US2023220732A1PendingUtilityA1
Projectile Drilling Systems and Methods
Est. expiryAug 8, 2037(~11.1 yrs left)· nominal 20-yr term from priority
Inventors:Mark C. Russell
E21B 7/007E21B 47/09E21B 7/064E21B 7/16
64
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Claims
Abstract
Spherical projectiles may be used to form one or more holes in geologic or other material. These holes may be used for drilling, tunnel boring, excavation, and so forth.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A system comprising:
a drill bit configured to displace material from a geological formation; a ram accelerator assembly including:
a propellant chamber; and
a launch tube extending from the propellant chamber to an orifice in the drill bit; and
a spherical projectile within the launch tube, wherein the propellant urges the spherical projectile through the launch tube to exit the orifice in the drill bit and impact the geological formation to weaken the geological formation and facilitate displacement of the material from the geological formation by the drill bit.
2 . The system of claim 1 , further comprising a spherical endcap within the launch tube between the orifice and the spherical projectile, wherein the spherical endcap prevents entry of the material from the geological formation into the launch tube, and wherein the spherical projectile penetrates at least a portion of the spherical endcap when urged through the launch tube to exit the orifice.
3 . The system of claim 2 , further comprising a plunger in communication with the launch tube, wherein the plunger is movable into the launch tube to position one or more of the spherical endcap and the spherical projectile and is retractable from the launch tube to evacuate the launch tube.
4 . A method comprising:
providing a drill bit associated with a ram accelerator assembly having a launch tube that extends between an orifice in the drill bit and a propellant chamber; extending a plunger into the launch tube to position a spherical endcap at a first end of the launch tube proximate to the drill bit and a spherical projectile at a second end of the launch tube proximate to the propellant chamber; using propellant in the propellant chamber to urge the spherical projectile through the launch tube toward the orifice in the drill bit, wherein the spherical projectile penetrates the spherical endcap, exits the orifice in the drill bit, and weakens a portion of a geological formation proximate to the drill bit; and urging the drill bit toward the portion of the geological formation to penetrate the portion of the geological formation with the drill bit.
5 . The method of claim 4 , further comprising:
positioning the first end of the launch tube at an offset angle relative to a longitudinal axis of the drill bit, such that the launch tube is non-parallel to the longitudinal axis; determining, using one or more sensors, that the first end of the launch tube is positioned toward a first side of the drill bit relative to the longitudinal axis; wherein the projectile is urged through the launch tube to exit the orifice in the drill bit when the first end of the launch tube is positioned toward the first side, and the projectile weakens the portion of the geological formation located in a direction corresponding to the first side of the drill bit; and wherein contact between the drill bit and at least one other portion of the geological formation urges the drill bit toward the portion of the geological formation weakened by the projectile to steer the drill bit in the direction corresponding to the first side.Cited by (0)
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