The Adsorption of SDS on Ferro-Precipitates
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 32771
The Adsorption of SDS on Ferro-Precipitates

Authors: R.Marsalek

Abstract:

This paper present a new way to find the aerodynamic characteristic equation of missile for the numerical trajectories prediction more accurate. The goal is to obtain the polynomial equation based on two missile characteristic parameters, angle of attack (α ) and flight speed (ν ). First, the understudied missile is modeled and used for flow computational model to compute aerodynamic force and moment. Assume that performance range of understudied missile where range -10< α <10 and 0< ν <200. After completely obtained results of all cases, the data are fit by polynomial interpolation to create equation of each case and then combine all equations to form aerodynamic characteristic equation, which will be used for trajectories simulation.

Keywords: ferro-precipitate, adsorption, SDS, zeta potential

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058665

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1853

References:


[1] H.S. Wu, P. J. Pendleton, Adsorption of anionic surfactant by activated carbon: effect of surface chemistry, ionic strength, and hydrophobicity, Colloid Interf Sci, vol. 243, pp. 306-315, 2001.
[2] H. Ridaoui, A. Jada, L. Vidal, J.-B. Donnet, Effect of cationic surfactant and block copolymer on carbon black particle surface charge and size, Colloids Surf. A, vol. 278, pp. 149-159, 2006.
[3] Min-Yun Chang, Ruey-Shin Juang, Equilibrium and kinetic studies on the adsorption of surfactant, organic acids and dyes from water onto natural biopolymers, Colloids Surf. A, vol. 269, pp. 35-46, 2005.
[4] H. M. Vale, T.F Mckenna, Adsorption of sodium dodecyl sulphate and sodium dodecyl benzene sulphonate on poly (vinyl chloride) latexes, Colloids Surf. A, 268, pp. 68-72, 2005.
[5] I.B. Valentim, I. Joekes, Adsorption of sodium dodecyl sulphate on chrysotile, Colloids Surf. A, vol. 290, pp. 106-111, 2006.
[6] L. Qi, W. Liao, Z. Bi, Adsorption of conventional and gemini cationic surfactants in nonswelling and swelling layer silicite, Colloids Surf. A, vol. 302, pp. 568-572, 2007.
[7] A.V. Sineva, A.M. Parfenova, A.A. Fedorova, Adsorption of micelle forming and non-micelle forming surfactants on the adsorbents of different nature, Colloids Surf. A, vol. 306, pp. 68-74, 2007.
[8] M. Kosmulski, P. Prochniak, J.B. Rosenholm, Electrokinetic studies of adsorption of ionic surfactants on titania from organic solvents, Colloids Surf. A, vol. 348, pp. 298-300, 2009.
[9] A.A. Atia, F.M. Farag, A. El-Fatah M. Youssef, Studies on the adsorption of dodecyl benzene sulphonate and cetylpyridinium bromine at liquid/air and bentonite/liquid interfaces, Colloids Surf. A, vol. 278, pp. 74-80, 2006.
[10] X.D. Gao, J. Chorover, Adsorption of sodium dodecyl sulphate (SDS) at ZnSe and ╬▒-Fe2O3 surfaces: Combining infrared spectroscopy and bath uptake studies, Colloid Interf Sci, vol. 348, pp. 167-176, 2010.
[11] P.T. Davey and T.R. Scott, Removal of iron from leach liquors by the "goethite" process, Hydrometallurgy, vol. 2, pp. 25-33, 1976.
[12] M.R.C. Ismael and J.M.R. Carvalho, Iron recovery from sulphate leach liquors in zinc hydrometallurgy, Miner. Eng., vol. 16, pp. 31-39, 2003.
[13] P.T. Davey and T.R. Scott, Formation of β-FeOOH and ╬▒-Fe2O3 in the Goethite process, Transactions of the Institute of Mining and Metallurgy, Section C, pp 83-86, 1975.
[14] R.J. Crawford, D.E. Mainwaring, The influence of surfactant adsorption on the surface characterisation of Australian coals, Fuel, vol. 80, pp. 313-320, 2001.
[15] A.M. Gallardo-Moreno, C.M. González-Garcia, M. González-Martín, and J.M. Bruque, Arrangement of SDS adsorbed layer on carbonaceous particles by zeta potential determinations, Colloids Surf. A., vol. 249, pp. 57-62, 2004.
[16] C.A. Basar, A. Karagunduz, B. Keskinler, and A. Cakici, Effect of presence of ions on surface characteristics of surfactant modified powdered activated carbon (PAC), Appl. Surf. Sci., vol. 218, pp. 170- 175, 2003.
[17] R.S. Juang and W.L. Wu, Adsorption of sulphate and copper (II) on goethite in relation to the changes of zeta potentials, J. Colloid Interface Sci., vol. 249, pp. 22-29, 2002.
[18] R. Marsalek and Z. Navratilova, Comparative study of CTAB adsorption on bituminous coal and clay mineral, Chem. Pap. - Chem. Zvesti., vol. 65, pp. 77-84, 2011.