Your search keyword '"Bellagamba, Marco"' showing total 3 results

1. Synthetic and Natural Surfactants for Potential Application in Mobilization of Organic Contaminants: Characterization and Batch Study.

Author

Amanat, Neda, Barbati, Berardino, Rossi, Marta M., Bellagamba, Marco, Buccolini, Marco, Galantini, Luciano, and Petrangeli Papini, Marco

Subjects

BIOSURFACTANTS, NONAQUEOUS phase liquids, CRITICAL micelle concentration, SURFACE active agents, SURFACE tension, POLLUTANTS, TOLUENE

Abstract

In this paper, we investigated the abilities of five sugar-based synthetic surfactants and biosurfactants from three different families (i.e., alkyl polyglycoside (APG), sophorolipid (SL), and rhamnolipid (RL)) to dissolve and mobilize non-aqueous phase liquid (NAPL) components, i.e., toluene and perchloroethylene (PCE), adsorbed on porous matrices. The objective of this study was to establish a benchmark for the selection of suitable surfactants for the flushing aquifer remediation technique. The study involved a physicochemical characterization of the surfactants to determine the critical micelle concentration (CMCs) and interfacial properties. Subsequently, a batch study, through the construction of adsorption isotherms, made it possible to evaluate the surfactants' capacities in contaminant mobilization via the reduction of their adsorptions onto a reference adsorbent material, a pine wood biochar (PWB). The results indicate that a synthetic surfactant from the APG family with a long fatty acid chain and a di-rhamnolipid biosurfactant with a shorter hydrophobic group offered the highest efficiency values; they reduced water surface tension by up to 54.7% and 52%, respectively. These two surfactants had very low critical micelle concentrations (CMCs), 0.0071 wt% and 0.0173 wt%, respectively; this is critical from an economical point of view. The batch experiments showed that these two surfactants, at concentrations just five times their CMCs, were able to reduce the adsorption of toluene on PWB by up to 74% and 65%, and of PCE with APG and RL by up to 65% and 86%, respectively. In general, these results clearly suggest the possibility of using these two surfactants in surfactant-enhanced aquifer remediation technology. [ABSTRACT FROM AUTHOR]

Published

2022

2. Enhanced solubilization of strongly adsorbed organic pollutants using synthetic and natural surfactants in soil flushing: Column experiment simulation.

Author

Barbati, Berardino, Lorini, Laura, Amanat, Neda, Bellagamba, Marco, Galantini, Luciano, and Petrangeli Papini, Marco

Subjects

SOIL washing, NONAQUEOUS phase liquids, SOLUBILIZATION, SURFACE active agents, NONIONIC surfactants

Abstract

This study investigates the performance of two non-ionic sugar-based surfactants, belonging to the families of synthetic alkylpoliglucosides and biological rhamnolipids, for enhancing the solubilization and mass transfer of strongly adsorbed hydrophobic organic compounds (HOCs) in porous media. Using toluene and perchloroethylene (PCE) as reference pollutants, a continuous configuration test (column experiment) was performed to simulate a soil flushing process under controlled laboratory conditions. The potential applicability of the selected surfactants in remediation processes was evaluated within the context of Surfactant Enhanced Aquifer Remediation (SEAR) technology. Experimental results showed that both surfactants effectively increased the solubilization of contaminants adsorbed on porous media. Compared to H 2 O flushing, synthetic surfactant increased the solubilization of toluene by 52% and the solubilization of PCE by 81%, while biosurfactant increased solubilization ability by 73% and 92% for toluene and PCE, respectively. Biosurfactant exhibited the greatest solubilization ability, with 92% of adsorbed toluene and 98% of adsorbed PCE solubilized. This research highlights the potential of green surfactants as efficient candidates for remediation processes due to their excellent solubilization ability and environmentally friendly nature. [Display omitted] • Non-ionic sugar-based green surfactants for contaminants solubilization. • Simulation of soil flushing process in bench scale through laboratory column test. • Solubilization abilities of selected surfactants are evaluated. • Solubilizing performances of synthetic surfactants and biosurfactants are compared. [ABSTRACT FROM AUTHOR]

Published

2023

3. Preliminary study for Polycyclic aromatic Hydrocarbons mobilization from contaminated marine sediment using synthetic and natural surfactants.

Author

Moscatelli, Gabriele, Barbati, Berardino, Lorini, Laura, Caiazzo, Laura, Chiavarini, Salvatore, Pezza, Massimo, Bellagamba, Marco, and Petrangeli Papini, Marco

Subjects

*MARINE sediments, *SOIL washing, *POLYCYCLIC aromatic hydrocarbons, *CONTAMINATED sediments, *BIOSURFACTANTS

Abstract

• A historically polluted marine sediment from the National Interest Site of Bagnoli-Coroglio (Naples) was used for the study. • Chemical characterization of the sediment revealed the presence of 16 different PAHs with a concentration range between 19.4 µg g−1 and 636 µg g−1. • Several batch tests were performed to simulate a sediment-washing operation and evaluate the ability of selected surfactants to mobilize in aqueous PAHs. • Surfactant solutions resulted 30 times more efficient than water. • PAHs mobilization can be increased with a series of multiple sediment washing. The persistent presence of Polycyclic Aromatic Hydrocarbons (PAHs) in soils and sediments due to their chemical properties requires new methods to mobilize and make them more available for remediation purposes. In this work, the evaluation of the abilities of eight different non-ionic sugar-based and totally biodegradable surfactants, such as synthetic alkyl polyglycosides (APGs), biological sophorolipids (SLs) and biological rhamnolipids (RLs), was conducted in order to provide a preliminary guideline for the selection of the surfactant and the technical approach for PAHs extraction from the sediment. The reference sample was a marine sediment collected from Bagnoli (Naples, Italy) that was characterized to evaluate the level of PAHs contamination, which resulted equal to 3.51 g Kg−1 of total PAHs in the sediment. By using surfactants solutions with a surfactant concentration five times greater than critical micelle concentration (Cs = 5x CMC), a preliminary washing test in batch configuration was conducted, then followed by multiple consecutive washes (MCW) of the sediment to assess the solubilization of PAHs from the sediment by the action of selected surfactants. The results show an evident advantage given by the employment of each studied surfactant in mobilizing PAHs, compared to distilled water as benchmark. In detail, the synthetic alkyl polyglycosides APG2 led to a 3.4 % of total PAHs mobilization in the preliminary washing test with a maximum peak of 9.8 % for a single compound. The MCW test demonstrates that more consecutive washes can increase the amount of total PAHs removed, with a similar contribution from each wash, and that biosurfactants can be more attractive after several washes thanks to the increased capacity of PAHs mobilization. Interestingly, the high efficiency of surfactant to mobilize PAHs makes the soil washing a more attractive technology for removing PAHs from the marine sediments. [ABSTRACT FROM AUTHOR]

Published

2024