- Gong J., Zhang Y., Liao L.L., Duan J.M., Wang P.Y., Zhou J. (2011) Wax Deposition in the Oil/Gas Two-Phase Flow for a Horizontal Pipe, Energy Fuels 25, 4, 1624-1632. [CrossRef] [Google Scholar]
- Sato Y., Sadatomi M., Sekoguchi K. (1981) Momentum and Heat Transfer in Two-Phase Bubble Flow – I. Theory, Int. J. Multiphase Flow 7, 2, 167-177. [CrossRef] [Google Scholar]
- Henriot V., Pauchon C., Duchet S.P., Leibovici C.F. (1997) Contribution of Fluid Composition Tracing on Transient Multiphase Flow Simulation, Proceedings 29th Annual Offshore Technology Conference, Texas, USA, 5-7 May. [Google Scholar]
- Bendiksen K.H., Malnes D., Moe R. (1991) The Dynamic Twofluid Model OLGA : Theory and Application, SPE Prod. Eng. 6, 2, 171-180. [Google Scholar]
- Gould T.L. (1979) Compositional Two-phase Flow in Pipelines, J. Pet. Technol. 31, 3, 373-384. [Google Scholar]
- Gregory G., Aziz K. (1978) Calculation of Pressure and Temperature Profiles in Multiphase Pipelines and Simple Pipeline Networks, J. Can. Pet. Technol. 17, 1, 56-67. [Google Scholar]
- Cawkwell M.G., Charles M.E. (1985) Pressures Temperatures Predicted for Two-Phase Pipelines, Oil Gas J. 83, 21, 101-107. [Google Scholar]
- Alves I.N., Alhanatl F.J.S., Shoham O. (1992) Unified Model for Predicting Flowing Temperature Distribution in Wellbores and Pipelines, SPE Prod. Eng. 7, 4, 363-367. [Google Scholar]
- Coulter D.M, Bardon M.F. (1979) Revised Equation Improves Flowing Gas Temperature Prediction, Oi1 Gas J. 2, 26, 107-108. [Google Scholar]
- Ramey H.J. Jr, (1985) Non-Darcy Flow and Wellbore Storage Effects in Pressure Build Up and Drawdown of Gas Wells, J. Pet. Technol. 17, 2, 223-233. [Google Scholar]
- Dulchovnaya Y., Adewumi A. (2000) Simulation of Non- Isothermal Transients in Gas-Condensate Pipelines Using TVD Scheme, Powder Technol. 112, 1, 163-171. [CrossRef] [Google Scholar]
- Moshfeghian M., Johannes A.H., Maddox R.N. (2002) Thermodynamic Properties are Important in Predicting Pipeline Operations Accurately, Oil Gas J. 100, 11, 56-62. [Google Scholar]
- Yu X.C., Feng S.C., LI Y.X. (2002) Derive of Temperature drop Equation of Multiphase Flown in Pipelines, Oil Gas Storage Transportation 19, 4 22-25. [Google Scholar]
- Li Y.X., Feng S.C., Fan C.B. (2001) Computation of Temperature Drop of Multiphase Flow Pipelines, Oil Gas Storage Transportation 20, 9, 32-35. [Google Scholar]
- Wang K., Zhang J.J., Yu B., Zhou J., Qian J.H., Qiu D.P. (2009) Numerical Simulation on the Thermal and Hydraulic Behaviors of Batch Pipelining Crude Oils with Different Inlet Temperatures, Oil Gas Sci. Technol. 64, 4, 503-520. [CrossRef] [EDP Sciences] [Google Scholar]
- Chen J.R., Richardson S.M., Saville G. (1995) Modelling of Two-phase Blow Down from Pipelines – II. A Simplified Numerical Method for Multi-component Mixtures, Chem. Eng. Sci. 50, 13, 2173-2187. [CrossRef] [Google Scholar]
- Munkejord S.T., Jakobsen J.P., Austegard A., Mølnvik M.J. (2009) Thermo and Fluid-dynamical Modeling of Two-phase Multi-component Carbon Dioxide Mixtures, Energy Proscenia 1, 1, 1649-1656. [CrossRef] [Google Scholar]
- Cazarez O., Montoya D., Vital A.G. (2010) Modeling of Threephase Heavy Oil-water-gas Bubbly Flow in Upward Vertical Pipes, J. Multiphase Flow 36, 439-448. [CrossRef] [Google Scholar]
- Andreani M., Yadigaroglu G. (1997) A 3-D Eulerian-Lagrangian Model of Dispersed Flow Film Boiling including a Mechanistic Description of the Droplet Spectrum Evolution – I. The thermalhydraulic Model, Int. J. Heat Mass Trans. 40, 8, 1753-1772. [CrossRef] [Google Scholar]
- Collado F.J., Munoz M. (1997) New Considerations on the Mass and Energy Balances in One-dimensional Two-phase Flow at Steady State, Powder Technol. 92, 3, 195-204. [CrossRef] [Google Scholar]
- Deng D.M., Gong J. (2008) Computation of Temperature Drops of Gas-Condensate Flow in Pipelines, J. Engin. Thermophys. 29, 10, 1691-1694. [Google Scholar]
- Sagar R., Doty D.R., Schmidt Z. (1991) Predicting Temperature Profiles in a Flowing Well, SPE Prod. Eng. 6, 4, 441-448. [Google Scholar]
- Deng D.M., Gong J. (2006) Prediction of Transient Behaviors of Oil-Gas Two-Phase Flow in Pipelines with Low Liquid Loading, 6th International Pipelines Conference, Calgary, Canada, 26-28 Nov. [Google Scholar]
Open Access
Issue |
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 68, Number 2, March-April 2013
Dossier: InMoTher 2012 - Industrial Use of Molecular Thermodynamics
|
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Page(s) | 341 - 353 | |
DOI | https://doi.org/10.2516/ogst/2012020 | |
Published online | 20 September 2012 |
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