This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alique D, Bruni G, Sanz R, Calles JA, Tosti S. Ultra-Pure Hydrogen via Co-Valorization of Olive Mill Wastewater and Bioethanol in Pd- Membrane Reactors. Processes. 2020;8(2):219.AliqueDBruniGSanzRCallesJATostiSUltra-Pure Hydrogen via Co-Valorization of Olive Mill Wastewater and Bioethanol in Pd- Membrane ReactorsProcesses20208221910.3390/pr8020219Search in Google Scholar
Aggoun M, Arhab R, Cornu A, Portelli J, Barkat M, Graulet B. Olive mill wastewater microconstituents composition according to olive variety and extraction process. Food Chemistry. 2016;209:72–80.AggounMArhabRCornuAPortelliJBarkatMGrauletBOlive mill wastewater microconstituents composition according to olive variety and extraction processFood Chemistry2016209728010.1016/j.foodchem.2016.04.03427173536Search in Google Scholar
Nefzaoui A. Contribution à la rentabilité de l’oléiculture par la valorisation optimale des sous-produits. Séminaire sur l’économie de l’olivier. Tunis. 1987;4:17–28.Nefzaoui AContribution à la rentabilité de l’oléiculture par la valorisation optimale des sous-produitsSéminaire sur l’économie de l’olivier. Tunis198741728Search in Google Scholar
Battista F, Mancini G, Ruggeri B, Fino D. Selection of the best pretreatment for hydrogen and bioethanol production from olive oil waste products. Renewable Energy. 2016;8:401–407.BattistaFManciniGRuggeriBFinoDSelection of the best pretreatment for hydrogen and bioethanol production from olive oil waste productsRenewable Energy2016840140710.1016/j.renene.2015.11.055Search in Google Scholar
Zenjari B, El-Hajjouji H, Ait-Baddi G, Bailly JR, Revel JC, Nejmeddine A, Hafidi M. Eliminating toxic compounds by composting of olive mill wastewater straw mixture. J. Hazardous Mater. 2006;138:433–437.ZenjariBEl-HajjoujiHAit-BaddiGBaillyJRRevelJCNejmeddineAHafidiMEliminating toxic compounds by composting of olive mill wastewater straw mixtureJ. Hazardous Mater200613843343710.1016/j.jhazmat.2006.05.07116973264Search in Google Scholar
Hocaoglu SM, Gursoy BH, Basturk I, Talazan P, Aydoner C. Assessment of technology modification for olive oil sector through mass balance: A case study for Turkey. Journal Cleaner Prod. 2018;188:786–795.HocaogluSMGursoyBHBasturkITalazanPAydonerCAssessment of technology modification for olive oil sector through mass balance: A case study for TurkeyJournal Cleaner Prod201818878679510.1016/j.jclepro.2018.04.020Search in Google Scholar
Genç N, Durna E, Cicigün HKK. Response Surface Modeling and Optimization of Microwave-Activated Persulfate Oxidation of Olive Oil Mill Wastewater. Clean – Soil, Air, Water. 2020;48:1900198.GençNDurnaECicigünHKKResponse Surface Modeling and Optimization of Microwave-Activated Persulfate Oxidation of Olive Oil Mill WastewaterClean – Soil, Air, Water202048190019810.1002/clen.201900198Search in Google Scholar
Noubigh A, Abderrabba M, Provost E. Temperature and addition effects on the solubility behaviour of some phenolic compounds in water. Jouranl of Chemical Thermodynamics. 2007;39:297–303.NoubighAAbderrabbaMProvostETemperature and addition effects on the solubility behaviour of some phenolic compounds in waterJouranl of Chemical Thermodynamics20073929730310.1016/j.jct.2006.06.014Search in Google Scholar
Achak M, Ouazzani N, Mandi L. Élimination des polluants organiques des effluents de l’industrie oléicole par combinaison d’un filtre à sable et un lit planté. Revue des Sciences de l’Eau. 2011 ;24:35–51.AchakMOuazzaniNMandiLÉlimination des polluants organiques des effluents de l’industrie oléicole par combinaison d’un filtre à sable et un lit plantéRevue des Sciences de l’Eau201124355110.7202/045826arSearch in Google Scholar
Kapellakis IE, Tsagarakis KP, Crowther JC. Olive oil history, production and by-product management. Reviews in Environmental Science and Bio/Technology. 2008;7:1–26.KapellakisIETsagarakisKPCrowtherJCOlive oil history, production and by-product managementReviews in Environmental Science and Bio/Technology2008712610.1007/s11157-007-9120-9Search in Google Scholar
