol removal by adsorption process in a batch reactor is evaluated with respect to contact time for effective adsorption and influence of initial phenol concentration on percentage phenol removal. The experimental adsorption data were examined with conventional isotherms models to describe the equilibrium characteristics of adsorption of phenol. The vigorousity and non-linearity inherent in the isotherm models were validated using various traditional linear and non-linear estimation methods namely gradient method, non-linear least square method and hybrid evolutionary optimization. A novel inverse modeling technique based on differential evolution (DE) optimization which is first of this kind for adsorption applications was implemented to estimate the isotherm parameters in their non-linear form. The model predictions from the DE based optimized parameters provided better predictions and closer to experimental values. The percentage removal of phenol from four different adsorbent dosages with constant initial feed concentrations of phenol found to be varying from 63% to 96% as increase in carbon loading at constant liquid flow rate. These experimental results also revealed that coconut shell based activated carbon is a viable cheaper adsorbent for phenols removal from effluent wastewater.read more
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A comprehensive review of applications of magnetic graphene oxide based nanocomposites for sustainable water purification.
TL;DR: Insight into preparation strategies and approaches of MGO's utilization for the removal of pollutants for sustainable water purification and some research challenges to accelerate the synthesized MGOs as adsorbents for the treatment of water pollutants such as toxic and radioactive metal ions and organic and agricultural pollutants are provided.
Journal ArticleDOI
Optimization and modeling of methyl orange adsorption onto polyaniline nano-adsorbent through response surface methodology and differential evolution embedded neural network.
TL;DR: In this article, the performance of polyaniline-based nano-adsorbent for removal of methyl orange (MO) dye from wastewater in a batch adsorption process is studied.
Journal ArticleDOI
Process optimization and adsorption modeling of Pb(II) on nickel ferrite-reduced graphene oxide nano-composite
TL;DR: In this article, the authors used a synthesized nickel ferrite-reduced graphene oxide (NFRGO) nano-composite as an adsorbent to remove heavy metal ions.
Journal ArticleDOI
Critical review of abatement of ammonia from wastewater
TL;DR: In this paper, the authors reviewed the technologies implemented for removal of ammonia and its associated compounds from wastewater based on physicochemical methods and biochemical treatment methods like biological treatment, membrane filtration, ion exchange, chemical precipitation, adsorption and some other technologies such as photocatalytic oxidation, aeration, and air stripping.
Journal ArticleDOI
Improving efficacy of Cr (VI) adsorption process on sustainable adsorbent derived from waste biomass (sugarcane bagasse) with help of ant colony optimization
TL;DR: In this article, the authors used sugarcane bagasse based agricultural biomass waste in the form of activated granular carbon as an adsorbent to study its sustainability for chromium removal from effluent water in a batch process.
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