Chemistry Journal
Articles Information
Chemistry Journal, Vol.4, No.3, Sep. 2018, Pub. Date: Aug. 31, 2018
Empirical Study of Mass Transfer Coefficient and Desulfurization Mass Flux from Sour Gas
Pages: 56-59 Views: 1517 Downloads: 311
Authors
[01] Ahamd Reza Gharibi, Department of Petroleum Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr, Iran.
[02] Arezoo Khosravi, Department of Mechanical Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr/Isfahan, Iran.
[03] Farshad Farahbod, Department of Chemical Engineering, Firoozabad Branch, Islamic Azad University, Firoozabad, Iran.
Abstract
The mechanism of sulphur absorption by nano fluid in a packed bed under the magnetic field is considered, in this study. The experimental and theoretical investigation is done to obtain the outlet amount of sulphur in gas stream. Experimental results show, increase in initial concentration under the higher emerged temperature caused by magnetic field increases the effective mass transfer coefficient from 2.1 to 7.9. In addition, changing 0.1 mol/m3 in the initial concentration of hydrogen sulfide increases mass flow rate effective factor from 2 to 5.9. This shows the positive effect of magnetic field on the amount of gas absorption. The experimental results show, emerging 1.5 (A) current around the vessel affects aluminium oxide nano particle which is dissolved into the nano fluid only. In addition, changes in the amount of initial concentration of hydrogen sulphide at constant inlet temperature of 40 C and gas flow rate of 0.22 m3/min is positively. In addition, the increase in the effective mass transfer coefficient is obtained and indicates on the increase in the amount of difference between magnetic mass transfer coefficient and simple mass transfer coefficient.
Keywords
Absorption, Gas, Packed Bed, Aluminium Oxide Nano Fluid, Sulphur
References
[01] L. Carlos, G. Isabel, B. Irene, D. Luis I,. R. Luis M. Experimental study of SO2 and NOx emissions in fluidized bed oxy-fuel combustion. Fuel Process Techno., 2013; 106: 587–594.
[02] M. de las Obras-Loscertales, A. Rufas, L. F. de Diego, F. García-Labiano, P. Gayán, A. Abad, J. Adánez, Effects of Temperature and Flue Gas Recycle on the SO2 and NOx Emissions in an Oxy-fuel Fluidized Bed Combustor, Energy Procedia., 2013; 37: 1275-1282.
[03] Chen Chan-Cheng, Liu Shang-Hao, Kang Xiaoyan, Evaluating lower flammability limit of flammable mixtures using threshold temperature approach, Chemical Engineering Science, Available online 7 April 2018, In Press, Accepted Manuscript.
[04] A. Irabien, Environmental and economic evaluation of SO2 recovery in a ceramic hollow fibre membrane contactor. Chem Eng Process: Process Inten., 2012; 52: 151-154.
[05] H. Wang, Sh. Li, F. Lai, B. Wang, Computational Model of Greenhouse Gas Emissions of Power Station boiler Considering Desulphurization, Physics Procedia, 2012; 24: 44-49.
[06] Iliuta Ion, Larachi Faïçal, Fischer-Tropsch synthesis in vertical, inclined and oscillating trickle-bed reactors for offshore floating applications, Chemical Engineering Science, Volume 177, 23 February 2018, Pages 509-522.
[07] W. Zhou, C. S. Zhao, L. B. Duan, XP. Chen, C. Liang, Two-dimensional computational fluid dynamics simulation of nitrogen and sulfur oxides emissions in a circulating fluidized bed combustor. Chem. Eng. J., 2011; 173: 564-573.
[08] Zhang Rui, Wu Hao, Si Xiaodong, Zhao Lingling, Yang Linjun, Improving the removal of fine particulate matter based on heterogeneous condensation in desulfurized flue gas, Fuel Processing Technology, Volume 174, 1 June 2018, Pages 9-16.
[09] Wang Jinman, Yang Peiling, Potential flue gas desulfurization gypsum utilization in agriculture: A comprehensive review, Renewable and Sustainable Energy Reviews, Volume 82, Part 3, February 2018, Pages 1969-1978.
[10] Alomair O, Elsharkawy A, Alkandari H. Viscosity predictions of Kuwaiti heavy crudes at elevated temperatures. In: SPE Heavy Oil Conference and Exhibition, Kuwait, 12–14 December 2011. p. 1–18.
[11] Zhao Yonggan, Wang Shujuan, Li Yan, Liu Jia, Zhuo Yuqun, Chen Hongxiang, Wang Jing, Xu Lizhen, Sun Zhentao, Extensive reclamation of saline-sodic soils with flue gas desulfurization gypsum on the Songnen Plain, Northeast China, Geoderma, Volume 321, 1 July 2018, Pages 52-60.
[12] Barrufet MA, Setiadarma A. Reliable heavy oil-solvent viscosity mixing rules for viscosities up to 450 K, oil-solvent viscosity ratios up to 4 _ 105, and any solvent proportion. Fluid Phase Equilib. 2003; 213: 65–79.
[13] Tseng Chien-Chou, Li Cheng-Jui, Eulerian-Eulerian numerical simulation for a flue gas desulfurization tower with perforated sieve trays, International Journal of Heat and Mass Transfer, Volume 116, January 2018, Pages 329-345.
[14] Yilin Wang John, Well Completion for Effective Deliquification of Natural Gas wells, J. Energy Resour. Technol. 2011; 134 (1): 013102.
[15] Chuan Lu, Huiqing Liu, Qiang Zheng, Qingbang Meng, Experimental Study of Reasonable Drawdown Pressure of Horizontal Wells in Oil Reservoir With Bottom Water, J. Energy Resour. Technol. 2014; 136 (3): 034502.
[16] Junlai Wu; Yuetian Liu; Haining Yang, New Method of Productivity Equation for Multibranch Horizontal Well in Three-Dimensional Anisotropic Oil Reservoirs, J. Energy Resour. Technol.. 2012; 134 (3): 032801-032801-5.
[17] Anuj Gupta, Performance Optimization of Abrasive Fluid Jet for Completion and Stimulation of Oil and Gas Wells, J. Energy Resour. Technol. 2012; 134 (2): 021001.
600 ATLANTIC AVE, BOSTON,
MA 02210, USA
+001-6179630233
AIS is an academia-oriented and non-commercial institute aiming at providing users with a way to quickly and easily get the academic and scientific information.
Copyright © 2014 - American Institute of Science except certain content provided by third parties.