Mohawesh O, Al-Hamaiedeh H, Albalasmeh A, Qaraleh S, Haddadin M. Effect of olive mill wastewater (OMW) application on soil properties and wheat growth performance under rain-fed conditions. Water Air Soil Pollution. 2019;230:160.MohaweshOAl-HamaiedehHAlbalasmehAQaralehSHaddadinMEffect of olive mill wastewater (OMW) application on soil properties and wheat growth performance under rain-fed conditionsWater Air Soil Pollution201923016010.1007/s11270-019-4208-8Search in Google Scholar
El-Hajjouji H. Evolution des caractéristiques physico-chimiques, spectroscopiques et écotoxicologiques des effluents d’huileries d’olive au cours de traitements biologique et chimique. Thèse de doctorat. Institut national polytechnique de Toulouse. École doctorale : Sciences Écologiques, Vétérinaires. Agronomiques et Bioingénieries Spécialité : Ecologie et Agrosystèmes. 2007;163.El-HajjoujiH.Evolution des caractéristiques physico-chimiques, spectroscopiques et écotoxicologiques des effluents d’huileries d’olive au cours de traitements biologique et chimique. Thèse de doctoratInstitut national polytechnique de Toulouse. École doctorale : Sciences Écologiques, Vétérinaires. Agronomiques et Bioingénieries Spécialité : Ecologie et Agrosystèmes2007163Search in Google Scholar
Ntougias S, Gaitis F, Katsaris P, Skoulika S, Iliopoulos N, Zervakis GI. The effects of olives harvest period and production year on olive mill wastewater properties - evaluation of Pleurotus strains as bioindicators of the effluent’s toxicity. Chemosphere. 2013;92:399–405.NtougiasSGaitisFKatsarisPSkoulikaSIliopoulosNZervakisGIThe effects of olives harvest period and production year on olive mill wastewater properties - evaluation of Pleurotus strains as bioindicators of the effluent’s toxicityChemosphere20139239940510.1016/j.chemosphere.2013.01.03323399310Search in Google Scholar
Benamar A, Mahjoubi FZ, Barka N, Kzaiber F, Boutoial K, Gomaa AM, Oussama A. Olive mill wastewater treatment using infiltration percolation in column followed by aerobic biological treatment. SN Applied Sciences. 2020;2:655.BenamarAMahjoubiFZBarkaNKzaiberFBoutoialKGomaaAMOussamaAOlive mill wastewater treatment using infiltration percolation in column followed by aerobic biological treatmentSN Applied Sciences2020265510.1007/s42452-020-2481-1Search in Google Scholar
Ouedrhini W, Mounyr B, Harki E, Moja S, Greche H. Synergistic antimicrobial activity of two binary combination of marjoram, lavender, and wild thyme essential oils. International Journal of Food Properties. 2017;20:3149–3158.OuedrhiniWMounyrBHarkiEMojaSGrecheHSynergistic antimicrobial activity of two binary combination of marjoram, lavender, and wild thyme essential oilsInternational Journal of Food Properties2017203149315810.1080/10942912.2017.1280504Search in Google Scholar
Esmail A, Abed H, Firdaous M, Chahboun N, Mennane Z, Berny EH, Ouhssine M. Étude physico-chimique et microbiologique des margines de trois régions du Maroc. (Ouazzane, Fès Boulman et Béni Mellal). J. Mater. Environ. Sci. 2014;5:121–126.EsmailAAbedHFirdaousMChahbounNMennaneZBernyEHOuhssineMÉtude physico-chimique et microbiologique des margines de trois régions du Maroc(Ouazzane, Fès Boulman et Béni Mellal). J. Mater. Environ. Sci20145121126Search in Google Scholar
Mikdame H, Kharmach E, Mtarfi NE, Alaoui K, Ben Abbou M, Rokni Y, Majbar Z, Taleb M, Rais Z. By-Products of Olive Oil in the Service of the Deficiency of Food Antioxidants: the Case of Butter. Journal of Food Quality. 2020;1:1–10.MikdameHKharmachEMtarfiNEAlaouiKBenAbbou MRokniYMajbarZTalebMRaisZBy-Products of Olive Oil in the Service of the Deficiency of Food Antioxidants: the Case of ButterJournal of Food Quality2020111010.1155/2020/6382942Search in Google Scholar
Lakhtar H, Ismaili-Alaoui M, Philippoussis A, Perraud-Gaime I, Roussos S. Screening of strains of Lentinula edodes grown on model olive mill wastewater in solid and liquid state culture for polyphenol biodegradation. International Biodeterioration and Biodegradation. 2010;64:167–172.LakhtarHIsmaili-AlaouiMPhilippoussisAPerraud-GaimeIRoussosSScreening of strains of Lentinula edodes grown on model olive mill wastewater in solid and liquid state culture for polyphenol biodegradationInternational Biodeterioration and Biodegradation20106416717210.1016/j.ibiod.2009.10.006Search in Google Scholar
