Journal
CHEMICAL ENGINEERING RESEARCH & DESIGN
Volume 189, Issue -, Pages 636-651Publisher
ELSEVIER
DOI: 10.1016/j.cherd.2022.12.003
Keywords
Sorption; Mesoporous materials; Nanomaterials; Green pea peels; Isotherm models
Categories
Funding
- TICAD7, the corporation of Japanese and Egyptian government
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Smart technology-based wastewater treatment processes are essential for ensuring safe water and sanitation. This study focused on the use of biochar and nanocomposites for decontaminating water solutions, and investigated the influence of various experimental conditions on the treatment efficiency.
To minimize the catastrophic influence of contaminated water, smart technology-based wastewater treatment processes are mandatory for safe water and sanitation. Nanometric metal oxides supported with biochar are green choices for futuristic adsorbents for water decontamination with versatility, simplicity, high surface reactivity, and efficacy. In this study, reactive Congo Red (CR) from an aqueous solution was decontaminated using prepared innovative green pea peels biochar (GPBC), and zinc oxide green pea peels bio-char nanocomposite (ZnO/GPBC). The characterizations of GPBC and ZnO/GPBC were performed by EDX, TEM, XRD, BET, FTIR, and point of zero charge. The role of experi-mental conditions of initial concentration (50-250 mg/l), GPBC and ZnO/GPBC dosage pH (2-12), temperature (20-60 oC) and interaction time (0-90 min) were examined. The results revealed that ZnO/GPBC demonstrated better performance for anionic CR dye removal that recorded as 98% compared to 90% using GPPBC under optimized environment con-ditions. The examination of adsorption equilibrium isotherm displayed the validity of Freundlich and Langmuir model for description the dye decolorization onto ZnO/GPBC and GPBC, respectively, as best fitted models. Moreover, the kinetics studies disclosed pseudo-second-order (PSO) for both studied materials. The monolayer sorption capacities were 114.94 mg/g for ZnO/GPBC and 62.11 mg/g for GPBC, both exhibiting competitive performances with other carbon-based adsorbents available in the literature. The ther-modynamic studies disclosed favorable, spontaneous, and endothermic processes. The synthesized ZnO/GPBC and GPBC are excellent adsorbents recommended for large-scale production in the removal of anionic dyes from wastewaters.(c) 2022 Institution of Chemical Engineers. Published by Elsevier Ltd. All rights reserved.
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