References

1. A. El-Abbassi, H. Kiai, A. Hafidi, Phenolic profile and antioxidant activities of olive mill wastewater, Food Chem., 132 (2012) 406–412.
2. S. Dermeche, M. Nadour, C. Larroche, F. Moulti-Mati, P. Michaud, Olive mill wastes: biochemical characterizations and valorization strategies, Process Biochem., 48 (2013) 1532–1552.
3. R. Cossu, N. Blakey, P. Cannas, Influence of codisposal of municipal solid waste and olive vegetation water on the anaerobic digestion of a sanitary landfill, Water Sci. Technol., 27 (1993) 261–271.
4. M. Jusoh, R. Mohd. Yunus, M.A. Abu Hassan, Development of a New Crystallisation Chamber for a Progressive Freeze Concentration System, M.A. Strangio, Ed., Recent Advances in Technologies (Chapter 33), InTechOpen Europe, ISBN 978-953- 307-017-9, 2009, pp. 587–599.
5. N. Meksi, W. Haddar, S. Hammami, M.F. Mhenni, Olive mill wastewater: a potential source of natural dyes for textile dyeing, Ind. Crops Prod., 40 (2012) 103–109.
6. T. Yangui, S. Sayadi, A. Rhouma, A. Dhouib, Potential use of hydroxytyrosol-rich extract from olive mill wastewater as a biological fungicide against Botrytis cinerea in tomato, J. Pest Sci., 83 (2010) 437–445.
7. B. Mechri, H. Chehab, F. Attia, F.B. Mariem, M. Braham, M. Hammami, Olive mill wastewater effects on the microbial communities as studied in the field of olive trees by analysis of fatty acid signatures, Eur. J. Soil Biol., 46 (2010) 312–318.
8. N.A. Oz, A.C. Uzun, Ultrasound pretreatment for enhanced biogas production from olive mill wastewater, Ultrason. Sonochem., 22 (2015) 565–572.
9. I. Aviani, Y. Laor, S. Medina, A. Krassnovsky, M. Raviv, Co-composting of solid and liquid olive mill wastes: management aspects and the horticultural value of the resulting composts, Bioresour. Technol., 101 (2010) 6699–6706.
10. K. Gerasopoulos, D. Stagos, S. Kokkas, K. Petrotos, D. Kantas, P. Goulas, D. Kouretas, Feed supplemented with byproducts from olive oil mill wastewater processing increases antioxidant capacity in broiler chickens, Food Chem. Toxicol., 82 (2015) 42–49.
11. F.J. Rivas, F.J. Beltrán, O. Gimeno, J. Frades, Treatment of olive oil mill wastewater by Fenton’s reagent, J. Agric. Food Chem., 49 (2001) 1873–1880.
12. M.S. Fountoulakis, S.N. Dokianakis, M.E. Kornaros, G.G. Aggelis, G. Lyberatos, Removal of phenolics in olive mill wastewaters using the white-rot fungus Pleurotus ostreatus, Water Res., 36(2002) 4735–4744.
13. M. Drouiche, V. Le Mignot, H. Lounici, D. Belhocine, H. Grib, A. Pauss, N. Mameri, A compact process for the treatment of olive mill wastewater by combining OF and UV/H₂O₂ techniques, Desalination, 169 (2004) 81–88.
14. H. El Hajjouji, N. Fakharedine, G. Ait Baddi, P. Winterton, J.R. Bailly, J.C. Revel, M. Hafidi, Treatment of olive mill wastewater by aerobic biodegradation: an analytical study using gel permeation chromatography, ultraviolet–visible and Fourier transform infrared spectroscopy, Bioresour. Technol., 98 (2007) 3513–3520.
15. J.M. Ochando-Pulido, M. Stoller, L. Di Palma, A. Martinez-Ferez, Threshold performance of a spiral-wound reverse osmosis membrane in the treatment of olive mill effluents from two-phase and three-phase extraction processes, Chem. Eng. Process. Process Intensif., 83 (2014) 64–70.
16. A. Zyoud, H. Nassar, A. El-Hamouz, H.S. Hilal, Solid olive waste in environmental cleanup: enhanced nitrite ion removal by ZnCl₂-activated carbon, J. Environ. Manage., 152 (2015) 27–35.
