International Journal of Materials Chemistry and Physics
Articles Information
International Journal of Materials Chemistry and Physics, Vol.1, No.3, Dec. 2015, Pub. Date: Sep. 26, 2015
Investigation of Relation Between the Bromine and Chlorine Content and Hydrogen Sulphide Removal from Gas Oil, Novel Technology Aspect
Pages: 271-275 Views: 2975 Downloads: 1173
Authors
[01] Hassan Gholamnajafi, Department of Chemical Engineering, Sirjan Science and Research Branch, Islamic Azad University, Sirjan, Iran; Department of Chemical Engineering, Sirjan Branch, Islamic Azad University, Sirjan, Iran.
[02] Farshad Farahbod, Department of Chemical Engineering, Firoozabad Branch, Islamic Azad University, Firoozabad, Iran.
Abstract
Present work focuses on application of nano zinc oxide on the adsorption removal of H2S from gas oil fuel. Evaluation is done by experimental catalytic bed. Some correlations are presented to help the assessments in the H2S adsorption process in this paper. Furthermore, bioassay experiments are done to measure the amount of Bromine and Chloride in Gas oil. Results are applicable in manufacturing nano catalytic zinc oxide reactor and performance prediction of typical catalytic bed. The correlations for Br and Cl versus H2S removal are presented in this study.
Keywords
H2S, Gas Oil, Bioassay, Catalytic Adsorption Process, Cl, Br
References
[01] A. T. Akono, N. X. Randall, F.-J. Ulm, Experimental determination of the fracture toughness via microscratch tests: application to polymers, ceramics, and metals, J. Mater. Res. 27 (2012) 485–493.
[02] M. Miller, Ch. Bobko, M. Vandamme, F.-J. Ulm, “Surface roughness criteria for cement paste nanoindentation”, Cem. Concr. Res. 38 (4) (2011) 467–476.
[03] J. Goldstein, Scanning Electron Microscopy and X-ray Microanalysis, Springer, New York, 2008.
[04] H. S. Wong, N. R. Buenfeld, Monte Carlo simulation of electron–solid interactions in cement-based materials, Cem. Concr. Res. 36 (2006) 1076–1082.
[05] M. Abuhaikal, Nano-chemomechanical assessment of rice husk ash cement by wavelength dispersive spectroscopy and nanoindentation, (MSc Thesis) Massachusetts Institute of Technology, 2011.
[06] B. Lothenbach, F. Winnefeld, C. Alder, E. Wieland, P. Lunk, Effect of temperature on the pore solution, microstructure and hydration products of Portland cement pastes, Cem. Concr. Res. 37 (2007) 483–491.
[07] I. G. Richardson, the calcium silicate hydrates, Cem. Concr. Res. 38 (2008) 137–158.
[08] K. O. Kjellsen, R. J. Detwiler, O. E. Gjorv, Backscattered electron imaging of cement pastes hydrated at different temperatures, Cem. Concr. Res. 20 (1990) 308–311.
[09] H. M. Jennings, J. J. Thomas, J. S. Gevrenov, G. Constantinides, F.-J. Ulm, A multitechnique investigation of the nanoporosity of cement paste, Cem. Concr. Res. 37 (2007) 329–336.
[10] J. J. Valenza, J. J. Thomas, Permeability and elastic modulus of cement paste as a function of curing temperature, Cem. Concr. Res. 42 (2012) 440–446.
[11] F.-J. Ulm, S. James, The scratch test for strength and fracture toughness determination of oil well cements cured at high temperature and pressure, Cem. Concr. Res. 41 (2011) 942–946.
[12] A.-T. Akono, P. M. Reis, F.-J. Ulm, Scratching as a fracture process: from butter to steel, Phys. Rev. Lett. 106 (204303) (2011) 1–4.
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