Treatment efficiency and economic feasibility of biological oxidation, membrane filtration and separation processes, and advanced oxidation for the purification and valorization of olive mill wastewater

Ioannou‐Ttofa, Lida; Michael-Kordatou, I.; Fattas, S.C.; Eusébio, Ana; Ribeiro, Belina; Rusan, M.; Amer, Abdel Rahman Bani; Zuraiqi, S.; Waismand, M.; Linder, Charles; Wiesman, Zeev; Gilron, Jack; Fatta‐Kassinos, Despo

doi:10.1016/j.watres.2017.02.020

Cited by 95 publications

(37 citation statements)

References 55 publications

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“…Typically AOPs for treatment of organic compounds involve the use of a radiation source in conjunction with inorganic semiconductors such as TiO 2 , in some cases in combination with O 3 , and/or H 2 O 2 , in a process frequently described as heterogeneous photocatalysis. The methodology is approaching economic viability . Both artificial light and sunlight can be used for irradiation, and TiO 2 photocatalysis leads to efficient degradation of pollutants, allowing for complete mineralization in some cases .…”

Section: Introductionmentioning

confidence: 99%

Titanium Dioxide Nanoparticle Photocatalysed Degradation of Ibuprofen and Naproxen in Water: Competing Hydroxyl Radical Attack and Oxidative Decarboxylation by Semiconductor Holes

et al. 2018

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The accumulation of pharmaceuticals in the environment is of major concern, and efficient procedures are needed to eliminate them. Inorganic semiconductor photocatalysts, such as titanium dioxide, offer a promising solution. We compare the photocatalytic degradation of the two non‐steroidal anti‐inflammatory drugs ibuprofen (IBP) and naproxen (NPX) by TiO2 nanoparticles in water. Photocatalysts synthesized using different methods were evaluated and compared with commercially available Evonik‐P25 TiO2, and with direct photodegradation. The synthesized nanoparticles show high photocatalytic activity towards IBP (>97% degradation) and NPX (>90% degradation), and up to 79% mineralization is observed with NPX, and ca 50% with IBP. Major IBP photoproducts were 1‐(4‐isobutylphenyl)ethanol, 1‐(4‐isobutylphenyl)ethanone and 1‐(4‐ethylphenyl)‐2‐methylpropan‐1‐ol, while photocatalysis of NPX, showed the formation of 1‐(6‐methoxynaphthalen‐2‐yl)ethanol and 1‐(6‐methoxynaphthalen‐2‐yl)ethanone. The results were rationalized by considering one major primary pathway that involves initial decarboxylation of a chemisorbed compound followed by degradation of the radical intermediate produced. Our findings strongly suggest that with these compounds possessing carboxylic acid groups, the degradation mechanism involves competition between oxidative decarboxylation of chemisorbed compounds by semiconductor holes, and hydroxyl radical attack on physisorbed substrates.

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Section: Introductionmentioning

confidence: 99%

Titanium Dioxide Nanoparticle Photocatalysed Degradation of Ibuprofen and Naproxen in Water: Competing Hydroxyl Radical Attack and Oxidative Decarboxylation by Semiconductor Holes

et al. 2018

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“…AOPs have been extensively studied for the OMW treatment through ozonation, photo-Fenton oxidation, TiO 2 photocatalysis, electrochemical oxidation and wet air oxidation. Their efficiency was found to be significatif (Gernjak et al, 2004;Canizares et al, 2007;2009;Chatzisymeon et al, 2009;Mert et al, 2010;Belaid et al, 2013;Michael et al, 2014;Ioannou-Ttofa et al, 2017;Davididou et al, 2018). Although, AOPs manage a great COD reduction, but their operating costs are considerably high.…”

Section: Important Strategies For Omw Treatmentmentioning

confidence: 99%

“…Membrane processes, such as MF, UF, NF and RO, have been proposed to obtain effluent streams from OMW of acceptable quality for safe discharge in the environment, tree or land irrigation, or even for recycling and reuse in the olive mill facilities (Cassano et al, 2011;Ochando-Pulido et al, 2014;Zagklis et al, 2015;Sanches et al, 2016;Kontos et al, 2016;2018;Ioannou-Ttofa et al, 2017). Most of these studies indicated that membranes processes exhibit high selectivity values required to achieve high water quality standards.…”

Section: Important Strategies For Omw Treatmentmentioning

confidence: 99%

“…They are more cost-effective than other conventional processes, require less area and can replace several unit treatment processes by a single one. However, the implementation of membrane technologies in OMW treatment suffer from various drawbacks, such as the membrane fouling, the energy cost and the membrane replacement (Miguel and Pulido, 2016;Ioannou-Ttofa et al, 2017). In addition, the concentrate generated contains high levels of refractory organic pollutants and inorganic salts which needs further treatment before its disposal in the environment, Advanced Oxidation Processes (AOPs) are based on the creation of very reactive species, such as hydroxyl radicals (HO .…”

Section: Important Strategies For Omw Treatmentmentioning

confidence: 99%

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Chemical Coagulation/Flocculation Processes for Removal of Phenolic Compounds from Olive Mill Wastewater: A Comprehensive Review

