In an effort to develop methods of solving the issue of cuttings bed in horizontal wells, a 3-D transient model is establi- shed to simulate the distribution features and the transport mechanism of cuttings bed. The C...In an effort to develop methods of solving the issue of cuttings bed in horizontal wells, a 3-D transient model is establi- shed to simulate the distribution features and the transport mechanism of cuttings bed. The CFD calculation results show that the cut- tings at the cross-sectional area of the mutation location such as the drilling pipe connector would easily settle down to build up a cuttings bed and the transport performance of the cuttings in a horizontal well can only be improved to some extent by adjusting the working parameters without using any destruction tools for the cuttings bed, thus the issue of a cuttings bed can not be solved in general. Accordingly, a new approach to effectively prevent and actively destroy the cuttings bed by using the Cuttings Bed Impeller (CBI) is proposed, the sensitivity analysis of which is conducted to determine the optimal structural parameters and the best matched working parameters from a perspective of the wellbore cleaning. Results show that the use of the CBI produces a number of benefits, including the reduced drill string torque to avoid the stuck pipe incidents with corresponding improvement in hole quality, a shorter trip time, and less wear on the drill string, the top drive and the casing. This research offers theoretical guidelines for the design of destruction tools for the cuttings bed and for the wellbore cleaning control in the horizontal drilling.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos. 51222406, 51004082)the New Century Excellent Talents in University of China (Grant No.NCET-12-1061)the Scientific Research Innovation Team Project of Sichuan colleges and universities (Grant No.12TD007)
文摘In an effort to develop methods of solving the issue of cuttings bed in horizontal wells, a 3-D transient model is establi- shed to simulate the distribution features and the transport mechanism of cuttings bed. The CFD calculation results show that the cut- tings at the cross-sectional area of the mutation location such as the drilling pipe connector would easily settle down to build up a cuttings bed and the transport performance of the cuttings in a horizontal well can only be improved to some extent by adjusting the working parameters without using any destruction tools for the cuttings bed, thus the issue of a cuttings bed can not be solved in general. Accordingly, a new approach to effectively prevent and actively destroy the cuttings bed by using the Cuttings Bed Impeller (CBI) is proposed, the sensitivity analysis of which is conducted to determine the optimal structural parameters and the best matched working parameters from a perspective of the wellbore cleaning. Results show that the use of the CBI produces a number of benefits, including the reduced drill string torque to avoid the stuck pipe incidents with corresponding improvement in hole quality, a shorter trip time, and less wear on the drill string, the top drive and the casing. This research offers theoretical guidelines for the design of destruction tools for the cuttings bed and for the wellbore cleaning control in the horizontal drilling.
