Koomesh
Journal of Semnan University of Medical Sciences
Outlines
Application of novel methods in environmental and health hazardous pollutants removal using nanophotocatalysts
Author(s):
Published online:Dec 28, 2016
Article type:Research Article
Received:Sep 01, 2016
Accepted:Nov 01, 2016
How to Cite:Nassehinia H, Rahmani A, Ghaieny G, Mehdinia SM. Application of novel methods in environmental and health hazardous pollutants removal using nanophotocatalysts. koomesh. 2016;18(3):e151119. doi:
Abstract
References
- 1.Nassehnia SM, Gholami M, Godarzy M, Ataiy nazari A. Survey of quantity and quality content of hazardous wastes and its management in Damghan industries in 2010. Iran Occupational Health 2014; 10: 63-70 (Persian).
- 2.Mehdinia SM, AbdulLatif P, Taghipour H. Investigation of the capability of regenerated rice husk silica to remove hydrogen sulfide pollution. Koomesh 2012; 14: 86-90. (Persian).
- 3.Nassehinia HR, Gholami M, Jonidijafari A. Comparison of benzene & toluene removal from synthetic polluted air with use of Nano photocatalyticTiO2/ ZNO process. J Environ Health Sci Eng 2014; 12: 45.
- 4.Ghaneian M, Jamshidi B, Amrollahi M, Dehvari M, Taghavi M. Application of biosorption process by pomegranate seed powder in the removal of hexavalent chromium from aquatic environment. Koomesh 2014; 15: 206-211. (Persian).
- 5.Augugliaro V, Coluccia S, Loddo V, Marchese L, Martra G. Performance of heterogeneous photo catalytic systems: Influence of operational variables on photo activity of aqueous suspensions of TiO2. Catalyst 1995; 153: 32-40.
- 6.Laksana L, Grisdanarak N. Photo catalytic degradation of benzene, toluene, ethyl benzene and xylene using Transition metal- doped titanium dioxide immobilized on fiber glass cloth. Chem Eng J 2012; 29: 377-383.
- 7.Qijin G, Qingjie G, Changing C. Investigation into photo catalytic degradation of gaseous benzene in a circulated photo catalytic reactor. Chem Eng Technol 2008; 31: 1-9.
- 8.Rezaee A, Pourtaghi Gh, Khavanin A, Sarraf Mamoory R, Ghaneian MT, Godini H. Photo catalytic decomposition of gaseous toluene by TiO2 nanoparticles coated on Activated Carbon. Iranian J Environ Health Sci Eng 2008; 5: 305-310.
- 9.Kabra K, Chaudhary R, Sawhney R. Treatment of hazardous organic and inorganic compounds through aqueous-phase photo catalysis: A Review. Ind Eng Chem Res 2004; 43: 7683-7696.
- 10.Ray AK, Beenackers AA. Novel Swirl- Flow Reactor for Kinetics Studies of Semiconductor Photo catalysis. AIChE Journal.1997; 43: 2570-2571.
- 11.Daneshvar N, Salari D, Khataee A. Photo catalytic degradation of azo dye acid red 14 in water on ZnO as an alternative catalyst to TiO2. J Photochem Photobiol A: Chem 2004; 162: 317-322. (Persian).
- 12.Masschelein W, Rip G. Ultraviolet Light in Water and Wastewater Sanitation. New Jersey: Lewis Pub; 2002. P. 1108-1114.
- 13.Akyol A,Yatmaz H, Bayramoglu M. Photo catalytic dechlorization of remazol Red RR in aqueous ZnO suspensions. Applied Catalysis B Environmental 2004; 54(1): 19-24.
- 14.Michael B, Saffa R, Mark G. Photo catalytic reactors: design for effective air purification. Int J Low Carbon Technol 2006; 1: 47-58.
- 15.Nassehinia HR, Gholami M, Jonidijafari A. Application of nano photo catalytic, ZnO and TiO2 nano particles and UV processes in BTEX compounds removal from synthetic polluted air. Ph.D thesis, Tehran: Iran university of medical sciences. The School of Public Health 2014. (Persian).
