These analyses can constitute guidelines about stabilizer design to minimize vibrations. The novelty of this work is to introduce the geometry details of the stabilizers in the time domain dynamics to differentiate designs in terms of likelihood to...
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Various stabilizer types are used in the industry, such as bladed stabilizers with straight or spiral blades, roller-reamers, and other emergent forms. Their designs are proved, via many in-field measurements, to have a significant impact on vibration levels. Although experimental data is extremely valuable to rank the available design options, testing the different stabilizers can be costly and sometimes risky. In addition, in-field conditions can be difficult to control making the comparisons between stabilizers even more complicated.
Assessing the design impact using numerical simulations represents an interesting alternative to provide objective comparisons based on tests in a controlled environment. This numerical model is applied to quantify the effect of stabilizer design in terms of vibration, from straight blades to highly spiraled blades. First, a parametric study of blade design and wellbore inclination effects on stabilizer vibrations is presented by considering different stabilizers in straight well conditions. Simulations of an actual drill string configuration in an unconventional well is discussed. For vertical, curved, and horizontal sections, the acceleration levels, contact forces, and rotation speeds are investigated.
These analyses can constitute guidelines about stabilizer design to minimize vibrations. The novelty of this work is to introduce the geometry details of the stabilizers in the time domain dynamics to differentiate designs in terms of likelihood to trigger vibrations. Reach out to us to read out the full tech paper here: https://www.helmerichpayne.com/resources/technical-publications/detailed-dynamics-modeling-helps-to-assess-the-effect-of-stabilizer-design-on-drillstring-vibrations or you can directly reach out to us here: https://www.helmerichpayne.com/contact.
