Kinetic study of carbon dioxide hydrate formation in presence of silver nanoparticles and SDS

Chemical Engineering Journal

Volumn 237, Issue , 2014, Pages 387-395

  Mohammadi, Abolfazl ^a   Manteghian, Mehrdad ^a   Haghtalab, Ali ^a   Mohammadi, Amir H ^b,c   Rahmati Abkenar, Mahboubeh ^a  

^a TARBIAT MODARES UNIVERSITY   (Iran)

^b INSTITUT DE RECHERCHE EN GÉNIE CHIMIQUE ET PÉTROLIER IRGCP   (France)

^c UNIVERSITY OF KWAZULU NATAL   (South Africa)

Author keywords

Clathrate hydrate; Gas hydrate; Kinetic; SDS; Silver nanoparticles; Storage capacity

Indexed keywords

APPARENT RATE CONSTANT; CARBON DIOXIDE HYDRATES; CLATHRATE HYDRATE; DIFFUSION-REACTION; KINETICS MODELING; SDS; SILVER NANOPARTICLES; STORAGE CAPACITY;

BATCH REACTORS; CARBON DIOXIDE; GAS HYDRATES; HYDRATION; KINETICS; MIXTURES; NANOPARTICLES; RATE CONSTANTS; REACTION KINETICS; SODIUM DODECYL SULFATE;

SILVER;

EID: 84887325049     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2013.09.026     Document Type: Article

References (43)

