| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1726236 | Ocean Engineering | 2012 | 8 Pages |
The bit-bounce, or contact-instability, phenomenon which occurs in the drill string suspended from a floating vessel with an active drill string compensator to maintain a steady weight on the drill bit is investigated. This effect is sometimes ascribed to torsion effects when turning the drill bit, however, in this paper only the vertical effects induced by vessel heave are considered. A dynamic model is generated which is used for a set of simulations illustrating the contact-instability. An impedance approach for resolving this problem is described and included in the simulations which demonstrate that by modifying the impedance the bit-bounce is greatly reduced.
► Modelling of the bit-bounce, or contact-instability, phenomenon occuring in the drill string suspended from a floating vessel. ► Inclusion of an active drill string compensator to maintain a steady weight on the drill bit. ► Generation of a dynamic model used for a set of simulations illustrating the contact-instability. ► Use of an impedance approach for resolving the problem means that the bit-bounce is greatly reduced.
