A novel application of building demolition waste for removal benzene from aqueous solutions

Alquzweeni, Saif S.; Alkizwini, Rasha S.; Hassan, Afrah Abood

doi:10.22630/pniks.2021.30.1.8

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…This practical isotherm model is also utilised to characterise the interaction between adsorbed molecules on various surfaces of non-identical sites and multi-layer adsorption with diverse energies. It is not limited to the monolayer formation of sorbate molecules on the biosorbent (Ho 2006;Alquzweeni et al 2021). The wellknown linear mathematical form indicated by the equation is the Freundlich isotherm:…”

Section: Freundlich Isothermmentioning

confidence: 99%

Water purification using an eco-friendly adsorbent

Hassan

Samaka

2022

Water Practice and Technology

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The literature has proved the high efficiency of activated carbon in removing a wide range of pollutants from water; however, the high cost of industrial types of activated carbon is one of the barriers to the wide application of this efficient adsorbent. Therefore, this study aims at the development of a new type of activated carbon from the Schanginia/sp plant (Schanginia activated carbon (SAC)) and the possibility of using it as a biosorbent for the removal of methylene blue dye (MBD) from water. The SAC was subjected to characterisation analysis, including the surface area (SBET), Fourier-transform infrared spectroscopy (FTIR), scanning electron microscope (SEM), and statistical parametric mapping (SPM) before using it to remove the MBD. Furthermore, the efficacy of SAC was investigated in batch experiments, taking into account the effects of several experimental factors, namely pH of the solution, contact duration, SAC dose, and MBD concentration. The results showed the maximum uptake of MBD was 33.34 mg/g, and the Langmuir model is suitable to reproduce the optimum biosorption. In conclusion, the obtained results proved the applicability of SAC for the removal of MBD from water.

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Section: Freundlich Isothermmentioning

confidence: 99%

Water purification using an eco-friendly adsorbent

Hassan

Samaka

2022

Water Practice and Technology

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Development of a grau model for simulating cephalexin residue removal from wastewater by using lemna minor

et al. 2021

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Removal of cephalexin residues from wastewater is one of the most concerned issues in treatment plants due to the growing of the antibiotics consumption level around the world. In this study, the impact of the initial concentration of cephalexin residues on its removability by lemna minor was investigated by developing a grau model accounting for the cephalexin initial pH value. In the model, the second-order kinetic constants of adsorption were linked linearly with the influent pH values. Results showed that using lemna minor along with phytoremediation process increased the removal efficiency value to 86.5% and dropped chemical oxygen demand (COD) to 0.012 mg/L in effluent, making the removability of cephalexin from the polluted water easier. In addition, it was found that changing the grau model kinetic constants linearly (positively or negatively) with pH affects the removal efficiency. Based on the results, the best removability can be noticed at the pH level of 7 with a value of 71%.

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A novel application of building demolition waste for removal benzene from aqueous solutions

Cited by 2 publications

References 22 publications

Water purification using an eco-friendly adsorbent

Water purification using an eco-friendly adsorbent

Development of a grau model for simulating cephalexin residue removal from wastewater by using lemna minor

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