Analysis on Influential Factors of Well Temperature for Deepwater Drilling
Abstract
Wellbore circulating temperature must be predicted accurately to prevent gas hydrate and safe well construction operations during deepwater drilling. A model for predicting wellbore temperature distribution in deep water wells during circulation has been developed in terms of thermodynamics theory in this paper. And the influential factorsare analyzed. Model calculation results indicate that temperature profile is strongly dependent on mud specific heat and thermal conductivity, mud density and flow rate dependence of temperature effects is small. Wellbore temperature is dynamic, temperature increases with the increase of circulating time, and tend to be constant when circulating time reaches a certain value. And geothermal gradients of formation under mud line have a significant influence on wellbore temperature.
Key words: Temperature distribution; Deepwater drilling; Thermodynamics theory; Influential factors
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[1] Baker, J. W., & Gomez, R. K. (1989). Formation of hydrates during deepwater drilling operations. JPZ, 41(3), 297-301.
[2] Hale, A. H., & Dewan, A. K. R. (1990). Inhibition of gas hydrates in deepwater drilling. SPE Drilling Engineering, 5(2), 109-115.
[3] Gao, S., House, W., & Chapman, W. (2005, May). Characterization of hydrate formation in black oil using NMR. Paper presented at 2005 Offshore Technology Conference, Houston, TX, USA.
[4] Romero J., & Touboul, E. (1998, September). Temperature prediction for deepwater wells: A field validated methodology. Paper presented at SPE Annual Technical Conference and Exhibition, New Orleans, Louisiana.
[5] Incropera, F. P., & De Witt, D. P. (1990). Fundamentals of heat and mass transfer (3rd ed.). USA: John Wiley & Sons.
[6] Welty, J. R., & Wicks, C. E., & Wilson, R. E. (1984). Fundamentals of momentum, heat, and mass transfer (3rd ed.). USA: John Wiley & Sons.
[7] Eirik, K., & Bernt, S. (1999, September). Optimization of mud temperature and fluid models in offshore applications. Paper presented at Offshore Europe Oil and Gas Exhibition and Conference, Aberdeen, United Kingdom.
[8] Hasan, A. R., & Kabir, C. S. (1994). Aspects of wellbore heat transfer during two-phase flow. SPE Production & Facilities, 9(3), 211-216.
[9] Hansen, A. R. (1991, October). Heat transfer during two-phase flow in wellbores: Part I, formation temperature. Paper presented at SPE Annual Technical Conference and Exhibition Dallas, TX, USA.
DOI: http://dx.doi.org/10.3968/6947
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