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Mathematical Modelling and Optimization for Facile Synthesis of Structured Activated Carbon (ACs) from Adansonia kilima ( Baobab ) Wood Chips Integrating Microwave-Assisted Pyrolysis for the Elimination of Lead (II) Cations from Wastewater Effluents.

Santhana SellamuthuZaira Zaman ChowdhuryKhalisanni KhalidShahjalal Mohd ShiblyMd Mahfujur RahmanMasud RanaIrfan Anjum BadruddinH M T KhaleedSarfaraz KamangarMohd Rafie Bin JohanMohamed HusseinAjita MitraAbu Nasser Faisal
Published in: Molecules (Basel, Switzerland) (2023)
In this research, activated carbon (AC) was synthesized from ligno-cellulosic residues of Adansonia kilima (Baobab) wood chips (AKTW) using two-step semi-carbonization and subsequent pyrolysis using microwave-induced heating (MWP) in the presence of a mild activating agent of K 2 CO 3 . The influence of process input variables of microwave power ( x 1 ), residence time ( y 1 ), and amount of K 2 CO 3 ( z 1 ) were analysed to yield superior quality carbon having maximum removal efficiencies ( R 1 ) for lead (II) cations from waste effluents, fixed carbon percentages ( R 2 ), and carbon yield percentages ( R 3 ). Analysis of variance (ANOVA) was used to develop relevant mathematical models, with an appropriate statistical assessment of errors. Level factorial response surface methodology (RSM) relying on the Box-Behnken design (BBD) was implemented for the experimental design. The surface area and porous texture of the samples were determined using Brunauer, Emmett, and Teller (BET) adsorption/desorption curves based on the N 2 isotherm. Surface morphological structure was observed using field emission scanning electron microscopic (FESEM) analysis. Thermogravimetric analysis (TGA) was carried out to observe the thermal stability of the sample. Change in the carbon content of the samples was determined using ultimate analysis. X-ray diffraction (XRD) analysis was performed to observe the crystalline and amorphous texture of the samples. The retention of a higher proportion of fixed carbon (80.01%) ensures that the synthesized adsorbent (AKTWAC) will have a greater adsorption capacity while avoiding unwanted catalytic activity for our synthesized final sample.
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