17. M. Jeguirim, P. Dutournié, A.A. Zorpas, L. Limousy, Olive mill wastewater: from a pollutant to green fuels, agricultural water source and bio-fertilizer—part 1. The drying kinetics, Energies, 10 (2017) 1423, doi:10.3390/en10091423.
18. R. Zakia, E.H. Mounia, B. Mohammed, M. Zineb, L. Kenza, T. Mustapha, Z. Youness, R. Rabie, B. Hassan,
    N. Mostafa, Olive mill wastewater: treatment, valorization in the germination of tomato seeds and in the composting, J. Water Sci., 30 (2017) 57–62.
19. F. Elayadi, W. Boumya, M. Achak, Y. Chhiti, F.E.M. Alaoui, N. Barka, C.E. Adlouni, Experimental and modeling studies of the removal of phenolic compounds from olive mill wastewater by adsorption on sugarcane bagasse, Environ. Challenges, 4 (2021) 100184, doi: 10.1016/j.envc.2021.100184.
20. G. Tanguy, A. Dolivet, S. Méjean, D. Garreau, F. Talamo, P. Postet, R. Jeantet, P. Schuck, Efficient process for the production of permeate powders, Innovative Food Sci. Emerg. Technol., 41 (2017) 144–149.
21. S. Okawa, T. Ito, A. Saito, Effect of crystal orientation on freeze concentration of solutions, Int. J. Refrig., 32 (2009) 246–252.
22. A.L. Zydney, Membrane handbook edited by W.S. Winston Ho, and Kamalesh K. Sirkar, Van Nostrand Reinhold, New York, 1992, AIChE J., 41 (1995) 2343–2344.
23. A. Rich, Y. Mandri, Dessalement des eaux marines et saumâtres par congélation: Aspects thermodynamiques, cinétiques, paramétrique, thermique et énergétique, Éditions Universitaires Européennes,
    ISBN: 978-3-639-62264-5, 2017, 240 Pages.
24. Y. Mandri, A. Rich, D. Mangin, A. Rivoire, C. Bebon, J.P. Klein, T. Bounahmidi, A. et Bouhaouss, C. Cogné, Dessalement de L’eau de Mer Par Congélation, Revue Générale du Froid et du Conditionnement d’Air, N°1133, 2013, pp. 58–69.
25. F. Melak, A. Ambelu, G.D. Laing, E. Alemayehu, Freeze desalination as point of use water treatment technology: a case of chromium(VI) removal from water, Proceedings, 2 (2018) 173, doi: 10.3390/ecws-2-04942.
26. A. Najim, A review of advances in freeze desalination and future prospects, npj Clean Water, 5 (2022), doi:10.1038/ s41545-022-00158-1.
27. P. Orellana-Palma, G. Petzold, M. Guerra-Valle, M. Astudillo- Lagos, Impact of block cryoconcentration on polyphenol retention in blueberry juice, Food Biosci., 20 (2017) 149–158.
28. M. Guessous, A. Rich, S. Mountadar, F.Z. Karmil, J. El Hajri, M. Mountadar, M. Siniti, Experimental study of wastewater treatment containing sulfuric acid solutions using freezing and thawing method, Desal. Water Treat., 211 (2021) 141–152.
29. S. Samsuri, N.A. Amran, N. Yahya, M. Jusoh, Review on progressive freeze concentration designs, Chem. Eng. Commun., 203 (2016) 345–363.
30. A. Rich Y. Mandri, N. Bendaoud, D. Mangin, S. Abderafi, C. Bebon, N. Semlali, J.-P. Klein, T. Bounahmidi, A. Bouhaouss, S. Veesler, Freezing desalination of sea water in a static layer crystallizer, Desal. Water Treat., 13 (2010) 120–127.
31. A. Rich, Y. Mandri, D. Mangin, A. Rivoire, S. Abderafi, C. Bebon, N. Semlali, J.-P. Klein, T. Bounahmidi, A. Bouhaouss, S. Veesler, Sea water desalination by dynamic layer melt crystallization: parametric study of the freezing and sweating steps, J. Cryst. Growth, 342 (2012) 110–116.
