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  1. AU="Lutin, Florence"
  2. AU="Cheung, D Y T"
  3. AU="Shaishta, Naghma"
  4. AU=Zhao Mengyi
  5. AU="Liang, Dejin"
  6. AU="Yeşim YENİ"
  7. AU="Sivlér, Tobias"
  8. AU=Datta Srayan
  9. AU="Masoud Behzadifar"
  10. AU="Jonathan Fuld"
  11. AU="López-Caballero, María Guadalupe"
  12. AU="Rawlinson, Jennifer R"
  13. AU="Priti N Mody-Pan"
  14. AU="Yunusov, Marat S"
  15. AU=Peever John
  16. AU="Khosravi, Majid"
  17. AU="Xiang, La"
  18. AU="Sag, Duygu"
  19. AU="Khatiri Yanehsari, M."
  20. AU="Cooke, Georga"
  21. AU="Stefanello, Bianca"
  22. AU="Cummings, Brian J"
  23. AU=Yu Xiongwu
  24. AU=Greenland Sander
  25. AU=Deanfield John
  26. AU="Vu, Hung"
  27. AU="Soucek, Alexander"
  28. AU="Rihui Su"
  29. AU="Campbell, Steve"

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  1. Artikel: Identification of Fouling Occurring during Coupled Electrodialysis and Bipolar Membrane Electrodialysis Treatment for Tofu Whey Protein Recovery.

    Deschênes Gagnon, Rosie / Langevin, Marie-Ève / Lutin, Florence / Bazinet, Laurent

    Membranes

    2024  Band 14, Heft 4

    Abstract: Tofu whey, a by-product of tofu production, is rich in nutrients such as proteins, minerals, fats, sugars and polyphenols. In a previous work, protein recovery from tofu whey was studied by using a coupled environmental process of ED + EDBM to valorize ... ...

    Abstract Tofu whey, a by-product of tofu production, is rich in nutrients such as proteins, minerals, fats, sugars and polyphenols. In a previous work, protein recovery from tofu whey was studied by using a coupled environmental process of ED + EDBM to valorize this by-product. This process allowed protein recovery by reducing the ionic strength of tofu whey during the ED process and acidifying the proteins to their isoelectric point during EDBM. However, membrane fouling was not investigated. The current study focuses on the fouling of membranes at each step of this ED and EDBM process. Despite a reduction in the membrane conductivities and some changes in the mineral composition of the membranes, no scaling was evident after three runs of the process with the same membranes. However, it appeared that the main fouling was due to the presence of isoflavones, the main polyphenols in tofu whey. Indeed, a higher concentration was observed on the AEMs, giving them a yellow coloration, while small amounts were found in the CEMs, and there were no traces on the BPMs. The glycosylated forms of isoflavones were present in higher concentrations than the aglycone forms, probably due to their high amounts of hydroxyl groups, which can interact with the membrane matrices. In addition, the higher concentration of isoflavones on the AEMs seems to be due to a combination of electrostatic interactions, hydrogen bonding, and π-π stacking, whereas only π-π stacking and hydrogen bonds were possible with the CEMs. To the best of our knowledge, this is the first study to investigate the potential fouling of BPMs by polyphenols, report the fouling of IEMs by isoflavones and propose potential interactions.
    Sprache Englisch
    Erscheinungsdatum 2024-04-11
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article
    ZDB-ID 2614641-1
    ISSN 2077-0375
    ISSN 2077-0375
    DOI 10.3390/membranes14040088
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  2. Artikel ; Online: Purification of organic acids by chromatography with strong anionic resins: Investigation of uptake mechanisms.

    Lemaire, Julien / Blanc, Claire-Line / Lutin, Florence / Théoleyre, Marc-André / Stambouli, Moncef / Pareau, Dominique

    Journal of chromatography. A

    2016  Band 1458, Seite(n) 63–69

    Abstract: Bio-based organic acids are promising renewable carbon sources for the chemical industry. However energy-consuming purification processes are used, like distillation or crystallization, to reach high purities required in some applications. That is why ... ...

