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Promising Low-Cost Adsorbent from Waste Green Tea Leaves for Phenol Removal in Aqueous Solution

Asmat Ali, Maria Siddique, Wei Chen, Han Zhixin, Romana Khan, Muhammad Bilal, Ummara Waheed, Irum Shahzadi

2022International Journal of Environmental Research and Public Health22 citationsDOIOpen Access PDF

Abstract

Phenol is the most common organic pollutant in many industrial wastewaters that may pose a health risk to humans due to its widespread application as industrial ingredients and additives. In this study, waste green tea leaves (WGTLs) were modified through chemical activation/carbonization and used as an adsorbent in the presence of ultrasound (cavitation) to eliminate phenol in the aqueous solution. Different treatments, such as cavitation, adsorption, and sono-adsorption were investigated to remove the phenol. The scanning electron microscope (SEM) morphology of the adsorbent revealed that the structure of WGTLs was porous before phenol was adsorbed. A Fourier Transform Infrared (FTIR) analysis showed an open chain of carboxylic acids after the sono-adsorption process. The results revealed that the sono-adsorption process is more efficient with enhanced removal percentages than individual processes. A maximum phenol removal of 92% was obtained using the sono-adsorption process under an optimal set of operating parameters, such as pH 3.5, 25 mg L−1 phenol concentration, 800 mg L−1 adsorbent dosage, 60 min time interval, 30 ± 2 °C temperature, and 80 W cavitation power. Removal of chemical oxygen demand (COD) and total organic carbon (TOC) reached 85% and 53%. The Freundlich isotherm model with a larger correlation coefficient (R2, 0.972) was better fitted for nonlinear regression than the Langmuir model, and the sono-adsorption process confirmed the pseudo-second-order reaction kinetics. The findings indicated that WGTLs in the presence of a cavitation effect prove to be a promising candidate for reducing phenol from the aqueous environment.

Topics & Concepts

AdsorptionPhenolAqueous solutionFreundlich equationChemistryCarbonizationLangmuirFourier transform infrared spectroscopyNuclear chemistryChemical oxygen demandLangmuir adsorption modelChromatographyWastewaterOrganic chemistryChemical engineeringWaste managementEngineeringAdsorption and biosorption for pollutant removalMercury impact and mitigation studiesAdvanced oxidation water treatment
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