A Sustainable Banana Peel Activated Carbon for Removing Pharmaceutical Pollutants from Different Waters: Production, Characterization, and Application

A Sustainable Banana Peel Activated Carbon for Removing Pharmaceutical Pollutants from Different Waters: Production, Characterization, and Application

Due to the growing concerns about pharmaceutical contamination and its devastating impact on the economy and the health of humans and the environment, developing efficient approaches for removing such contaminants has become essential. Adsorption is a cost-effective technique for removing pollutants...

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Bibliographic Details
Published in:Materials Vol. 17; no. 5; p. 1032
Main Authors: Al-Sareji, Osamah J, Grmasha, Ruqayah Ali, Meiczinger, Mónika, Al-Juboori, Raed A, Somogyi, Viola, Hashim, Khalid S
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 23-02-2024
MDPI
Subjects:
Activated carbon
Adsorbents
Adsorption
Amoxicillin
Biomass
Chemicals
Contaminants
emerging contaminants
Fourier transforms
Fruits
Gravimetric analysis
Impact analysis
Industrial wastes
Infrared spectroscopy
organic micropollutants
Pharmaceuticals
Phenols
Phosphoric acid
Pollutants
reusability
Scanning electron microscopy
Sodium
Surface area
Surface chemistry
Temperature
Tetracycline
Tetracyclines
Thermogravimetric analysis
Titration
waste
Wastewater
Water pollution
water treatment
X ray powder diffraction
Hungary
United States > US
waste
reusability
adsorption
water treatment
organic micropollutants
emerging contaminants
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Summary:Due to the growing concerns about pharmaceutical contamination and its devastating impact on the economy and the health of humans and the environment, developing efficient approaches for removing such contaminants has become essential. Adsorption is a cost-effective technique for removing pollutants. Thus, in this work, banana peels as agro-industrial waste were utilized for synthesizing activated carbon for removing pharmaceuticals, namely amoxicillin and carbamazepine from different water matrices. The chemically activated carbon by phosphoric acid (H PO ) was carbonized at temperatures 350 °C, 450 °C and 550 °C. The material was characterized by several techniques such as scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS), Fourier transform infrared spectroscopy (FTIR), Boehm titration, point of zero charge (pH ), BET surface area (S ), the proximate and ultimate analyses, X-ray powder diffraction (XRD), and thermos-gravimetric analysis (TGA). The SEM of banana peel activated carbon (BPAC) depicted a semi-regular and heterogeneous morphology, characterized by an abundance of pores with diverse forms and sizes. Boehm titration revealed an increase in the amounts of acidic groups by 0.711 mmol/g due to activation by H PO . FTIR recorded different peaks suggesting significant modifications in the spectroscopic characteristics of the BPAC surface due to the successful activation and adsorption of the pollutant molecules. The pHpzc of BPAC was calculated to be 5.005. The S surface area dramatically increased to 911.59 m /g after the activation. The optimum conditions were 25 °C, a materials dosage of 1.2 g/L, a saturation time of 120 min, a pollutants mixture of 25 mg/L, and a pH of 5. Langmuir exhibits a slightly better fit than Freundlich with a low value of the residual sum of squares (SSE) and the data were better fitted to the pseudo-second-order kinetic. Furthermore, the efficacy of BPAC in eliminating pharmaceuticals from Milli Q water, lake water, and wastewater was successfully investigated over the seven cycles. The results of the present work highlighted a potential usage of agro-industrial waste in eliminating organic micropollutants while exhibiting sustainable management of this waste.
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This research was part of a doctoral thesis for Osamah J. Al-sareji.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma17051032