    Abstract Bio-based organic acids are promising renewable carbon sources for the chemical industry. However energy-consuming purification processes are used, like distillation or crystallization, to reach high purities required in some applications. That is why preparative chromatography was studied as an alternative separation technique. In a previous work dealing with the purification of lactic, succinic and citric acids, the Langmuir model was insufficient to explain the elution profiles obtained with a strong anionic resin. Consequently the Langmuir model was coupled with a usual ion-exchange model to take into account the retention of their conjugate bases (<2%), which are commonly neglected at low pH (<1.5). Elution simulations with both uptake mechanisms fitted very well with experimental pulse tests. Only two parameters were optimized (equilibrium constant of acid uptake and ion-exchange selectivity coefficient of conjugate base) and their value were coherent with experimental and resin suppliers' data. These results confirmed that the singular tailing and apparent delay observed with succinic and citric acids can be explained by the high affinity of succinate and citrate for resin cationic sites. The model was implemented in a preparative chromatography simulation program in order to optimize operating parameters of our pilot-scale ISMB unit (Improved Simulated Moving Bed). The comparison with experimental ISMB profiles was conclusive.
    Mesh-Begriff(e) Anion Exchange Resins/chemistry ; Anions/chemistry ; Cations/chemistry ; Chromatography, Ion Exchange/methods ; Citric Acid/chemistry ; Citric Acid/isolation & purification ; Hydrogen-Ion Concentration ; Ion Exchange ; Models, Chemical ; Succinic Acid/chemistry ; Succinic Acid/isolation & purification
    Chemische Substanzen Anion Exchange Resins ; Anions ; Cations ; Citric Acid (2968PHW8QP) ; Succinic Acid (AB6MNQ6J6L)
    Sprache Englisch
    Erscheinungsdatum 2016-08-05
    Erscheinungsland Netherlands
    Dokumenttyp Journal Article
    ZDB-ID 1171488-8
    ISSN 1873-3778 ; 0021-9673
    ISSN (online) 1873-3778
    ISSN 0021-9673
    DOI 10.1016/j.chroma.2016.06.057
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  3. Artikel: Athermal concentration by osmotic evaporation of roselle extract, apple and grape juices and impact on quality

    Cissé, Mady / Vaillant, Fabrice / Bouquet, Sonia / Pallet, Dominique / Lutin, Florence / Reynes, Max / Dornier, Manuel

    Innovative food science & emerging technologies. 2011 July, v. 12, no. 3

    2011  

    Abstract: Osmotic evaporation (or osmotic distillation) was carried out on roselle extract, apple and grape juices. The industrial pilot plant used had a hydrophobic, polypropylene, hollow-fiber membrane with an area of 10.2m² and an average pore diameter of 0.2μm. ...

    Abstract Osmotic evaporation (or osmotic distillation) was carried out on roselle extract, apple and grape juices. The industrial pilot plant used had a hydrophobic, polypropylene, hollow-fiber membrane with an area of 10.2m² and an average pore diameter of 0.2μm. It was suitable for concentrating vegetable extracts and fruit juices, and controlled various parameters such as temperature, flow velocity, and brine concentration. The final total soluble solids (TSS) contents achieved were 660, 570, and 610gkg⁻¹ for grape juice, apple juice, and roselle extract, respectively. Temperature and concentration of solutions significantly influenced evaporation flux, which, for roselle extract, was 1.5kgh⁻¹ m⁻² at 610gTSSkg⁻¹ and 45°C. The physico-chemical, biochemical, and aromatic qualities of concentrates obtained by osmotic evaporation were much higher than those of thermal concentrates, and close to those of the initial products. Industrial relevance: Membrane processes are increasingly used to concentrate thermo-sensitive fruit juices and plant extracts. Their capacity to operate at moderate temperatures and pressures means that their energy consumption is low, while they produce good quality concentrates. Nonetheless, the main disadvantage of baromembrane processes is their inability to reach the concentration levels standard for products of thermal evaporation because of limitations resulting from high osmotic pressure. Actually, reverse osmosis membranes and equipment limit the final concentration of fruit juices to about 25-35°Brix. Osmotic evaporation has attracted considerable interest, as it can concentrate juices to as much as 65°Brix. This process, when applied to various juices, better preserves the quality of raw materials. However, because of the geometrical limitations of commercially available membranes and modules, juices must first be clarified. To our knowledge, only a few studies on osmotic evaporation have so far been conducted at a semi-industrial scale and never with roselle extracts.
    Schlagwörter Hibiscus sabdariffa ; apple juice ; distillation ; energy ; equipment ; evaporation ; fruit extracts ; grape juice ; juice concentrates ; juice quality ; osmotic pressure ; polypropylenes ; raw materials ; reverse osmosis ; temperature ; total soluble solids ; vegetable extracts
    Sprache Englisch
    Erscheinungsverlauf 2011-07
    Umfang p. 352-360.
    Erscheinungsort [Amsterdam]: Elsevier Science
    Dokumenttyp Artikel
    ZDB-ID 2025029-0
    ISSN 1466-8564
    ISSN 1466-8564
    DOI 10.1016/j.ifset.2011.02.009
    Datenquelle NAL Katalog (AGRICOLA)

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