Boring or penetrating the earth – Processes
Reexamination Certificate
2001-01-31
2003-09-16
Bagnell, David (Department: 3672)
Boring or penetrating the earth
Processes
C175S039000, C175S040000, C703S007000
Reexamination Certificate
active
06619411
ABSTRACT:
BACKGROUND OF THE INVENTION
Roller cone drill bits are commonly used in the oil and gas industry for drilling wells.
FIG. 1
shows one example of a roller cone drill bit used in a conventional drilling system for drilling a well bore in an earth formation. The drilling system includes a drilling rig
10
used to turn a drill string
12
which extends downward into a wellbore
14
. Connected to the end of the drill string
12
is a roller cone-type drill bit
20
.
As shown in
FIG. 2
, roller cone bits
20
typically comprise a bit body
22
having an externally threaded connection at one end
24
, and at least one roller cone
26
(usually three as shown) attached at the other end of the bit body
22
and able to rotate with respect to the bit body
22
. Disposed on each of the cones
26
of the bit
20
are a plurality of cutting elements
28
typically arranged in rows about the surface of the cones
26
. The cutting elements
28
can be tungsten carbide inserts, polycrystalline diamond inserts, boron nitride inserts, or milled steel teeth. If the cutting elements
28
are milled steel teeth, they may be coated with a hardfacing material.
When a roller cone bit is used to drill earth formations, the bit may experience abrasive wear. Abrasive wear occurs when hard, sharp formation particles slide against a softer surface of the bit and progressively remove material from the bit body and cutting elements. The severity of the abrasive wear depends upon, among other factors, the size, shape, and hardness of the abrasive particles, the magnitude of the stress imposed by the abrasive particles, and the frequency of contact between the abrasive particles and the bit.
Abrasive wear may be subclassified in to three categories: low-stress abrasion, high-stress abrasion, and gouging abrasion. Low-stress abrasion occurs when forces acting on the formation are not high enough to crush abrasive particles. Comparatively, high-stress abrasion occurs when forces acting on the formation are sufficient to crush the abrasive particles. Gouging abrasion occurs when even higher forces act on the formation and the abrasive particles dent or gouge the bit body and/or the cutting elements of the bit.
As a practical matter, all three abrasion mechanisms act on the bit body and cutting elements of drill bits. The type of abrasion may vary over different parts of the bit. For example, shoulders of the bit may only experience low-stress abrasion because they primarily contact sides of a wellbore. However, a drive row of cutting elements, which are typically the cutting elements that first contact a formation, may experience both high-stress and gouging abrasion because the cutting elements are exposed to high axial loading.
Drill bit life and efficiency are of great importance because the rate of penetration of the bit through earth formations is related to the wear condition of the bit. Accordingly, various methods have been used to provide abrasion protection for drill bits in general, and specifically for roller cones and cutting elements. For example, roller cones, cutting elements, and other bit surfaces have been coated with hardfacing material to provide more abrasion resistant surfaces. Further, specialized cutting element insert materials have been developed to optimize longevity of the cutting elements. While these methods of protection have met with some success, drill bits still experience wear.
As a bit wears, its cutting profile can change. One notable effect of the change in cutting profile is that the bit drills a smaller diameter hole than when new. Changes in the cutting profile and in gage diameter act to reduce the effectiveness and useful life of the bit. Other wear-related effects that are less visible also have a dramatic impact on drill bit performance. For example, as individual cutting elements experience different types of abrasive wear, they may wear at different rates. As a result, a load distribution between roller cones and between cutting elements may change over the life of the bit. The changes may be undesirable if, for example, a specific roller cone or specific rows of cutting elements are exposed to a majority of axial loading. This may cause further uneven wear and may perpetuate a cycle of uneven wear and premature bit failure.
For the foregoing reasons, there exists a need for an effective method of improving the wear characteristics of drill bits, and specifically of roller cone drill bits. The design of the bits should be such that the wear experienced over the life of the bit does not cause drilling inefficiency or early failure of the drill bit.
SUMMARY OF THE INVENTION
One aspect of the invention is a drill bit comprising a bit body, at least one roller cone attached to the bit body and able to rotate with respect to the bit body, and a plurality of cutting elements disposed on the at least one roller cone. At least one bit design parameter is selected so that the cutting elements wear in a selected manner when drilling an earth formation.
In another aspect, the invention is a method for optimizing a design of a drill bit comprising at least one roller cone and a plurality of cutting elements. The method comprises selecting initial bit design parameters and simulating drilling at least one selected earth formation. Wear induced changes in cutting element geometries are determined and the simulated bit is adjusted to reflect the wear. The selecting, simulating, determining, and adjusting are repeated and at least one bit design parameter is adjusted until at least one drill bit performance parameter is optimized.
Other aspects and advantages of the invention will be apparent from the following description and the appended claims.
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Ma Dekun et al., “The Operational Mechanics of The Rock Bit”, Petroleum Industry Press, 1996, pp. 1-243.
Society of Petroleum Engineers Paper No. 29922, “The Computer Simulation of the Interaction Between Roller Bit and Rock”, Dekun Ma, et al, presented Nov. 14-17, 1995, 9 pages.
Society of Petroleum Engineers Paper No. 56439, “Field Investigation of the Effects of Stick-Slip, Lateral, and Whirl Vibrations on Roller Cone Bit Performance”, S. L. Chen et al, presented Oct. 3-6, 1999, 10 pages.
Society of Petroleum Engineers Paper No. 71053, “Development and Application of a New Roller Cone Bit with Optimized Tooth Orientation”, S. L. Chen et al., presented May 21-23, 2001, 15 pages.
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Great Britain Search Report dated May 15, 2002.
Huang Sujian
Singh Amardeep
Bagnell David
Gay Jennifer H
Rosenthal & Osha L.L.P.
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