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The effect of sonication and stirring on ultrafiltration of fermentation broth

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Membrane separation is a widely used technique whose main obstacle is membrane fouling, during which a solution or particles accumulate on the membrane surface or inside its pores. This phenomenon causes both reversible and irreversible flow resistances that can be minimized with complementary techniques such as sonication and/or stirring. The application of ultrasonic energy can increase the flux by breaking the concentration polarization and cake layer on the membrane surface without affecting the intrinsic permeability of the membrane. Our work focused on cellulase and β-glucosidase enzyme recovery through sonicated/stirred ultrafiltration from the real fermentation broth, at which the fermentation liquid was produced from tobacco plants. Membrane filtrations were carried out in a laboratory-grade batch ultrafiltration cell, extended with stirrer and ultrasound processor. The effects of stirring speed and ultrasound treatment were investigated on the membrane’s permeate flux efficiency and on the quality of recycled enzymes. Resistance values were calculated by the resistance-in-series model, as well as by Hermia’s analysis, to reveal deeper, process-related information. Our results revealed that enzymes could be efficiently separated from real fermentation broth. Furthermore, the enzyme activity test showed that neither stirred nor sonicated processes were detrimental to the enzyme activity.
Rocznik
Strony
49--62
Opis fizyczny
Bibliogr. 22 poz., tab., rys.
Twórcy
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
  • Department of Process Engineering, Faculty of Engineering, University of Szeged, 9 Moszkvai krt., Szeged, H6725, Hungary
Bibliografia
  • [1] LIU D., VOROBIEV E., SAVOIRE R., LANOISELLÉ J.L., Comparative study of ultrasound-assisted and conventional stirred dead-end microfiltration of grape pomace extracts, Ultrason. Son., 2013, 20, 708.
  • [2] SINGH S., SARMA S., AGARWAL M., GOYAL A., MOHOLKAR V.S., Ultrasound enhanced ethanol production from Parthenium hysterophorus. A mechanistic investigation, Biores. Technol., 2015, 188, 287.
  • [3] PRASAD S., SINGH A., JOSHI H.C., Ethanol as an alternative fuel from agricultural, industrial and urban residues, Res., Cons. Rec., 2007, 50 (1), 1.
  • [4] ŚWIERCZYŃSKA A., BOHDZIEWICZ J., Determination of the most effective operating conditions of membrane bioreactor used to industrial wastewater treatment, Environ. Prot. Eng., 2015, 41 (1), 41.
  • [5] ŚWIERCZYŃSKA A., BOHDZIEWICZ J., KAMIŃSKA G., WOJCIECHOWSKI K., Influence of the type of membrane- forming polymer on the membrane fouling, Environ. Prot. Eng., 2016, 42 (2), 197.
  • [6] GAJENDRAGADKAR C.N., GOGATE P.R., Intensified recovery of valuable products from whey by use of ultrasound in processing steps. A review, Ultrason. Son.., 2016, 32, 102.
  • [7] DELGADO-POVEDANO M.M., DE CASTRO M.D.L., A review on enzyme and ultrasound. A controversial but fruitful relationship, Anal. Chim. Acta, 2015, 889, 1.
  • [8] O’DONELL C.P., TIWARRI B.K., CULLEN P.J., Effect of ultrasonic processing on food enzymes of industrial importance, Trends Food Sci. Technol., 2010, 21, 385.
  • [9] TUULMETS A., RAIK P., Ultrasonic acceleration of ester hydrolyses, Ultrason. Son., 1999, 6, 85.
  • [10] VERCET A., BURGOS J., CRELIER S., LÓPEZ-BUESA P., Inactivation of proteases and lipases by ultrasound, Innov. Food Sci. Emerg. Technol., 2011, 2, 139.
  • [11] JADHAV S.H., GOGATE P.R., Ultrasound assisted enzymatic conversion of nonedible oil to methylesters, Ultason. Son., 2014, 21, 1374.
  • [12] FROMET M.T., LOCKRIDGE O., MASSON P., Resistance of butyrylcholinesterase of inactivation by ultrasound. Effect of ultrasound on catalytic activity and subunit association, Biochim. Biophys. Acta, 1998, 1387, 53.
  • [13] FIELD R., Fundamentals of fouling, [In:] K.-V. Peinemann, S.P. Nunes (Eds.), Membrane Technology, Vol. 4, Membranes for Water Treatment, Wiley, Weinheim 2010.
  • [14] SIMON A., GONDREXON N., TAHA S., CABON J., DORANGE G., Low frequency ultrasound to improve dead-end ultrafiltration performance, Sep. Sci. Technol., 2000, 35, 2619.
  • [15] GREEN D.W., PERRY R.H., Perry’s Chemical Engineers’ Handbook, 8th Ed., McGraw-Hill Professional, New York 2007.
  • [16] MCLAREN WHITE A., SUMERFORD S.D., BRYANT E.O., LUKENS B.E., Studies in agitation, Ind. Eng. Chem. 1932, 24 (10), 1160.
  • [17] RATONAINORO C.F., WILHELM A.M., BERLAN J., DELMAS H., Power measurement in sonochemistry, Ultrason. Son., 1995, 2, 543-547
  • [18] MOHAMMADI T., ESMAEELIFAR A., Wastewater treatment of a vegetable oil factory by a hybrid ultrafiltration- activated carbon process, J. Membr. Sci., 2005, 254, 129.
  • [19] HERMIA J., Constant pressure blocking filtration laws. Application to power law non-Newtonian fluids, Trans. Inst. Chem. Eng., 1982, 60, 183.
  • [20] VELA V.C.V., BLANCO S.A., GARCIA J.L., RODRIQUEZ E.B., Analysis of membrane pore blocking models adapted to crossflow ultrafiltration in the ultrafiltration of PEG, Chem. Eng. J., 2009, 149, 232.
  • [21] CHOO K.H., LEE C.H., Effect of anaerobic digestion broth composition on membrane permeability, Water Sci. Technol., 1996, 34, 173.
  • [22] ABELS C., CARTENSEN F., WESSLING M., Membrane processes in biorefinery application, J. Membr. Sci., 2013, 444, 285.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6ffff218-1dcc-44a1-ac35-50f35fb16438
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