32. M. Rich, D. Siniti, D. Mangin, J.-P. Klein, Y. Mandri, T. Bounahmidi, A. Bouhaouss, S. Veesler, M. El Ganaoui, Study of a melt crystallization process for seawater desalination, J. Mech. Eng. Autom., 5 (2015) 45–52.
33. Y. Mandri, A. Rich, D. Mangin, S. Abderafi, C. Bebon, N. Semlali, J.-P. Klein, T. Bounahmidi, A. Bouhaouss, Parametric study of the sweating step in the seawater desalination process by indirect freezing, Desalination, 269 (2011) 142–147.
34. E. Hernández, A. Santos, N. Pazmiño, M. Raventós, M. Blanco, F.L. Moreno, Y. Ruiz, A. Rich, S. Samsuri, Two strategies for freeze desalination of seawater by progressive and block techniques, Desal. Water Treat., 215 (2021) 1–9.
35. A. Balde, M. Aïder, Effect of cryoconcentration, reverse osmosis and vacuum evaporation as concentration step of skim milk prior to drying on the powder properties, Powder Technol., 319 (2017) 463–471.
36. P. Guillermo, O. Patricio, M. Jorge, V. Prisila, Physico-chemical properties of cryoconcentrated orange juice, Chem. Eng. Trans., 75 (2019) 37–42.
37. S. Mountadar, M. Guessous, A. Rich, F.Z. Karmil, H. El Alaoui Belghiti, M. Siniti, S. Tahiri, Desalination of spent ionexchange resin regeneration solutions by suspension freeze crystallization, Desalination, 468 (2019) 114059, doi: 10.1016/j. desal.2019.06.025.
38. T. Htira, C. Cogné, G. Gagnière, D. Mangin, Experimental study of industrial wastewater treatment by freezing, J. Water Process Eng., 23 (2018) 292–298.
39. AFNOR, French Association for Standardization, Collection of Standards, Water, Essay Methods, Edition 1987, 1989.
40. F.L. Moreno, E. Hernández, M. Raventós, C. Robles, Y. Ruiz, A process to concentrate coffee extract by the integration of falling film and block freeze-concentration, J. Food Eng., 128 (2014) 88–95.
41. L. Chaari, N. Elloumi, S. Mseddi, K. Gargouri, B.B. Rouina, T. Mechichi, M. Kallel, Changes in soil macronutrients after a long-term application of olive mill wastewater, J. Agric. Chem. Environ., 4 (2015) 1–13.
42. M. Hamdi, J.L. Garcia, Comparison between anaerobic filter and anaerobic contact process for fermented olive mill wastewaters. Bioresour. Technol., 38 (1991) 23–29.
43. N. Assas, L. Ayed, L. Marouani, M. Hamdi, Decolorization of fresh and stored-black olive mill wastewaters by Geotrichum candidum, Process Biochem., 38 (2002) 361–365.
44. T. Htira, C. Cogné, E. Gagnière, D. Mangin, Determination of the solid–liquid phase diagram of the binary system propionic acid/water, J. Chem. Eng. Data, 61 (2016) 806–812.
45. M. Hamdi, J.L. Garcia, R. Ellouz, Integrated biological process for olive mill wastewater treatment, Bioprocess Eng., 8 (1992) 79–84.
46. J.S. Ribeiro, S.S. Ok, S. Garrigues, M. de la Guardia, FTIR tentative characterization of humic acids extracted from organic materials, Spectrosc. Lett. Int. J. Rapid Commun., 34 (2001) 179–190.
47. G. Ait Baddi, J.A. Alburquerque, J. Gonzálvez, J. Cegarra, M. Hafidi, Chemical and spectroscopic analyses of organic matter transformations during composting of olive mill wastes, Int. Biodeterior. Biodegrad., 54 (2004) 39–44.
48. C. Peltre, S. Bruun, C. Du, I.K. Thomsen, L.S. Jensen, Assessing soil constituents and labile soil organic carbon by mid-infrared photoacoustic spectroscopy, Soil Biol. Biochem., 77 (2014) 41–50.
49. J. Hejzlar, B. Szpakowska, R.L. Wershaw, Comparison of humic substances isolated from peatbog water by sorption on DEAEcellulose and amberlite XAD-2, Water Res., 28 (1994) 1961–1970.