Achak¹,

Elayadi²,

Boumya³

2019

American Journal of Applied Sciences

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Olive oil extraction processes generate three phases: Olive oil, solid residue (pomace) and aqueous liquor Olive Mill Wastewater (OMW). OMW causes serious environmental deteriorations such as coloring of natural waters, alteration of soil quality, phytotoxicity and odor nuisance. The direct discharge of this effluent into the soil bring various negative effects on the environment, due to its high load of organic matter and phenolic compounds. Coagulation, flocculation and their combination processes are among the most applied processes for wastewater treatment. The application of coagulation technique using mineral and inorganic polymeric coagulants and acid cracking is not always effective to reduce COD and phenolic compounds from OMW except lime. Although direct flocculation is a low treatment cost, use less chemical and produce less sludge, the efficiency of COD and phenolic compounds removal remain very low. Coagulationflocculation process is developed in order to enhance the removal efficiency of organic matter from OMW by optimizing the operating conditions. However, many studies showed that the combination of various cationic organic coagulant and flocculant agents did not show any significant decrease of COD and phenolic compounds except for lime combination. In the present review, recent research studies dealing with the application of coagulation/flocculation for removal of phenolic compounds and COD from OMW are presented and compared. Furthermore, the main factors that influence the selection between coagulation, direct flocculation and coagulation-flocculation are presented and the principal removal mechanisms are discussed.

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“…There are five main novel elements of this study: The LCA of the PC adsorption process: this aspect has been included so far in a very limited number of studies on PC recovery from different matrixes by solvent extraction and subcritical water extraction, but never on PC recovery by adsorption. The CBA of the PC adsorption process: a few studies have reported the economic evaluation of processes of PC recovery by reverse osmosis, combined ultrafiltration/nanofiltration, supercritical fluid extraction and thermal treatment combined to centrifugation, but none have done so for adsorption. The development of an LCA and CBA of the PC recovery process based on the design of a full‐scale plant: this includes all the equipment required to produce a PC‐rich product, in addition to the adsorption/desorption column (OMW filtration unit, rotary dryer with gas boiler for ethanol evaporation, condenser for ethanol recovery, cooling tower, tanks and pumps); previous studies on the process LCA and CBA did not include an evaluation of the cost and environmental impact associated with the purchase, operation and decommissioning of the auxilliary equipment required to produce a marketable antioxidant product. The model‐based study of the effect of fluid velocity on the performances of the PC adsorption process. The assessment of the process performances during consecutive adsorption/desorption cycles: this aspect has been partially investigated for a continuous flow process only in one previous study which evaluated – over five consecutive cycles – the composition of the desorbed product, but not the adsorption yield or the resin operating efficiency. …”

Section: Introductionmentioning

confidence: 99%

Continuous flow adsorption of phenolic compounds from olive mill wastewater with resin XAD16N: life cycle assessment, cost–benefit analysis and process optimization

Frascari

Bacca

Wardenaar

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND Olive mill wastewaters (OMWs) represent a major environmental concern due to their high organic load and phytotoxic activity. The selective recovery of phenolic compounds (PCs) from OMW is promising, thanks to the antioxidant and antimicrobial properties of PCs. The goal of this work was to perform a life cycle assessment (LCA) and cost–benefit analysis (CBA) of a full‐scale process of PC adsorption/desorption on resin Amberlite XAD16N. The industrial process was designed on the basis of laboratory tests aimed at performing a preliminary process optimization. RESULTS Adsorption tests were conducted at different velocities in a 1.8‐m column packed with XAD16N. The optimal superficial velocity and retention time (2.78 m h–1 and 0.56 h) allowed the attainment of satisfactory performances in terms of resin operating capacity (0.46), PC adsorption yield (0.92), PC mass fraction in the sorbed product (0.50 gPC/gVS) and specific antioxidant activity (3–6 gascorbic acid/gPC). Six consecutive adsorption/desorption cycles, operated with the same resin load, resulted in stable process performances. The LCA indicated that the environmental impact of the process could be decreased markedly through the addition of an anaerobic digestion step for the production of irrigation‐quality water and fertilizers from the dephenolized OMW. The PC market price required for the generation of a positive business case resulted relatively low (€1.7–13.5 kgPC–1). CONCLUSION The results indicate that the proposed PC adsorption/desorption technology, if integrated with an anaerobic digestion step, represents a promising solution for the treatment and valorization of OMW, a major agro‐industrial waste in Mediterranean countries. © 2019 Society of Chemical Industry

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Treatment efficiency and economic feasibility of biological oxidation, membrane filtration and separation processes, and advanced oxidation for the purification and valorization of olive mill wastewater

Cited by 95 publications

References 55 publications

Titanium Dioxide Nanoparticle Photocatalysed Degradation of Ibuprofen and Naproxen in Water: Competing Hydroxyl Radical Attack and Oxidative Decarboxylation by Semiconductor Holes

Titanium Dioxide Nanoparticle Photocatalysed Degradation of Ibuprofen and Naproxen in Water: Competing Hydroxyl Radical Attack and Oxidative Decarboxylation by Semiconductor Holes

Chemical Coagulation/Flocculation Processes for Removal of Phenolic Compounds from Olive Mill Wastewater: A Comprehensive Review

Continuous flow adsorption of phenolic compounds from olive mill wastewater with resin XAD16N: life cycle assessment, cost–benefit analysis and process optimization

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