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2017 | Vol. 43, nr 3 | 125--141
Tytuł artykułu

Use of ultrafiltration and nanofiltration processes for the elimination of three selected emerging contaminants: amitriptyline hydrochloride, methyl salicylate and 2-phenoxyethanol

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Three emerging contaminants: amitriptyline hydrochloride (AH), methyl salicylate (MS) and 2-phenoxyethanol (PE) were treated by means of filtration processes for their elimination from ultrapure (UP) water in a first stage, and from three water matrices (surface water from a reservoir, and two effluents from two municipal wastewater treatment plants) in a second stage. For this purpose, ultrafiltration and nanofiltration membranes were used in a cross-flow laboratory equipment. The permeate fluxes at the steady state were determined, and the resistances to the permeate flux were established. It was found that the inherent resistance of the clean membranes provided a much larger resistance than the fouling resistance. The retention coefficients for each individual contaminant were evaluated, as well as the retention coefficients referred to three water quality parameters: absorbance at 254 nm, COD and TOC. These parameters provide the effectiveness of the filtration processes for the elimination of the organic matter present in the selected water matrices.
Wydawca

Rocznik
Strony
125--141
Opis fizyczny
Bibliogr. 22 poz., tab., rys.
Twórcy
  • Chemical Engineering Department, Universidad de Extremadura, 06006 Badajoz, Spain, javben@unex.es
autor
  • Chemical Engineering Department, Universidad de Extremadura, 06006 Badajoz, Spain
autor
  • Chemical Engineering Department, Universidad de Extremadura, 06006 Badajoz, Spain
autor
  • Chemical Engineering Department, Universidad de Extremadura, 06006 Badajoz, Spain
Bibliografia
  • [1] BOLONG N., ISMAIL A.F., SALIM M.R., MATSUURA T., A review of the effects of emerging contaminants in wastewater and options for their removal, Desalination, 2009, 239, 229.
  • [2] JELIC A., GROS M., GINEBREDA A., CESPEDES-SANCHEZ R., VENTURA F., PETROVIC M., BARCELO D., Occurrence, partition and removal of pharmaceuticals in sewage water and sludge during wastewater treatment, Water Res., 2011, 45, 1165.
  • [3] PETRIE B., BARDEN R., KASPRZYK-HORDERN B., A review on emerging contaminants in wastewaters and the environment: Current knowledge, understudied areas and recommendations for future monitoring, Water Res., 2015, 72, 3.
  • [4] TIJANI O.J., FATOBA O.O., PETRIK L.F., A review of pharmaceuticals and endocrine-disrupting compounds: sources, effects, removal and detections, Water Air Soil Poll., 2013, 224, 1770.
  • [5] SIM W-J., LEE J-W., LEE E-S., SHIN S-K., HWANG S-R., OH J-E., Occurrence and distribution of pharmaceuticals in wastewater from households, livestock farms, hospitals and pharmaceutical manufactures, Chemosphere, 2011, 82, 179.
  • [6] YOON Y., WESTERHOFF W., SNYDER S.A., WERT E.C., Nanofiltration and ultrafiltration of endocrine disrupting compounds, pharmaceuticals and personal care products, J. Membr. Sci., 2006, 270, 88.
  • [7] KIM J.H., PARK P.K., LEE C.H., KWON H.H., Surface modification of nanofiltration membranes to improve the removal of organic micro-pollutants (EDCs and PhACs) in drinking water treatment: graft polymerization and cross-linking followed by functional group substitution, J. Membr. Sci., 2008, 321, 190.
  • [8] VERLIEFDE A.R.D., CORNELISSEN E.R., HEIJMAN S.G.J., PETRINIC I., LUXBACHER T., AMY G.L., VAN DER BRUGGEN B., VAN DIJK J.C., Influence of membrane fouling by (pretreated) surface water on rejection of pharmaceutically active compounds (PhACs) by nanofiltration membranes, J. Membr. Sci., 2009, 330, 90.
  • [9] WRAY H.E., ANDREWS R.C., BERUBE P.R., Surface shear stress and retention of emerging contaminants during ultrafiltration for drinking water treatment, Sep. Purif. Technol., 2014, 122, 183.
  • [10] VERLIEFDE A.R.D., HEIJMAN S.G.J., CORNELISSEN E.R., AMY G., VAN DER BRUGGEN B., VAN DIJK J.C., Nanofiltration as a treatment method for the removal of pesticides from groundwater, Water Res., 2007, 41, 139.
  • [11] ANWAR SADMANI A.H.M., ANDREWS R.C., BAGLEY D.M., Nanofiltration of pharmaceutically active compounds as a function of compound interactions with DOM fractions and cations in natural water, Sep. Purif. Technol., 2014, 122, 462.
  • [12] PARK N., LEE Y., LEE S., CHO J., Removal of taste and odor model compound (2,4,6-trichloroanisole) by tight ultrafiltration membranes, Desalination, 2007, 212, 28.
  • [13] JIN X., HU J., ONG S.L., Influence of dissolved organic matter on estrone removal by NF membranes and the role of their structure, Water Res., 2007, 41, 3077.
  • [14] BENITEZ F.J., LEAL A.I., REAL F.J., ACERO J.L., ROLDAN G., Elimination of organic matter present in wastewaters from the cork industry by membrane filtration, J. Chem. Tech. Biotech., 2008, 83, 309.
  • [15] CLESCERI L.S., GREENBERG A.E., EATON A.D., Standard Methods for the Examination of Water and Wastewater, 20th Ed., APHA-AWWA-WPCF, Washington, DC, 1999.
  • [16] ZHANG Y., VAN DER BRUGGEN B., CHEN G.X., BRAEKEN L., VANDECASTEELE C., Removal of pesticides by nanofiltration: effect of the water matrix, Sep. Purif. Technol., 2004, 38, 163.
  • [17] AL-AMOUDI A., WILLIANS P., MANDELE S., LOVITT R.W., Cleaning results of new and fouled nanofiltration membrane characterized by zeta potential and permeability, Sep. Purif. Technol., 2007, 54, 234.
  • [18] COMERTON A.M., ANDREWS R.C., BAGLEY D.M., HAO C., The rejection of endocrine disrupting and pharmaceutically active compounds by NF and RO membranes as a function of compound and water matrix properties, J. Membr. Sci., 2008, 313, 323.
  • [19] MAXIMOUS N., NAKHLA G., WAN W., Comparative assessment of hydrophilic membrane fouling in wastewater applications, J. Membr. Sci., 2009, 339, 93.
  • [20] NGHIEM L.D., COLEMAN P.J., ESPENDILLER C., Mechanisms underlying the effects of membrane fouling on the nanofiltration of trace organic contaminants, Desalination, 2010, 250, 682.
  • [21] CASSANO A., DONATO L., DRIOLI E., Ultrafiltration of kiwifruit juice. Operating parameters, juice quality and membrane fouling, J. Food Engng., 2007, 79, 613.
  • [22] CHEN S-S., TAYLOR J.S., MULFORD L.A., NORRIS C.D., Influences of molecular weight, molecular size, flux, and recovery for aromatic pesticide removal by nanofiltration membranes, Desalination, 2004, 160, 103.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-7090eea9-fe6a-482f-acc1-7d3f4ba941e3
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