Ranalli A. L’effluent des huileries d’olive : Propositions en vue de son épuration. Références aux normes italiennes en la matière. Première partie. Olivae. 1991;37:30–39.RanalliAL’effluent des huileries d’olive : Propositions en vue de son épurationRéférences aux normes italiennes en la matière. Première partie. Olivae1991373039Search in Google Scholar
Aissam H. Etude de la biodégradation des effluents des huileries (margines) et leur valorisation par production de l’enzyme tannase. Thèse de doctorat, Faculté des sciences. Dhar El Mehraz, Fes. 2003.AissamHEtude de la biodégradation des effluents des huileries (margines) et leur valorisation par production de l’enzyme tannase. Thèse de doctorat, Faculté des sciencesDhar El Mehraz, Fes2003Search in Google Scholar
D’Annibale A, Federici F, Fenice M, Sermanni GG, Pet+ruccioli M, Vassilev N. Residues of olive oil extraction process: possible biotechnological approach. Science and technology. 2003;85:1–4.D’AnnibaleAFedericiFFeniceMSermanniGGPet+ruccioliMVassilevNResidues of olive oil extraction process: possible biotechnological approachScience and technology20038514Search in Google Scholar
Achak M, Ouazzani N, Yaacoubi A, Mandi L. Caractérisation des margines issues d’une huilerie moderne et essais de leur traitement par coagulation floculation par la chaux et le sulfate d’aluminium. Revue des Sciences de l’Eau. 2008;21:53–67.AchakMOuazzaniNYaacoubiAMandiLCaractérisation des margines issues d’une huilerie moderne et essais de leur traitement par coagulation floculation par la chaux et le sulfate d’aluminiumRevue des Sciences de l’Eau200821536710.7202/017930arSearch in Google Scholar
Zaier H, Chmingui W, Rajhi H, Bouzidi D, Roussos S, Rhouma A. Caractérisation physico-chimique et microbiologique des margines de différentes régions de la Tunisie (Nord, Sahel, Sud). Journal of New Sciences. 2017;48:E-ISSN 2286–5314.ZaierHChminguiWRajhiHBouzidiDRoussosSRhoumaACaractérisation physico-chimique et microbiologique des margines de différentes régions de la Tunisie (Nord, Sahel, Sud)Journal of New Sciences201748E-ISSN 2286–5314Search in Google Scholar
Rodier J. L’analyse de l’eau : eaux naturelles, eaux résiduaires, eaux de mer. Huitième édition DUNOD Paris. 1996;1384.RodierJL’analyse de l’eau : eaux naturelles, eaux résiduaires, eaux de merHuitième édition DUNOD Paris19961384Search in Google Scholar
Gortzi O, Lalas S, Chatzilazarou A, Katsoyannos E, Papaconstandinou S, Dourtoglou E. Recovery of Natural Antioxidants from olive mill wastewater using genapol-X080. Journal of the American Oil Chemists’Society. 2008;85:133–140.GortziOLalasSChatzilazarouAKatsoyannosEPapaconstandinouSDourtoglouERecovery of Natural Antioxidants from olive mill wastewater using genapol-X080Journal of the American Oil Chemists’Society20088513314010.1007/s11746-007-1180-zSearch in Google Scholar
Assas N, Marouani L, Hamidi M. Scale down and optimization of olive mill wastewaters decolorization by Geotricum candidum. Bioprocess Engineering. 2000;2:503–507.AssasNMarouaniLHamidiMScale down and optimization of olive mill wastewaters decolorization by Geotricum candidumBioprocess Engineering2000250350710.1007/s004499900093Search in Google Scholar
Pauwels JM, Van-Ranst E, Verloo M, Mvendo ZEA. Manuel de laboratoire de pédologie. Méthodes d’analyses des sols et des plantes, équipements, gestion de stocks de verrerie et de produits chimiques. Bruxelles: Administration Générale de la Coopération au Développement (AGCD). 1992.PauwelsJMVan-RanstEVerlooMMvendoZEAManuel de laboratoire de pédologie. Méthodes d’analyses des sols et des plantes, équipements, gestion de stocks de verrerie et de produits chimiquesBruxellesAdministration Générale de la Coopération au Développement (AGCD)1992Search in Google Scholar
