Page 483 - Polymer-based Nanocomposites for Energy and Environmental Applications
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436 Polymer-based Nanocomposites for Energy and Environmental Applications
[96] Kumar R, Pal P. Response surface-optimized Fenton’s pre-treatment for chemical
precipitation of struvite and recycling of water through downstream nanofiltration. Chem
Eng J 2012;210:33–44.
[97] Kumar R, Pal PA. Novel forward osmosis-nano filtration integrated system for coke-
oven wastewater reclamation. Chem Eng Res Des 2015;100:542–53.
[98] Jin X, Li E, Lu S, Qiu Z, Sui Q. Coking wastewater treatment for industrial reuse purpose:
combining biological processes with ultrafiltration, nanofiltration and reverse osmosis.
J Environ Sci 2013;25(8):1565–74.
[99] Amin M, Alazba A, Manzoor UA. Review of removal of pollutants from water/waste-
water using different types of nanomaterials. Adv Mater Sci Eng 2014;2014.
[100] Lubick N, Betts K. Silver socks have cloudy liningj court bans widely used flame
retardant. Environ Sci Technol 2008;11(42):3910.
[101] Chan K, Brownstein A. Ceramic membranes: growth prospects and opportunities.
Am Ceram Soc Bull 1991;70(4):703–7.
[102] Van Gestel T, Vandecasteele C, Buekenhoudt A, Dotremont C, Luyten J, Leysen R, et al.
Alumina and titania multilayer membranes for nanofiltration: preparation, characteriza-
tion and chemical stability. J Membr Sci 2002;207(1):73–89.
[103] Alem A, Sarpoolaky H, Keshmiri M. Sol-gel preparation of titania multilayer membrane
for photocatalytic applications. Ceram Int 2009;35(5):1837–43.
[104] Leenaars A, Burggraaf A. The preparation and characterization of alumina membranes
with ultrafine pores. 2. The formation of supported membranes. J Colloid Interface Sci
1985;105(1):27–40.
[105] Morozova ´ M, Kluson P, Krysa J, Vesely M, Dzik P, Solcova O. Electrochemical proper-
ties of TiO 2 electrode prepared by various methods. Proc Eng 2012;42:573–80.
[106] Choi H, Stathatos E, Dionysiou DD. Sol–gel preparation of mesoporous photocatalytic
TiO 2 films and TiO 2 /Al 2 O 3 composite membranes for environmental applications. Appl
Catal B Environ 2006;63(1):60–7.
[107] Dehkordi NH, Shayesteh M, Afarani MS, Samimi A. Effect of ammonium nitrate on
microstructure and permeability characteristics of tubular alumina support using slip
casting fabrication method. J Ceram Proc Res 2013;14:472–5.
[108] Leenaars A, Keizer K, Burggraaf A. The preparation and characterization of alumina
membranes with ultra-fine pores. J Mater Sci 1984;19(4):1077–88.
[109] Madaeni S, Ghaemi N. Characterization of self-cleaning RO membranes coated with
TiO 2 particles under UV irradiation. J Membr Sci 2007;303(1):221–33.
[110] Shayesteh M, Samimi A, Shafiee Afarani M, Khorram M. Synthesis of titania-γ-alumina
multilayer nanomembranes on performance-improved alumina supports for wastewater
treatment. Desalin Water Treat 2015;57(20):9115–22.
[111] Vatanpour V, Madaeni SS, Moradian R, Zinadini S, Astinchap B. Novel antibifouling
nanofiltration polyethersulfone membrane fabricated from embedding TiO 2 coated
multiwalled carbon nanotubes. Sep Purif Technol 2012;90:69–82.
[112] Rashidi H, Sulaiman NN, Hashim N. Batik industry synthetic wastewater treatment using
nanofiltration membrane. Proc Eng 2012;44:2010–2.
[113] Kanjwal MA, Barakat NA, Sheikh FA, Khil MS, Kim HY. Functionalization of
electrospun titanium oxide nanofibers with silver nanoparticles: strongly effective
photocatalyst. Int J Appl Ceram Technol 2010;7(s1):E54–63.
[114] Thakura R, Chakrabortty S, Pal P. Treating complex industrial wastewater in a new
membrane-integrated closed loop system for recovery and reuse. Clean Technol Environ
Policy 2015;17(8):2299–310.
