Simultaneous optimization of activation conditions of alperujo (two-phase olive mill waste) using a desirability function: Production of porous carbons for adsorption and energy storage

Valorization of agro-industrial waste is considered an essential step towards a circular economy. The potential reuse of these byproducts in practical applications requires feasibility assessments and optimization of variables in order to be profitable. In the present study, an abundant and problema...

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Bibliographic Details
Published in:Journal of energy storage 2024-07, Vol.93, p.112313, Article 112313
Main Authors: Mamaní, Arminda, Jerez, Florencia, Ponce, Federico, Ramos, Pamela, Bavio, Marcela, Sardella, Fabiana
Format: Article
Language:English
Subjects:
Alperujo
Energy storage
Lead removal
Simultaneous optimization
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Summary:Valorization of agro-industrial waste is considered an essential step towards a circular economy. The potential reuse of these byproducts in practical applications requires feasibility assessments and optimization of variables in order to be profitable. In the present study, an abundant and problematic residue from the olive oil industry, “alperujo” (two-phase olive mill waste), was used as precursor material for activated carbons. A simultaneous optimization methodology was applied to maximize two response variables: energy storage capacity and lead (Pb) removal efficiency. The simultaneous optimum conditions were 3.66 g of KOH per g of carbonized residue and a temperature of 650 °C for 120 min. The result was a microporous activated carbon with an energy storage capacity of 252 F/g and a lead removal from aqueous solutions of 68.8 %. These values are comparable with those offered by commercial activated carbons, evidencing that porous materials obtained from alperujo using unique activating conditions for both applications present a remarkable performance. The novelty of the present study lies in the application of a useful statistical methodology for simultaneous optimization through the “desirability function”, resulting in a reduction in cost and time. Our results have demonstrated that it is possible to generate activated carbons with the highest performance for two different applications using the same combination of activation variables. [Display omitted] •Valorization of agro-industrial residue as way to circular economy application•A novelty simultaneous optimization methodology in activation process was applied.•Promising agroindustrial residue-derived lead adsorbent was probed.•Agroindustrial residue can be an outstanding material for energy storage.•Olive oil residue (alperujo) can be used as several kinds of green applications.
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2024.112313