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Petroleum Science and Technology Volume 34, 2016 - Issue 9
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Original Articles

A prediction model for the natural gas hydrate formation pressure into transmission line

Aijaz AbbasiDepartment of Mechanical Engineering, Universiti Teknologi PETRONAS, MalaysiaCorrespondence[email protected]
&
Fakhruldin Mohd HashimDepartment of Mechanical Engineering, Universiti Teknologi PETRONAS, Malaysia
Pages 824-831 | Published online: 17 Jun 2016

References

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  • Ghavipour, M., Ghavipour, M., Chitsazan, M., Najibi, S. H., and Ghidary, S. S. (2013). Experimental study of natural gas hydrates and a novel use of neural network to predict hydrate formation conditions. Chem. Eng. Res. Des. 91:264–273.
  • Ghiasi, M. M., Bahadori, A., and Zendehboudi, S. (2014). Estimation of triethylene glycol (TEG) purity in natural gas dehydration units using fuzzy neural network. J. Nat. Gas Sci. Eng. 17:26–32.
  • Hammerschmidt, E. G. (1934). Formation of gas hydrates in natural gas transmission lines. Ind. Eng. Chem. 26:851–855.
  • Javanmardi, J., and Moshfeghian, M. (2000). A new approach for prediction of gas hydrate formation conditions in aqueous electrolyte solutions. Fluid Phase Equilib. 168:135–148.
  • Rashid, S., Fayazi, A., Harimi, B., Hamidpour, E., and Younesi, S. (2014). Evolving a robust approach for accurate prediction of methane hydrate formation temperature in the presence of salt inhibitor. J. Nat. Gas Sci. Eng. 18:194–204.
  • Riazi, S. H., Heydari, H., Ahmadpour, E., Gholami, A., and Parvizi, S. (2014). Development of novel correlation for prediction of hydrate formation temperature based on intelligent optimization algorithms. J. Nat. Gas Sci. Eng. 18:377–384.
  • Shahnazar, S., and Hasan, N. (2014). Gas hydrate formation condition: Review on experimental and modeling approaches. Fluid Phase Equilib. 379:72–85.
  • Sloan, E. D., and Koh, C. A. (2007). Clathrate hydrates of natural gases (3rd ed.). London, England: Taylor & Francis Group.

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