On the Hydrogen Cyanide Removal from Air using Metal loaded Polyacrylonitrile Composite Nanofibers
Subject Areas : Journal of Chemical Health RisksBozorgmehr Maddah 1 , Hamid Chamani 2 , Mahdi Hasanzadeh 3
1 -
2 -
3 -
Keywords:
Abstract :
- . Nowakowska M., Sterzel M., Szczubiaà âka K., 2006. Photosensitized oxidation of cyanide in aqueous solutions of photoactive modified hydroxyethylcellulose. J Polym Environ. 14(1), 59-64.
- . Wang X., Wang X., Tan H., Hu Z., Deng S., Li Y., 2015. Removal of Hydrogen Cyanide by Using Activat-ed Carbon: The Effect of Adsorption Condition and Chemical Modification. J Biobased Mater Bio. 9, 545-552.
- . Oliver T. M., Jugoslav K., Aleksandar P., Niko-la,D., 2005. Synthetic activated carbons for the removal of hydrogen cyanide from air. ChemEng Process. 44, 1181-1187.
- . Yu X-Z., Gu J-D., 2007. Differences in MichaelisâââMenten kinetics for different cultivars of maize during cyanide removal. Ecotox Environ Safe. 67, 254-259.
- . Ning P., Qiu J., Wang X., Liu W., Chen W., 2013. Metal loaded zeolite adsorbents for hydrogen cyanide removal. J Environ. Sci. 25(4), 808-814.
- . Seredych M., van der Merwe M., Bandosz T. J., 2009. Effects of surface chemistry on the reactive ad-sorption of hydrogen cyanide on activated carbons. Car-bon. 47, 2456-2465.
- . Tsoncheva T., Nickolov R., Mehandjiev D., 2001. Effect of Chromium on Copper Containing Activated Carbon Catalysts for Methanol Decomposition. React KinetCatal L. 72, 383-390.
- . Suzin Y., Buettner L. C., LeDuc C. A., 1998. Be-havior of impregnated activated carbons heated to the point of oxidation. Carbon. 36, 1557-1566.
- . Sullivan P., Moate J., Stone B., Atkinson J. D., Hashisho Z., Rood M. J., 2012. Physical and chemical properties of PAN-derived electrospun activated carbon nanofibers and their potential for use as an adsorbent for toxic industrial chemicals. Adsorption 18, 265-274.
- . Dehghan S. F., Golbabaei F., Maddah B., Latifi M., Pezeshk H., Hasanzadeh M., 2016. Akbar-Khanzadeh, F., Optimization of electrospinning parame
- ters for polyacrylonitrile-MgO nanofibers applied in air filtration. J Air Waste Man. 66, 912-921.
- . Hasanzadeh M., HadaviMoghadam B., 2013. Electrospun Nanofibrous Membranes as Potential Ad-sorbents for Textile Dye Removal-A review, J Chem Health Risk. 3, 15-26.
- . Emamipour H., Johnsen D. L., Rood M. J., Jain M., Skandan, G., 2015. Novel activated carbon fiber cloth filter with functionalized silica nanoparticles for adsorption of toxic industrial chemicals. Adsorption, 21, 265-272.
- . Peng S., Li L., Kong Yoong Lee J., Tian L., Srinivasan M., Adams S., Ramakrishna S., 2016. Electrospun carbon nanofibers and their hybrid compo-sites as advanced materials for energy conversion and storage. Nano Energy 22, 361-395.
- . Maddah B., Soltaninezhad M., Adib K., Hasanzadeh M., 2016. Activated carbon nanofiber pro-duced from electrospun PAN nanofiber as a solid phase extraction sorbent for the preconcentration of organophosphorus pesticides. Sep Sci Technol.1-12.
- . Masoumi A., Ghaemy M., Bakht A. N., 2014. Removal of Metal Ions from Water Using Poly(MMA-co-MA)/Modified-Fe3O4 Magnetic Nanocomposite: Isotherm and Kinetic Study. IndEngChem Res. 53, 8188-8197.
- . Ye P., Luan Z., Li K., Yu L., Zhang J., 2009. The use of a combination of activated carbon and nickel microfibers in the removal of hydrogen cyanide from air. Carbon 47, 1799-1805.
- . Myers R. H., Montgomery D. C., Response Sur-face Methodology: Process and Product in Optimization Using Designed Experiments. John Wiley & Sons, Inc., 1995.
- . Gu S. Y., Ren J., Vancso G. J., 2005. Process optimization and empirical modeling for electrospun polyacrylonitrile (PAN) nanofiber precursor of carbon nanofibers. EurPolym J. 41, 2559-2568.
- . Pavia D. L., Lampman G. M., Kriz G. S., Vyvyan J. R., Introduction to Spectroscopy, 4th ed.; Brooks/Cole; Cengage Learning: Independence, KY. 2001.
