Abstract
PurposeThe goal of this paper is to model the activated carbon adsorption capacity of cadmium using a polynomial regression model. The properties that influence the removal of heavy metals by activated carbon must be taken into consideration in order to synthesize materials specific to the characteristics of the pollutant.Design/methodology/approachMultivariable analysis applications allow a comprehensive description of the relationship between activated carbon surface properties and heavy metal adsorption.FindingsThe authors use a second-grade polynomial regression model to determine the influence of porosity and surface acidity in cadmium adsorption by activated carbon.Originality/valueThe authors propose a statistic analysis to correlate the carbon properties with its cadmium adsorption capacity. Model coefficient analysis will give a better comprehension of the influence of activated carbon porosity and surface acidity of cadmium removal.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science,Modeling and Simulation
Reference27 articles.
1. Optimization of adsorption of metal ions from a ternary aqueous solution with activated carbon from AcaciSenegalal (L.) Willd pods using Central Composite Design;Journal of King Saud University - Science,2019
2. Efficient adsorption of Azure B onto CNTs/Zn:ZnO@Ni2P-NCs from aqueous solution in the presence of ultrasound wave based on multivariate optimization;Journal of Industrial and Engineering Chemistry,2019
3. Adsorption of caffeine on mesoporous activated carbon fibers prepared from pineapple plant leaves;Ecotoxicology and Environmental Safety,2018
4. Batch adsorption of indigo carmine on activated carbon prepared from sawdust: a comparative study and optimization of operating conditions using Response Surface Methodology;Results in Surfaces and Interfaces,2021