- 16.Hosseini S, Borghei SM, Vossoughi M, Taghavinia N. Immobilization of TiO2 on perlite granules for photo catalytic degradation of phenol. Appl Catalysis B: Environ 2007; 74: 53-62. (Persian).
- 17.Rico R, Lattes A. Heterogeneous Photo catalysis. New Jersey: Wiley; 1997.
- 18.Lasa HD, Serrano B, Salaices M. Photo catalytic Reaction Engineering. New York: Springer Science; 2005.
- 19.Haghi AK, Thomas S, Mirmahaleh MM. Foundations of nano technology (1). New Jersey: Taylor & Francis group; 2015.
- 20.Ao C, Lee S. Indoor air purification by photocatalyst TiO2 immobilizedon an activated carbon filter installed in an air cleaner. Chem Eng Sci 2005; 60: 103-109.
- 21.Haghi AK, Thomas S, Mirmahaleh MM. Foundations of nano technology (2). New Jersey: Taylor & Francis group; 2015.
- 22.Nassehinia HR, Gholami M, Jonidi jafari A. Evaluation of nano photo catalytic process application by ZnO nanoparticle and UV on benzene removal from synthetic air. Asian J Chem 2013; 25. (Persian).
- 23.Andreozzi R, Caprio V, Insola A. Photo catalytic oxidation of 4-nitrophenol in aqueous TiO2 slurries: An experimental validation of literature kinetic models. Chem Tech Biotech 2000; 75: 131-136.
- 24.Al-Ekabi H, Serpone N. TiO2 Advanced photo-oxidation technology: Effect of electron acceptors, in photo catalytic purification and treatment of water and air. NewYork: Elsevier; 1993.
- 25.Buechler K, Noble R, Koval DC. Investigation of the effects of controlled periodic illumination on the oxidation of gaseous trichloroethylene using a thin film of TiO2. Ind Eng Chem Res 1999; 38: 892-896.
- 26.Sung W, Misook K. Preparation of aTio2 film using a TEOS Binder and its application to the photo degradation of Benzene. J Ind Eng Chem 2005; 11: 416-424.
- 27.Byrne J, Eggins B, Brown N, McKinney B, Rouse M. Immobilisation of TiO2 powder for the treatment of polluted water. Appl Catalysis B Environ. 1998;17(1):25-36.
- 28.Low G, Matthews R. Flow-injection determination of organic contaminants in water using and ultraviolet mediated titanium dioxide film reactor. Anal Chem Acta 1990; 231: 13-20.
- 29.De Lasa D, Serrano B, Salaices M. Photocatalytic Reaction Engineering, Springer, New York. 2006; 13: 19-27.
- 30.Oppenlnder T. Photochemical Purification of Water and Air, Wiley-VCH. Verlag 2009; 5: 3-11.
- 31.Savage N, Diallo M, Duncan J, Street A, Sustich R. Nanotechnology applications for clean water, William Andrew, New York. 2009; 54: 31-41.
- 32.Schmid G. Nanoparticles: From Theory to Application, Wiley-VCH. Verlag 2004; 7: 65-81.
- 33.Rico R, Lattes A. Heterogeneous Photocatalysis, Wiely-VCH. Verlag 1997.
- 34.Feldheim D, Foss CA. Metal Nanoparticles: Synthesis, Characterization, and Applications, Marcel Dekker, New York. 2002; 19: 86-97.
- 35.Fryxell GE, Cao G. Environmental Applications of Nanomaterials: Synthesis, Sorbents and Sensors, Imperial College Press, London. 2007; 76: 31-42.
- 36.Joo SH, Cheng JF. Nanotechnology for Environmental Remediation, Springer, New York. 2006; 5: 45-56.
- 37.Peill NJ, Hoffmann MR. Development and optimization of a TiO2 coated fiber opticcable reactor: Photocatalytic degradation of 4-chlorophenol. Environ Sci Technol 1995; 81: 2974-2981.
- 38.Kansal SK, Singh M, Sud D. Studies on Photodegradation of Two Commersial Dyes in Aqueous Phase Using different Photocatalysts. J Hazard Mat 2007; 9: 581-590.
