Treatment of Olive Mill Wastewater through Integrated Pressure-Driven Membrane Processes

Bottino, A.; Capannelli, G.; Comite, Antonio; Costa, Camilla; Firpo, Raffaella; Jezowska, A.; Pagliero, Marcello

doi:10.3390/membranes10110334

Cited by 27 publications

(13 citation statements)

References 35 publications

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“…Membrane separation processes can be used at large scale, with three main objectives: (i) to remove suspended and colloidal matter in the extraction stage by using pressuredriven membrane techniques as microfiltration (MF 0.1-5 µm, 1-10 bar) and/or ultrafiltration (UF 0.5-100 nm, 1-10 bar); (ii) to selectively separate polyphenols from other families of compounds co-extracted in the extraction (e.g., sugars, proteins, lipids) by using pressure-driven membrane techniques as ultrafiltration (UF) and/or nanofiltration (NF) and; (iii) to reduce the volume of the polyphenols rich streams by using pressure-driven membrane techniques as nanofiltration (NF 5-10 nm, 10-30 bar) and/or reverse osmosis (RO < 0.5 nm, 35-100 bar) [20,[105][106][107][108][109][110][111][112][113].…”

Section: Conditioning Of Polyphenol Extracts: From Particulate Matter...mentioning

confidence: 99%

Recovery of Polyphenols from Agri-Food By-Products: The Olive Oil and Winery Industries Cases

Tapia-Quirós

Montenegro-Landívar

Reig

et al. 2022

Foods

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The production of olive oil and wine are two of the main agri-food economic activities in Southern Europe. They generate large amounts of solid and liquid wastes (e.g., olive pomace, olive mill wastewater, grape pomace, grape stems, wine lees, and wine processing wastewater) that represent a major environmental problem. Consequently, the management of these residues has become a big challenge for these industries, since they are harmful to the environment but rich in bioactive compounds, such as polyphenols. In recent years, the recovery of phenolic compounds has been proposed as a smart strategy for the valorization of these by-products, from a circular economy perspective. This review aims to provide a comprehensive description of the state of the art of techniques available for the analysis, extraction, and purification of polyphenols from the olive mill and winery residues. Thus, the integration and implementation of these techniques could provide a sustainable solution to the olive oil and winery sectors.

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Section: Conditioning Of Polyphenol Extracts: From Particulate Matter...mentioning

confidence: 99%

Recovery of Polyphenols from Agri-Food By-Products: The Olive Oil and Winery Industries Cases

Tapia-Quirós

Montenegro-Landívar

Reig

et al. 2022

Foods

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show abstract

“…However, this would not be applicable for real HTL-WW without a pretreatment step, since it would lead to colloidal organic fouling followed by a rapid decrease in the permeate flux and membrane selectivity [ 13 ]. As an example, the pretreatment of wastewater resulting from olive-oil production via MF showed an efficient retention of suspended materials and production of a clarified permeate that was further treated via RO in order to separate the dissolved substances from water [ 14 ]. Among the above mentioned pressure-driven membrane processes, UF is one of the most effective pretreatment methods for oily wastewater in comparison with the traditional separation methods (mechanical separation, filtration, and chemical de-emulsification) [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

Treatment of Hydrothermal-Liquefaction Wastewater with Crossflow UF for Oil and Particle Removal

et al. 2022

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This study aims to evaluate the application of ceramic ultrafiltration membranes in the crossflow mode for the separation of particles and oil in water emulsions (free oil droplets and micelles) from hydrothermal-liquefaction wastewater (HTL-WW) from the hydrothermal liquefaction of municipal sewage sludge. The experiments were carried out using one-channel TiO2 membranes with pore sizes of 30, 10 and 5 nm. The results showed that the highest stable permeability could be achieved with a membrane-pore size of 10 nm, which experienced less fouling, especially through pore blockage, in comparison to the two other pore sizes. Instead of observing an increase in the permeability, the application of a higher feed temperature as well as backwash cycles led to a clear increase in irreversible fouling due to the presence of surfactants in the HTL-WW. Among several physical and chemical cleaning methods, alkaline cleaning at pH 12 proved to be the most efficient in removing fouling and maintaining stable performance on a long-term basis. Ceramic-membrane ultrafiltration can be considered as an adequate first-stage treatment of real HTL wastewater.

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“…In this context, membrane distillation (MD) has recently gained increasing attention because of its theoretical ability completely reject non-volatile solutes, even when treating highly concentrated feed streams such as reverse osmosis brines [1] and industrial wastewaters [2,3].…”

Section: Introductionmentioning

confidence: 99%

A Single Step Preparation of Photothermally Active Polyvinylidene Fluoride Membranes Using Triethyl Phosphate as a Green Solvent for Distillation Applications

et al. 2021

Self Cite

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Membrane distillation is a growing technology that can address the growing problem of water shortage. The implementation of renewable energy and a reduction in the environmental impact of membrane production could improve the sustainability of this process. With this perspective, porous hydrophobic polyvinylidene fluoride (PVDF) membranes were prepared using triethyl phosphate (TEP) as a green solvent, using the non-solvent induced phase separation technique. Different amounts of carbon black were added to dope solutions to improve the photothermal properties of the membranes and to enable direct heating by solar energy. By optimizing the preparation conditions, membranes with porosity values as high as 87% were manufactured. Vacuum membrane distillation tests carried out using a concentrated NaCl solution at 50 °C showed distillate fluxes of up to 36 L/m2 h and a complete salt rejection. Some preliminary studies on the photothermal performance were also conducted and highlighted the possibility of using such membranes in a direct solar membrane distillation configuration.

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Treatment of Olive Mill Wastewater through Integrated Pressure-Driven Membrane Processes

Cited by 27 publications

References 35 publications

Recovery of Polyphenols from Agri-Food By-Products: The Olive Oil and Winery Industries Cases

Recovery of Polyphenols from Agri-Food By-Products: The Olive Oil and Winery Industries Cases

Treatment of Hydrothermal-Liquefaction Wastewater with Crossflow UF for Oil and Particle Removal

A Single Step Preparation of Photothermally Active Polyvinylidene Fluoride Membranes Using Triethyl Phosphate as a Green Solvent for Distillation Applications

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