Your search keyword '"Alessandro Ragini"' showing total 2 results

1. Development of a continuous-flow anaerobic co-digestion process of olive mill wastewater and municipal sewage sludge

Author

Dario Frascari, GianNicola Scarcella, Davide Pinelli, Sara Bovina, Alessandro Ragini, Francesco Avolio, Bovina S., Frascari D., Ragini A., Avolio F., Scarcella G., and Pinelli D.

Subjects

anaerobic digestion, 020209 energy, General Chemical Engineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, 12. Responsible consumption, municipal wastewater, Inorganic Chemistry, 0202 electrical engineering, electronic engineering, information engineering, Mill, Waste Management and Disposal, 0105 earth and related environmental sciences, olive mill wastewater, sewage sludge, Renewable Energy, Sustainability and the Environment, Continuous flow, Organic Chemistry, Pulp and paper industry, Pollution, 6. Clean water, Anaerobic digestion, Fuel Technology, Wastewater, polyphenolic compound, Scientific method, Environmental science, Co digestion, cost–benefit analysis, Anaerobic exercise, Sludge, Biotechnology

Abstract

BACKGROUND: Olive mill wastewater (OMW) represents an environmental problem due to its high organic load and relevant concentration of phenolic compounds (PCs). OMW treatment and disposal represents a relevant challenge and cost for olive mills and multi-utilities in charge of waste management in Mediterranean countries. The goal of this study was to develop an anaerobic co-digestion (co-AD) process of OMW and sewage sludge (SwS) from municipal wastewater treatment. RESULTS: Different volumetric OMW:SwS ratios up to 100% OMW were fed in continuous 1.7-L bioreactors. The reactors fed with raw OMW (rOMW) performed better than those fed with OMW dephenolized by adsorption (dOMW). At a 23-day hydraulic retention time, the best performances were obtained in the reactor fed with 25% rOMW, with a 105% increase in methane yield in comparison to the 100% SwS test. At a 40-day hydraulic retention time, the reactor fed with 40% rOMW attained a 268 NLCH4/kgvolatile solids methane yield. The conversion of phenolic compoundsreached 70% when the hydraulic retention time was increased from 23 to 40 days. A cost–benefit analysis indicated that both rOMW co-AD in existing digesters and phenolic compounds recovery from OMW followed by co-AD of dOMW can lead to relevant additional revenues for the multi-utilities in charge of wastewater management. CONCLUSION: This work proves that, using the existing network of SwS anaerobic digesters, it is feasible to co-digest the entire OMW production in regions characterized by intense olive oil production, thus attaining a relevant increase in methane production yield (a 144% increase in comparison to 100% SwS).

Published

2021

2. Valorisation of olive mill wastewater by phenolic compounds adsorption: Development and application of a procedure for adsorbent selection

Author

Antonio Arzu, Giorgia Rubertelli, Fatma Arous, Alessandro Ragini, Davide Pinelli, Letizia Bresciani, Dario Frascari, Frascari, Dario, Rubertelli, Giorgia, Arous, Fatma, Ragini, Alessandro, Bresciani, Letizia, Arzu, Antonio, and Pinelli, Davide

Subjects

Phenolic compound, General Chemical Engineering, Microfiltration, phenolic compounds, adsorption, ion exchange, resin selection, antioxidant activity, olive mill wastewater, 02 engineering and technology, Amberlite, 010402 general chemistry, 01 natural sciences, Industrial and Manufacturing Engineering, Adsorption, Antioxidant activity, Desorption, Environmental Chemistry, Chemical Engineering (all), Packed bed, Olive mill wastewater, Suspended solids, Ion exchange, Chemistry, Chemistry (all), Sorption, General Chemistry, 021001 nanoscience & nanotechnology, 6. Clean water, 0104 chemical sciences, Resin selection, ING-IND/25 Impianti chimici, 0210 nano-technology, Nuclear chemistry

Abstract

A procedure for the selection of the optimal adsorbent for phenolic compounds (PC) recovery from PC-rich wastes and wastewaters was innovatively proposed and applied to compare 4 neutral resins (Amberlite XAD16N, Optipore SD-2, Amberlite FPX66, Amberlite XAD761) and 1 ion-exchange resin (Amberlite IRA958 Cl) for PC recovery from a Tunisian olive mill wastewater (OMW). In the initial batch isotherm tests a neutral resin (XAD16N) performed best thanks to its high PC sorption capacity (81 mgPC/gdry resin) and PC content in the sorbed product (0.19 gPC/gvolatile solids). Also ion-exchange resin IRA958, used in OH form in this work, resulted interesting thanks to its satisfactory performances and very low cost (8 €/L). These two pre-selected resins were further compared by means of continuous-flow adsorption/desorption tests conducted in a 1-m packed column. The results indicate that if a low (20%) breakpoint is selected, XAD16N leads to a PC-richer sorbed product (0.14 gPC/gvolatile solids) and a higher operating capacity (0.30) than IRA958. Conversely, if a very high (90%) breakpoint is selected, the two resins produce similar desorbed products in terms of both PC content (0.19–0.21 gPC/gvolatile solids) and antioxidant capacity (4.6–4.9 gascorbic acid equivalent/gPC). Resin-specific dynamic desorption procedures led to very high PC desorption yields (87–95%). The identification of the actual PCs present in the final desorbed product indicated for XAD16N a higher capacity to preserve the integrity of the PC mixture of the studied OMW. OMW microfiltration (0.2 μm pore-size) led to a 99.8% suspended solid removal – thus protecting the packed column from potential clogging – with a very low PC loss.

Published

2019