A ram accelerator device may utilize rails arranged within a guide tube that may be emplaced downhole. The rails may serve to direct a hypervelocity projectile along the length of the guide tube. The rails may carry utilities or provide other services to operate the system. For example, electrical w
A ram accelerator device may utilize rails arranged within a guide tube that may be emplaced downhole. The rails may serve to direct a hypervelocity projectile along the length of the guide tube. The rails may carry utilities or provide other services to operate the system. For example, electrical wiring for power, control signaling, and so forth, may be placed within the rails. In another example, gasses may be delivered by the rails.
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1. A method for drilling, the method comprising: deploying a guide tube in a hole, the guide tube comprising a first end proximate to an entry of the hole and a second end proximate to a working face;deploying an endcap at the second end of the guide tube, wherein the endcap is guided by a rail tube
1. A method for drilling, the method comprising: deploying a guide tube in a hole, the guide tube comprising a first end proximate to an entry of the hole and a second end proximate to a working face;deploying an endcap at the second end of the guide tube, wherein the endcap is guided by a rail tube within the guide tube; andfiring, using a ram accelerator, a ram-effect propelled projectile into the first end of the guide tube. 2. The method of claim 1, further comprising: mechanically engaging one or more of the projectile, the endcap, or an obturator at a particular location within one or more of the ram accelerator or the guide tube. 3. The method of claim 1, further comprising: applying a purge gas to a volume exterior to the endcap and proximate to the working face. 4. The method of claim 3, wherein the purge gas forms an ullage in contents of the hole prior to penetration of the projectile. 5. The method of claim 1, wherein the projectile substantially penetrates the endcap and at least a portion of the projectile impacts at least a portion of the working face. 6. The method of claim 1, wherein a shape of the endcap comprises a concavity configured to accept the projectile. 7. The method of claim 1, wherein the endcap forms at least a partial seal between an interior of the guide tube and fluid in the hole. 8. The method of claim 1, wherein the endcap comprises a material configured to expand or swell, and further wherein the endcap provides a seal between the first end and the second end of the guide tube. 9. The method of claim 1, wherein the endcap comprises a structure configured to change from a first physical configuration to a second physical configuration, wherein the second physical configuration exhibits a greater width than the first physical configuration, and further wherein the endcap provides a seal between the first end and the second end of the guide tube. 10. The method of claim 1, wherein the deploying of the endcap further comprises one or more of: drawing the endcap by gravity to the second end of the guide tube,applying a positive fluid pressure at the first end of the guide tube to draw the endcap to the second end of the guide tube,applying a negative fluid pressure outside of the second end of the guide tube to draw the endcap to the second end of the guide tube, orpushing the endcap to the second end of the guide tube with a mechanical member. 11. A method comprising: deploying an endcap at a distal end of a guide tube, wherein the endcap is guided by a rail tube within the guide tube; andfiring, using a ram accelerator, a propelled projectile into a proximal end of the guide tube, wherein the projectile is guided by the rail tube within the guide tube. 12. The method of claim 11, further comprising: forming an ullage within a fluid proximate to the distal end of the guide tube. 13. An apparatus comprising: a first section; anda first rail member disposed within the first section, wherein the first rail member is configured to guide at least a projectile and an endcap during passage through the first section. 14. The apparatus of claim 13, wherein the first rail member comprises one or more engagement features to engage at least a portion of the projectile or the endcap. 15. The apparatus of claim 13, further comprising: a section separator mechanism coupled to an end of the first section; andwherein the first rail member provides one or more utilities to operate the section separator mechanism. 16. The apparatus of claim 13, wherein the first rail member conveys combustible gasses into at least a portion of the first section. 17. The apparatus of claim 13, further comprising a second rail member and a third rail member, wherein the first rail member, the second rail member, and the third rail member are arranged equidistant along a circumference of the first section. 18. The apparatus of claim 13, further comprising a second section, wherein the second section comprises one or more retention features biased inward with respect to the second section by one or more springs. 19. The apparatus of claim 18, further comprising an obturator, wherein the obturator, the projectile, or the endcap have one or more retention recesses configured to be engaged by the retention features. 20. The apparatus of claim 13, further comprising: a baffled-tube ram accelerator comprising one or more baffles.
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이 특허에 인용된 특허 (33)
Naumann Karl W. (Weil am Rhein DEX), Acceleration apparatus.
Cherrington Martin D. (Cherrington Corp. ; 7398 San Joaquin Sacramento CA 95820) Cherrington William D. (Cherrington Corp. ; 7398 San Joaquin Sacramento CA 95820), Apparatus and method for forming an enlarged underground arcuate bore and installing a conduit therein.
Watson John David, Method and apparatus for controlled small-charge blasting of hard rock and concrete by explosive pressurization of the bottom of a drill hole.
Hertzberg Abraham (Bellevue WA) Bruckner Adam P. (Seattle WA) Bogdanoff David W. (Mountain View CA) Knowlen Carl (Seattle WA), Method and apparatus for initating stable operation of a ram accelerator.
Hertzberg Abraham (Bellevue WA) Bruckner Adam P. (Seattle WA) Knowlen Carl (Seattle WA) McFall Keith A. (Seattle WA), Method and apparatus for zero velocity start ram acceleration.
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