Numerical Simulation of Foam Flow in Annulus With Wellbore Heat Transfer

SUN Shihui, YAN Tie, BI Xueliang, XING Yunlong

Abstract


In the study of hydraulic parameters in foam drilling, most foam hydraulic models were built based on the assumption that wellbore temperature was equal to formation temperature. But energy exchange takes place among annular foam fluid, formation and drill string, there may be a discrepancy between wellbore temperature and formation temperature. The effects of heat transfer on foam flow in annulus were investigated by numerical simulation in this paper. Simulation results show that due to the influence of temperature on pressure, the changes of annular pressure are transient. And foam fluid density, viscosity and other physical parameters are change with pressure. During foam fluid transports the solid particles from bottom to surface, solid particles accelerate and foam decelerates. When high solid particles concentration zone is reached, foam velocity decreases to a minimum value, and then increases due to the decrease of solid particle concentration. When cuttings velocity increases to a certain value, cuttings transport with a constant velocity.
Key words: Heat transfer; Foam drilling; Annulus pressure; Foam velocity; Numerical simulation


Keywords


Heat transfer; Foam drilling; Annulus pressure; Foam velocity; Numerical simulation

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References


[1] Yang, H., & Yan, J. N. (2003). Factors on cuttings carrying capacity for foam drilling fluids. Petroleum Drilling Techniques, 31(5), 49-52.

[2] Ozbayoglu, E., Miska, S. Z., & Reed, T. (2003). Cuttings transport with foam in horizontal & highly - inclined wellbores (SPE 79856).

[3] Wang, Z. M., & Hong, Y. K. (2008). Numerical simulation of effect of foam quality and annulus velocity on cuttings carrying capacity. Oil Drilling & Production Technology, 30(3), 34-37.

[4] Liy, K. E. (2003). Numerical modeling of cutting transport with foam in vertical well. Paper presented at the Canadian International Petroleum Conference, Calgary, Alberta.

[5] Ping, L. Q., Wang, Z. M. (2008). Model research of full hole two-phase flow in underbalanced horizontal well drilling. Oil Drilling & Production Technology, 30(3), 29-33.

[6] Guo, B., & Ghalambor, A. (2002). Gas volume requirements for underbalanced drilling. Tulsa, USA: PennWell Corporation.

[7] Zhou, Y. C., & Zhai, H. J. (2003). Underbalanced drilling technology and application. China: Petroleum Industry Press.

[8] Hasan, A. R., & Kabir, C. S. (1991). Heat transfer during two-phase flow in wellbores: Part-M wellbore fluid temperature. Paper presented at the 66th Annual Technical Conference and Exhibition of hte Society of Petroleum Engineers, Dallas, TX.

[9] Hasan, A. R., & Kabir, C. S. (1991). Heat transfer during two-Phase flow in well bores. Paper presented at the 66th Annual Technical Conference and Exhibition of hte Society of Petroleum Engineers, Dallas, TX.

[10] Han, Z. Z., & Wang, J. (2004). Engineering simulation with Fluent - CFD software. Beijing, China: Beijing Institute of Technology Press.




DOI: http://dx.doi.org/10.3968/5383

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