CO2 removal from contaminated natural gas mixtures by hydrate formation

Industrial and Engineering Chemistry Research

Volumn 48, Issue 12, 2009, Pages 5802-5807

  Van Denderen, Mark ^a   Ineke, Erik ^a   Golombok, Michael ^a,b  

^a SHELL GLOBAL SOLUTIONS INTERNATIONAL B V   (United States)

^b EINDHOVEN UNIVERSITY OF TECHNOLOGY   (Netherlands)

Author keywords

[No Author keywords available]

Indexed keywords

BOUNDARY PRESSURE; CLEAN GAS; CONTAMINATED NATURAL GAS; ENRICHED GAS; FORMATION RATES; FORMATION TIME; GAS STREAMS; HYDRATE FORMATION; HYDRATE STRUCTURES; INITIAL PRESSURE; INTERSTITIAL MATERIALS; KEY PROCESS; MIXING SYSTEM; RATE ACCELERATION; SALT CONCENTRATION; SELECTIVE FORMATION;

CATALYSIS; CATALYSTS; GAS INDUSTRY; GAS MIXTURES; HYDRATION; METHANE;

GAS HYDRATES;

EID: 67649610808     PISSN: 08885885     EISSN: None     Source Type: Journal    
DOI: 10.1021/ie8017065     Document Type: Article

References (37)