1. Gas Purification 1997, Gulf Professional Publishing, Houston. fifth ed. A.L. Kohl, R.B. Nielsen (Eds.).
2. Baker R.W. Future directions of membrane gas separation technology. Industrial and Engineering Chemistry Research 2002, 41:1393-1411.
3. Eslamimanesh A., Mohammadi A.H., Richon D., Naidoo P., Ramjugernath D. Application of gas hydrate formation in separation processes: a review of experimental studies. The Journal of Chemical Thermodynamics 2012, 46:62-71.
4. 2+tetra-n-butylammonium bromide aqueous solution. Journal of Chemical and Engineering Data 2011, 56:3855-3865.
5. Belandria V., Eslamimanesh A., Mohammadi A.H., Richon D. Gas hydrate formation in carbon dioxide+nitrogen+water system: compositional analysis of equilibrium phases. Industrial and Engineering Chemistry Research 2011, 50:4722-4730.
6. 2 capture from binary mixture via forming hydrate with the help of tetra-n-butyl ammonium bromide. Journal of Natural Gas Chemistry 2009, 18:15-20.
7. Linga P., Kumar R., Englezos P. Gas hydrate formation from hydrogen/carbon dioxide and nitrogen/carbon dioxide gas mixtures. Chemical Engineering Science 2007, 62:4268-4276.
8. Li X.-S., Xia Z.-M., Chen Z.-Y., Yan K.-F., Li G., Wu H.-J. Gas hydrate formation process for capture of carbon dioxide from fuel gas mixture. Industrial and Engineering Chemistry Research 2010, 49:11614-11619.
9. Sloan D. Natural Gas Hydrates in Flow Assurance 2011, Gulf Professional Publishing, Boston, pp. 1-11.
10. Sloan J.E.D., Koh K.A. Clathrate Hydrates of Natural Gases 2008, CRC Press, Taylor & Francis, Group. 3rd ed.
11. Ganji H., Manteghian M., Rahimi Mofrad H. Effect of mixed compounds on methane hydrate formation and dissociation rates and storage capacity. Fuel Processing Technology 2007, 88:891-895.
12. Ganji H., Manteghian M., Sadaghiani zadeh K., Omidkhah M.R., Rahimi Mofrad H. Effect of different surfactants on methane hydrate formation rate, stability and storage capacity. Fuel 2007, 86:434-441.
13. Zhang J.S., Lee S., Lee J.W. Kinetics of methane hydrate formation from SDS solution. Industrial and Engineering Chemistry Research 2007, 46:6353-6359.
14. Manteghian M., Mousavi Safavi S.M., Mohammadi A. The equilibrium conditions, hydrate formation and dissociation rate and storage capacity of ethylene hydrate in presence of 1,4-dioxane. Chemical Engineering Journal 2013, 217:379-384.
15. Karimi R., Varaminian F., Izadpanah A.A., Mohammadi A.H. Effects of Different Surfactants on the Kinetics of Ethane-Hydrate Formation: Experimental and Modeling Studies. Energy Technology 2013, 1:530-536.
16. Lirio C.F.d.S., Pessoa F.L.P., Uller A.M.C. Storage capacity of carbon dioxide hydrates in the presence of sodium dodecyl sulfate (SDS) and tetrahydrofuran (THF). Chemical Engineering Science 2013, 96:118-123.
17. Kumar A., Sakpal T., Linga P., Kumar R. Influence of contact medium and surfactants on carbon dioxide clathrate hydrate kinetics. Fuel 2013, 105:664-671.
18. Zhang C.S., Fan S.S., Liang D.Q., Guo K.H. Effect of additives on formation of natural gas hydrate. Fuel 2004, 83:2115-2121.
19. Bi Y., Guo T., Zhang L., Zhang H., Chen L. Experimental study on cool release process of gas-hydrate with additives. Energy and Buildings 2009, 41:120-124.
20. 2 capture by hydrate formation in quiescent conditions: in search of efficient kinetic additives. Energy Procedia 2011, 4:621-628.
21. Fazlali A., Kazemi S.A., Keshavarz-Moraveji M., Mohammadi A.H. Impact of Different Surfactants and their Mixtures on methane-hydrate formation. Energy Technology 2013, 1:471-477.
22. Yang M., Song Y., Liu W., Zhao J., Ruan X., Jiang L., Li Q. Effects of additive mixtures (THF/SDS) on carbon dioxide hydrate formation and dissociation in porous media. Chemical Engineering Science 2013, 90:69-76.
23. Arjang S., Manteghian M., Mohammadi A. Effect of synthesized silver nanoparticles in promoting methane hydrate formation at 4.7MPa and 5.7MPa. Chemical Engineering Research and Design 2013, 91:1050-1054.
24. Li J., Liang D., Guo K., Wang R., Fan S. Formation and dissociation of HFC134a gas hydrate in nano-copper suspension. Energy Conversion and Management 2006, 47:201-210.
25. S.-S. Park, N.-J. Kim, Multi-walled carbon nano tubes effects for methane hydrate formation, in: The 2nd International Conference on Computer and Automation Engineering (ICCAE), Singapore, 2010, pp. 294-297.
26. 2 sols by modified sol-gel method and their application for methane hydrate formation. Solid State Phenomena 2007, 124-126:1059-1062.
27. Akhavan-Behabadi M.A., Pakdaman M.F., Ghazvini M. Experimental investigation on the convective heat transfer of nanofluid flow inside vertical helically coiled tubes under uniform wall temperature condition. International Communications in Heat and Mass Transfer 2012, 39:556-564.
28. 2-water nanofluid in a double-tube counter flow heat exchanger. International Journal of Heat and Mass Transfer 2009, 52:2059-2067.
29. 3 nanofluid and with longitudinal strip inserts in a circular tube. International Journal of Heat and Mass Transfer 2010, 53:4280-4286.
30. 3 nanofluid flowing in a circular tube and with twisted tape insert. International Communications in Heat and Mass Transfer 2009, 36:503-507.
31. Wongcharee K., Eiamsa-ard S. Enhancement of heat transfer using CuO/water nanofluid and twisted tape with alternate axis. International Communications in Heat and Mass Transfer 2011, 38:742-748.
32. M.T. Naik, G.R. Janardana, L.S. Sundar, Experimental investigation of heat transfer and friction factor with water-propylene glycol based CuO nanofluid in a tube with twisted tape inserts, International Communications in Heat and Mass Transfer.
33. Peng D.Y., Robinson D.B. A new two constant equation of state. Industrial and Engineering Chemistry Research 1976, 15:59-64.
34. Ghader S., Manteghian M., Kokabi M., Sarraf Mamoory R. Preparation of truncated triangular silver nanoparticles by a simple and rapid method in aqueous solution. Polish Journal of Chemistry 2007, 81:1555-1565.
35. Ghader S., Manteghian M. Kinetics determination of reaction crystallization of silver nanoparticles. Chemical Engineering 2007, Tarbiat Modares University, Tehran.
36. Brioude A., Pileni M.P. Silver nanodisks: optical properties study using the discrete dipole approximation method. The Journal of Physical Chemistry B 2005, 109:23371-23377.
37. Munck J., Skjold-Jørgensen S., Rasmussen P. Computations of the formation of gas hydrates. Chemical Engineering Science 1988, 43:2661-2672.
38. Parrish W.R., Prausnitz J.M. Dissociation pressures of gas hydrates formed by gas mixtures. Industrial and Engineering Chemistry Process Design and Development 1972, 11:26-35.
39. Introduction to Chemical Engineering Thermodynamics 2001, Mcgraw-Hill, New York. J.M. Smith, H. Van Ness, M. Abbott (Eds.).
40. McCain W.D. The Properties of Petroleum Fluids 1990, Petroleum Pub. Co.
41. Klauda J.B., Sandler S.I. A fugacity model for gas hydrate phase equilibria. Industrial and Engineering Chemistry Research 2000, 39:3377-3386.
42. Englezos P., Kalogerakis N., Dholabhai P.D., Bishnoi P.R. Kinetics of formation of methane and ethane gas hydrates. Chemical Engineering Science 1987, 42:2647-2658.
43. v.d. Waals, J.C. Platteeuw, Clathrate Solutions, in: Advances in Chemical Physics, John Wiley & Sons, Inc., 1959, pp. 1-57.