Utilization of Waste and Renewable Material‐HCM as an Efficient Adsorbent for Heavy Metal Ions Removal: A Study of Adsorption Isotherms and Kinetics

Utilization of Waste and Renewable Material‐HCM as an Efficient Adsorbent for Heavy Metal Ions Removal: A Study of Adsorption Isotherms and Kinetics

This work describes the method of extraction and characterization of hardness causing materials (HCM) from boiling tap water via distillation assembly. The obtained white colored powered material was then calcined at different temperatures. It was revealed that powder residue was mainly consisted of...

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Bibliographic Details
Published in:ChemistrySelect (Weinheim) Vol. 7; no. 28
Main Authors: Aulakh, Manpreet K, Kaur, Harpreet, Bansal, Mehak, Pal, Bonamali, Singh, Satnam
Format: Journal Article
Language:English
Published: 27-07-2022
Subjects:
Adsorption
distillation assembly
hardness causing materials
heavy metal ions
heterogeneous catalysis
kinetics
water prevention
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Summary:This work describes the method of extraction and characterization of hardness causing materials (HCM) from boiling tap water via distillation assembly. The obtained white colored powered material was then calcined at different temperatures. It was revealed that powder residue was mainly consisted of calcium carbonate at room temperature and decomposed majorly to CaO, confirmed using XRD, when calcined at 900 °C for about 4 h. Moreover, thermogravimetric analysis (TGA) showed single‐step decomposition in case of HCM‐900 °C whereas two‐step decomposition was observed for both HCM‐400 °C and HCM without calcination which can attributed to release of CO2 from CaCO3 and then decomposition of CaO in later cases. The SEM images showed crumbled type structure, flaked structure and disintegrated small‐sized round shaped agglomerated particles for HCM‐25 °C, HCM‐400 °C and HCM‐900 °C. In addition, the impact of adsorption of different heavy metal ions (Mn7+, Cr6+ and Ni2+) over HCM with different time intervals was studied. The Langmuir adsorption isotherm is the best fit adsorption isotherm for this work. The kinetics studies follow the second order reaction. The results revealed that the Mn7+ adsorbs at higher efficiency among all the metal ions at negatively charged surface of HCM‐ 900°C due to higher oxidation state of Mn7+. Catalyst or adsorbent material was extracted material from distillation assembly. The material was calcined at 400 °C and 900 °C. It constitutes mainly of hardness causing materials (HCM), which is already a problematic issue due to its improper discarding procedure. Fruitfully utilized for removing heavy metal ions (Mn7+, Cr6+ and Ni2+) from aqueous solution which is critical alarming matter to be considered, thereby, dual purpose was served in this work.
Bibliography:HCM=hardness causing materials
ISSN:2365-6549
2365-6549
DOI:10.1002/slct.202200659