AFNOR, Norme T90-1110. Essai des eaux : dosage de l’azote total Kjeldahl. 1975.AFNOR, Norme T90-1110Essai des eaux : dosage de l’azote total Kjeldahl1975Search in Google Scholar
AFNOR, Recueil de normes françaises : eau, méthodes d’essai, 2éme édition, Paris, France. 1983;621.AFNOR, Recueil de normes françaises : eau, méthodes d’essai, 2éme éditionParis, France1983621Search in Google Scholar
Radoux M, Cadelli D. Epuration extensive des eaux usées des petites collectivités en zones rurales. Smmarcelli-Biguglia. 1995;7:45–52.RadouxMCadelliDEpuration extensive des eaux usées des petites collectivités en zones ruralesSmmarcelli-Biguglia199574552Search in Google Scholar
Bassirou A. Impact des rejets de la ville de Niamey (Niger) sur la qualité des eaux du fleuve Niger. Thèse de Doctor-at. Facultés universitaires Notre-Dame de la paix Namur. 2007;230.BassirouAImpact des rejets de la ville de Niamey (Niger) sur la qualité des eaux du fleuve NigerThèse de Doctor-at. Facultés universitaires Notre-Dame de la paix Namur2007230Search in Google Scholar
Bustamante MA, Said-Pullicino D, Paredes C, Cecilia JA, Moral R. Influences of winery-distillery waste compost stability and soil type on soil carbon dynamics in amended soils. Waste Management. 2010;30:1966–1975.BustamanteMASaid-PullicinoDParedesCCeciliaJAMoralRInfluences of winery-distillery waste compost stability and soil type on soil carbon dynamics in amended soilsWaste Management2010301966197510.1016/j.wasman.2010.03.01220382012Search in Google Scholar
De Felice B, Pontecorvo G, Carfagna M. Degradation of waste waters from olive oil mills by Yarrowia lipolytica ATCC 20 255 and pseudomonas pitida. Acta Biotechnol. 1997;17:231–239.DeFelice BPontecorvoGCarfagnaMDegradation of waste waters from olive oil mills by Yarrowia lipolytica ATCC 20 255 and pseudomonas pitidaActa Biotechnol19971723123910.1002/abio.370170306Search in Google Scholar
Belaid C, Kallel M, Elleuch B. Identification de nouveaux composés phénoliques présents dans les rejets liquides d’huileries d’olive (margines). Revue Francophone d’Ecologie Industrielle. 2002;27.BelaidCKallelMElleuchBIdentification de nouveaux composés phénoliques présents dans les rejets liquides d’huileries d’olive (margines)Revue Francophone d’Ecologie Industrielle20022710.4267/dechets-sciences-techniques.2389Search in Google Scholar
Ouabou E, Anouar A, Hilali S. Elimination des polluants organiques présents dans la margine d’huile d’olive par filtration sur colonne d’argile et sciure de bois d’eucalyptus. Journal of Applied Biosciences. 2014a;75:6232–6238.OuabouEAnouarAHilaliSElimination des polluants organiques présents dans la margine d’huile d’olive par filtration sur colonne d’argile et sciure de bois d’eucalyptusJournal of Applied Biosciences2014a756232623810.4314/jab.v75i1.9Search in Google Scholar
Rajhi H, Mnif I, Abichou M, Rhouma A. Assessment and valorization of treated and non-treated olive mill wastewater (OMW) in the dry region. Int. J. Recycl. Org. Waste Agricult. 2018;7:199–210.RajhiHMnifIAbichouMRhoumaAAssessment and valorization of treated and non-treated olive mill wastewater (OMW) in the dry regionInt. J. Recycl. Org. Waste Agricult2018719921010.1007/s40093-018-0206-xSearch in Google Scholar
Hamdi M. Valorisation et épuration des effluents des huileries d’olives: l’utilité de la microbiologie industrielle. Olivae. 1993;46:20–24.HamdiMValorisation et épuration des effluents des huileries d’olives: l’utilité de la microbiologie industrielleOlivae1993462024Search in Google Scholar
Amaral C, Marco SL, Joaõ C, Antonio L, Cresp I, Maria A, Célia P. Microbiological and physicochemical characterization of olive mill wastewaters from a continuous olive mill in Northeastern Portugal. Bioresource Technology. 2008;99:7215–7223.AmaralCMarcoSLJoaõCAntonioLCrespIMariaACéliaPMicrobiological and physicochemical characterization of olive mill wastewaters from a continuous olive mill in Northeastern PortugalBioresource Technology2008997215722310.1016/j.biortech.2007.12.058Search in Google Scholar