- 39.Ray AK, Beenackers A. Development of a new photocatalytic reactor for water purification. Catalysis Today 1998; 14: 73-83.
- 40.Peerakiatkhajorn P, Chawengkijwanich C, Onreabroy W, Chiarakorn S.Novel Photo Catalytic Ag/TiO2 Thin Film on Polyvinyl Chloride for Gaseous BTEX Treatment. Materials Science Forum 2012; 712: 133-145.
- 41.ParentY. Solar photo catalytic processes for the purification of water: State of development and barriers to commercialization. Solar Energy 1996; 56: 429-437.
- 42.Chao X, Lixin C, Ge S, Wei L, Hai L Yaqin Y. Preparation of ZnO/Cu2O compound photo catalyst and application in treating organic deyes. J Hazard Mat 2010; 176: 807-813.
- 43.Zhang Y, Crittenden J, Hand D. Fixed-bed photo catalysis for solar decontamination of water. Environ Sci Tech 1994; 28: 432-435.
- 44.Barni B. Laboratory-scale photo degradation of chloro aliphatics in aqueous solutions by photo catalytic membranes immobilizing TiO2. Chemosphere 1995; 30: 1847-1860.
- 45.Shicheng Z. Heterogeneous photo catalytic decomposition of benzene on lanthanum-doped TiO2 film at ambient temperature. Chemosphere 2006; 65: 2282-2288.
- 46.Kazantsev RV, Nekrasov NV, Tenchev K. Kinetics of benzene and toluene hydrogenation on a PT/Tio2 catalyst. Kinetics Catalysis 2003; 44: 529-535.
- 47.Jagadish C, Pearton SJ. Zinc oxide bulk, thin films and nanostructures: processing, properties and applications, Elsevier, New York, 2006; 4: 65-73.
- 48.Hosokawa M, Nogi K, Naito M, Yokoyama T. Nanoparticle Technology Handbook, 1st ed., Elsevier, London 2007; 7: 65-75.
- 49.Theodore L, Kunz RG. Nanotechnology: environmental implications and solutions, John Wiley & Sons, New Jersey 2005; 11: 12-18.
- 50.Morko H, zgr U. Zinc Oxide: Fundamentals, Materials and Device Technology, Wiley-VCH. Verlag 2009; 32: 23-32.
- 51.Jagadish C, Pearton SJ. Zinc oxide bulk, thin films and nanostructures: processing, properties and applications, Elsevier, New York, 2006; 4: 65-73.
- 52.Marc G. Photo catalytic oxidation of toluene on irradiated TiO2: comparison of degradation performance in humidified air, in water and in water containing a zwitter ionic surfactant. J Photochem Photobiol 2003; 160: 105-114.
- 53.Chuah TG, Jumasiah A, Azni I, Katayon S, Thomas Choong SY. Rice husk as a potentially low cost biosorbent for heavy metal and dye removal. Desalination 2005; 75: 305-316.
- 54.Norisepehr M. Guidelines for drinking water quality (translation). Tehran: Hayan publishers; 1994.
- 55.Farzadkia M, Rahmani K, Gholami M, Esrafili A, Rahmani A, Rahmani H. Investigation of photocatalytic degradation of clindamycin antibioticby using nano-ZnO catalysts. 2014; 31: 154-168. (Persian).##.
Copyright
© 2016, Author(s). This open-access article is available under the Creative Commons Attribution 4.0 (CC BY 4.0) International License (https://creativecommons.org/licenses/by/4.0/), which allows for unrestricted use, distribution, and reproduction in any medium, provided that the original work is properly cited.
Comments
Number of Comments:0Cited by
- Scopus by DOI: 0
Last Update: 0 months ago
- Scopus by Title: 5
Last Update: 0 months ago
- Scopus by Title (Ref): 5
Last Update: 0 months ago
- CrossRef: 0
Last Update: 1 hour ago
Ordering Reprints
Articles are published under the Creative Commons license stated on each article. No permission or royalty fee is required for uses permitted by that license. CCC handles optional bulk and customized reprint orders. Any quotation covers production and delivery services only, not copyright permission. > Request Reprints from CCC
Search Relations
Author(s):
Related Articles