156  Membranes for lndustrial  Wastewater Recovery and Re-use


            ETBPP  (1997). Water and chemical use in the textile dyeing  and finishing
          industry. Guidance note GG62.
            Gaeta, S.N. and Fedele, U.  (1991). Recovery of water and auxiliary chemicals
          from effluents of textile dyehouses. Desalination, 83,18 3-1 93.
            Glover, B.  and Hill, L.  (1993). Waste minimization  in the dyehouse. Textile
          Chemist andcolorist, 25, 15.
            Groves,  G.R.  and  Buckley,  C.A.  (1980). Treatment of  textile  effluents  by
          membrane separation processes. In Proc. 7th Int. Symp. on Fresh Water from the
          Sea. Eur. Fed. Chem. Eng., 2,249-257.
            Groves, G.R. and Buckley, C.A., and Dalton, G.L.  (1978). Textile size and water
          recovery by means of ultrafiltration. Prog. Wat. Tech., 10,269-2 77.
            Hitz,  H.R.,  Huber,  W.  and Reed,  R.H.  (1978). The  adsorption  of  dyes  on
          activated sludge. J. SOC. Dyers and Colourists, 92, 71.
            Horning,  R.H.  (19 78).  Textile  dyeing  wastewaters:  characterization  and
          treatment.  US  Department  of  Commerce,  National  Technical  Information
          Service (PB-2 8 5 1 15).
            Lin,  S.H.  and  Lin,  C.M.  (1993). Treatment  of  textile  waste  effluents  by
          ozonation and chemical coagulation. Water Res., 27,1743-1 748.
            Lin, S.H. and Peng, C.F. (1996). A continuous treatment of textile wastewater
          by  combined  coagulation,  electrochemical  oxidation  and  activated  sludge.
          Water Res., 30,587-592.
            Little, L.W. (1978). Measurement of color in textile dyeing wastewater. Proc.
          Symp. Textile Ind. Technol., Williamsburg, VA, pp. 307-310.
            LorenCo,  N.D,  Noucis,  J.M.  and  Pinheiro,  H.M.  (2001). Effect  of  some
          operational  parameters  on  textile  dye  biodegradation  in  a  sequential  batch
          reactor.  J. Biotechnol., 89,163-1 74.
            Majewska-Nowak,  K.  (1 989).  Synthesis  and  properties  of  polysulphone
          membranes. Desalination, 71,83-95.
            Majewska-Nowak, K. and Winnicki, T. (1984). The usability of polysulphone
          membranes for  removal  of organic dyes  from  aqueous solutions.  Studies  in
          Environmental Science, 23.38 7.
            Majewska-Nowak, K., Winnicki, T. and Wisniewski, J. (1989) Synthesis and
          properties of polysulphone membranes. Desalination, 71,12 7.
            Marcucci,  M.,  Nosenzo,  G.,  Capannelli,  G.,  Ciabatti,  I.,  Corrieri,  D.  and
          Ciardelli,  G.  (2001). Treatment and reuse  of textile  effluents  based  on  new
          ultrafiltration and other membrane technologies. Desalination, 13 8, 75-82.
            Matsui,  M.  (1996).  Ozonation.  In  Riefe,  A.  and  Freeman,  H.  (eds.)
          Environmental chemistries of dyes and pigments. Wiley, London.
            Mattioli, D., Malpei, F., Bortone, G. and Rozzi, A. (2002). Water minimisation
          and reuse in the textile industry. In Lens, P., Hulshoff Pol, L., Wilderer, P. and
          Asano,  T.  (eds.)  Water  recycling  and  resource  recovery  in  industry.  IWA
          Publishing, London, pp. 545-584.
            NCDNER  (1995).  Case  study:  Sara  Lee  Knit  Products,  North  Carolina
          Department of Environment and Natural Resources.
            Nolan,  W.F.  (1972). Analysis  of  water  pollution  abatement in  the textile
          industry. MSc thesis, Clemson University, Clemson,  USA.