Hamdi M. Effects of agitation and pretreatment on the batch anaerobic digestion of olive mill wastewater. Bioresource Technology. 1991;36:173–178.HamdiMEffects of agitation and pretreatment on the batch anaerobic digestion of olive mill wastewaterBioresource Technology19913617317810.1016/0960-8524(91)90176-KSearch in Google Scholar
Assas N, Ayed L, Marouani L, Hamdi M. Decolorization of fresh and stored and stored-black olive mill wastewaters by Geotrichum candidum. Process Biochemistry. 2002;38:361–365.AssasNAyedLMarouaniLHamdiMDecolorization of fresh and stored and stored-black olive mill wastewaters by Geotrichum candidumProcess Biochemistry20023836136510.1016/S0032-9592(02)00091-2Search in Google Scholar
El-Abbassi A, Khayet M, Hafidi A. Micellar enhanced ultrafiltration process for the treatment of olive mill wastewater. Water Research. 2011;45:4522–4530.El-AbbassiAKhayetMHafidiAMicellar enhanced ultrafiltration process for the treatment of olive mill wastewaterWater Research2011454522453010.1016/j.watres.2011.05.04421714985Search in Google Scholar
Ouabou E, Anouar A, Hilali S. Traitement de la margine brute d’huile d’olive par distillation suivi de neutralisation par la chaux. Journal of Applied Biosciences. 2014b;79:6867–6872.OuabouEAnouarAHilaliSTraitement de la margine brute d’huile d’olive par distillation suivi de neutralisation par la chauxJournal of Applied Biosciences2014b796867687210.4314/jab.v79i1.12Search in Google Scholar
Procida G, Ceccon L. Gas chromatographic determination of free fatty acids in olive mill waste waters. Analytical Chimica Acta. 2006;561:103–106.ProcidaGCecconLGas chromatographic determination of free fatty acids in olive mill waste watersAnalytical Chimica Acta200656110310610.1016/j.aca.2006.01.008Search in Google Scholar
Capasso R, De Martino A, Arienzo M. Recovery and characterization of the metal polymeric organic fraction (polymerin) from olive oil mill wastewaters. J Agric Food Chem. 2002;50:2846–2855.CapassoRDeMartino AArienzoMRecovery and characterization of the metal polymeric organic fraction (polymerin) from olive oil mill wastewatersJ Agric Food Chem2002502846285510.1021/jf011442c11982410Search in Google Scholar
Zenjari I. Etude écotoxicologique des effluents liquides des huileries de la ville de Marrakech, impact sur les milieux récepteurs et détoxication. Thèse de Doctorat. Faculté des Sciences Semlalia, université Cadi Ayyad, Marrakech, Maroc. 2000;149.ZenjariIEtude écotoxicologique des effluents liquides des huileries de la ville de Marrakech, impact sur les milieux récepteurs et détoxicationThèse de Doctorat. Faculté des Sciences Semlalia, université Cadi Ayyad, Marrakech, Maroc2000149Search in Google Scholar
Mekki A, Dhouib A, Aloui F, Sayadi S. Olive wastewater as an ecological fertilizer. Agronomy for Sustainable Development. Springer Verlag/EDP Sciences/INRA. 2006;26:61–67.MekkiADhouibAAlouiFSayadiSOlive wastewater as an ecological fertilizerAgronomy for Sustainable Development. Springer Verlag/EDP Sciences/INRA200626616710.1051/agro:2005061Search in Google Scholar
Hamimed S, Jebli N, Sellami H, Landoulsi A, Chatti A. Dual Valorization of Olive Mill Wastewater by Bio-Nanosynthesis of Magnesium Oxide and Yarrowia lipolytica Biomass Production. Chem Biodiversity. 2020;17:e1900608.HamimedSJebliNSellamiHLandoulsiAChattiADual Valorization of Olive Mill Wastewater by Bio-Nanosynthesis of Magnesium Oxide and Yarrowia lipolytica Biomass ProductionChem Biodiversity202017e190060810.1002/cbdv.20190060832017363Search in Google Scholar
El Rhaouat O, Fareh M, Sarhan B, Benyouf S, Chiguer H, Rochdi M, Ould Abdlkader C, El Kharrim K, Belghyti D. Etude statistique et physico-chimique des margines d’extraction d’huile d’olive de la ville Sidi Kacem. International Journal of Innovation and Applied Studies. 2014;9:757– 764.ElRhaouat OFarehMSarhanBBenyoufSChiguerHRochdiMOuldAbdlkader CElKharrim KBelghytiDEtude statistique et physico-chimique des margines d’extraction d’huile d’olive de la ville Sidi KacemInternational Journal of Innovation and Applied Studies20149757–764Search in Google Scholar