1. Guo, T.; Wu, B.-H.; Zhu, Y.-H.; Fan, S.-S.; Chen, G.-J. A Review on the Gas Hydrate Research in China. Petrol. Sci. Eng. 2004, 41, 11.
2. Duc, N. H.; Chauvy, F.; Herri, J.-M. CO2 Capture by Hydrate CrystallizationsA Potential Solution for Gas Emission of Steelmaking Industry. Energy Conv. Manage. 2007, 48, 1313.
3. Kumar, R.; Linga, P.; Englezos, P. Pre-and Post-Combustion Capture of Carbon Dioxide via Hydrate Formation. In 2006 IEEE EIC Climate Change Conference; IEEE Press: Piscataway, NJ, 2006; Vol. 1, p 294.
4. Lee, J.-W.; Kim, D.-Y.; Lee, H. Phase Behaviour and Structure Transition of the Mixed Methane and Nitrogen Hydrates. Korean J. Chem. Eng. 2000, 23 (2), 299.
5. Linga, P.; Adeyemo, A.; Englezos, P. Medium-Pressure Clathrate Hydrate/Membrane Hybrid Process for Postcombustion Capture of Carbon Dioxide. Environ. Sci. Technol. 2008, 42 (1), 315.
6. Bergeron, S.; Servio, P. Reaction Rate Constant of CO2 Hydrate Formation and Verification of Old Premises Pertaining to Hydrate Growth Kinetics. AIChE J. 2008, 54 (11), 2964.
7. Svandal, A.; Kuznetsova, T.; Kvamme, B. Thermodynamic Properties and Phase Transitions in the H2O/CO2/CH4 System. Fluid Phase Equlib. 2006, 346 (1-2), 177.
8. Linga, P.; Kumar, R.; Englezos, P. The Clathrate Hydrate Process for Post-and Pre-combustion Capture of Carbon Dioxide. J. Hazard. Mater. 2007, 149, 625.
9. Linga, P.; Kumar, R.; Englezos, P. Gas Hydrate Formation from Hydrogen/Carbon Dioxide and Nitrogen/Carbon Dioxide Gas Mixtures. Chem. Eng. Sci. 2007, 62, 4268.
10. Golombok, M.; Nikolic, D. Assessing Contaminated Gas. Hart's E&P Mag. 2008, (June), 73.
11. Malegaonkar, M. B.; Dholabhaii, P. D.; Bishnoi, P. R. Kinetics of Carbon Dioxide and Methane Hydrate Formation. Can. J. Chem. Eng. 1997, 75, 1090.
12. Ribeiro, C. P.; Lage, P. L. C. Modelling of Hydrate Formation Kinetics: State-of-the-Art and Future Directions. Chem. Eng. Sci. 2008, 63 (8), 2007.
13. Clarke, M. A.; Bishnoi, P. R. Development of a New Equation of State for Mixed Salt and Mixed Solvent Systems, and Application to Vapour-Liquid and Solid (Hydrate)-Vapour-Liquid Equilibrium Calculations. Fluid Phase Equilib. 2004, 220 (1), 21.
14. Golombok, M.; Ineke, E.; Rojas Luzardo, J.-C.; He, Y. Y. Zitha, P. Resolving CO2 and Methane Hydrate Formation Kinetics. Environ Chem Lett., published online Aug 27, 2008, http://dx.doi.org/10.1007/s10311-008-0173-y.
15. Kumar, R. P.; Linga, P.; Moudrakovski, I.; Ripmeester, J. P.; Englezos, P. Structure and Kinetics of Gas Hydrates from Methane/Ethane/ Propane Mixtures Relevant to the Design of Natural Gas Hydrate Storage and Transport Facilities. AIChE J. 2008, 54 (8), 2132.
16. Englezos, P.; Kalogerakis, N. E.; Dholabhai, P. D.; Bishnoi, P. R. Kinetics of Formation of Methane and Ethane Gas Hydrates. Chem. Eng. Sci. 1987, 42, 2647.
17. Englezos, P.; Kalogerakis, N. E.; Dholabhai, P. D.; Bishnoi, P. R. Kinetics of Gas Hydrate Formation from Mixtures of Methane and Ethane. Chem. Eng. Sci. 1987, 42, 2659.
18. Clarke, M. A.; Bishnoi, P. R. Measuring and Modelling the Rate of Decomposition of Gas Hydrates Formed from Mixtures of Methane and Ethane. Chem. Eng. Sci. 2001, 56 (16), 4715.
19. Behar, E.; Delion, S.-A.; Sugier, A.; Thomas, M. Plugging Control of Production Facilities by Hydrates. Ann. N.Y. Acad. Sci. 1994, 715, 94.
20. Sloan, E. D.; Koh, C. A. Clathrate Hydrates of Natural Gas; CRC Press: Boca Raton, FL, 2008.
21. Dalmazzone, D.; Clausse, D; Dalmazzone, C.; Herzhaft, B. The Stability of Methane Hydrates in Highly Concentrated Electrolyte Solutions by Differential Scanning Calorimetry and Theoretical Computation. Am. Mineral. 2004, 8 (9), 1183.
22. Kang, S.-P.; Lee, H.; Lee, C.-S.; Sung, W.-M. Hydrate Phase Equilibria of the Guest Mixtures Containing CO2, N2 and Tetrahydrofuran. Fluid Phase Equilib. 2001, 185, 101.
23. Susilo, R.; Alavi, S.; Ripmeester, J.; Englezos, P. Tuning Methane Content in Gas Hydrates via Thermodynamic Modeling and Molecular Dynamics Simulation. Fluid Phase Equilib. 2007, 263 (1), 6.
24. Kang, S.-P.; Lee, H. Recovery of CO2 from Flue Gas Using Gas Hydrate. Environ. Sci. Technol. 2000, 34, 4397-4400.
25. Ganji, H.; Manteghian, M.; Sadaghiani, Z. K.; Omidkhah, M. R.; Rahimi, M. H. Effect of Different Surfactants on Methane Hydrate Formation Rate, Stability and Storage Capacity. Fuel 2007, 86 (3), 434.
26. Eastoe, J.; Downer, A. M.; Paul, A.; Steytler, D. C.; Rumsey, E. Adsorption of Fluoro Surfactants at Air-Water and Water-Carbon Interfaces. Prog. Colloid Polym. Sci. 2000, 115, 214.
27. Karaaslan, U.; Parlaktuna, M. Effect of Surfactant on Hydrate Formation. Ann. N.Y. Acad. Sci. 2000, 912, 735.
28. Rogers, R.; Zhang, G.; Dearman, J.; Woods, C. Investigations into Surfactant/Gas Hydrate Relationship. J. Petrol. Sci. Eng 2005, 56 (1-3), 82.
29. Li, J.; Liang, D.; Guo, K.; Wang, R. The Influence of Additives and Metal Rods on the Nucleation and Growth of Hydrates. J. Colloid Interface Sci. 2004, 283 (1), 223.
30. Uchida, T.; Ikeda, I. Y.; Ohmura, R.; Tsuda, S. Effects of Additives on Formation Rates of CO2 Hydrate Films. In Proceedings of the 11th International Conference on the Physics and Chemistry of Ice; Kuhs, W. F., Ed.; Special Publications; Springer: Berlin, 2007; Vol. 311, p 609.
31. Clarke, M. A.; Bishnoi, P. R. Determination of the intrinsic kinetics of CO2 gas hydrate formation using in situ particle size analysis. Chem. Eng. Sci. 2005, 60 (3), 695.
32. Eaton, M.; Mahajan, D.; Flood, R.; Koga, T.; Rafailovich, M. Hydrate-Sediment Interactions in a Novel High-Pressure Apparatus. Prepr.sAm. Chem. Soc. Div. Petrol. Chem. 2005, 50 (1), 19.
33. Kashchiev, D.; Firoozabadi, A. Induction Time in Crystallization of Gas Hydrates. J. Cryst. Growth 2003, 250, 499.
34. Shin, K.; Park, Y.; Cha, M.; Park, K.-P.; Huh, D.-G.; Lee, J.; Kim, S.-J.; Lee, H. Swapping Phenomena Occurring in Deep-Sea Gas Hydrates. Energy Fuels 2008, 22 (5), 3160.
35. Javanmardi, J.; Moshfeghian, M. Energy Consumption and Economic Evaluation of Water Desalination by Hydrate Phenomenon. Appl. Therm. Eng. 2003, 23 (7), 845.
36. Ersland, G.; Husebo, J.; Grave, A.; Baldwin, B. A.; Howard, J.; Stevens, J. Measuring Gas Hydrate Formation and Exchange with CO2 in Bentheim Sandstone Using MRI Tomography. Chem. Eng. J., published online Dec 30, 2008, http://dx.doi.org/10.1016/j.cej.200812.028.
37. Golombok, M.; Crane, C.; Ineke, E.; Harris, J.; Welling, M. Novel Additives to Retard Permeable Flow. Exp. Therm. Fluid Sci. 2008, 32, 1499.