Claims
- 1. A method of transferring a Bingham solid through a conduit comprising:
- (a) exerting a pressure on the Bingham solid to force it axially through an upstream cylindrical chamber having a substantially uniform diameter, from which the Bingham solid moves axially into and through an adjoining downstream cylindrical chamber having a substantially uniform diameter larger than that of the upstream chamber, and from which it then moves into and through a conduit of substantially uniform diameter substantially equal to that of said downstream cylindrical chamber; and
- (b) simultaneously injecting a lubricating fluid into an annular chamber coaxial with said upstream and downstream cylindrical chambers, said annular chamber being connected to said downstream chamber by an annular passageway coaxial with said cylindrical chambers, said annular passageway having a constricted annular throat portion of adjustable width and a wider annular exit portion that ends facing in the downstream direction in a plane that delimits said cylindrical chambers and is normal to their common axis, said annular exit portion having an outside diameter substantially equal to the diameter of said downstream chamber and an inside diameter substantially greater than the diameter of said upstream chamber;
- (1) the rate at which the Bingham solid is forced through said chambers and conduit, (2) the rate of injection of said lubricating fluid, and (3) the width of said constricted annular throat being selected to give a lubricating fluid flow rate which is no greater than about 5% of the Bingham solid flow rate, on a weight basis, and a drag force on the Bingham solid moving through a given section of said conduit which is no greater than the motive force of gravity on the Bingham solid when said given section of conduit is made vertical.
- 2. A method of claim 1 wherein a section of said conduit is vertical and said Bingham solid slides in plug flow down through the vertical section of conduit under the motive force of gravity.
- 3. A method of claim 1 in which the pressures required to force the Bingham solid into the upstream cylindrical chamber and to inject the lubricating fluid are provided by pumps.
- 4. A method of claim 1 in which the lubricating fluid is water.
- 5. A method of claim 1 in which the lubricating fluid is a mixture of ethylene glycol and water.
- 6. A method of claim 1 in which the lubricating fluid is seawater.
- 7. A method of claim 1 in which the lubricating fluid is an aqueous solution of a water-soluble polymer.
- 8. A method of claim 7 in which the water-soluble polymer is polyacrylamide.
- 9. A method of claim 1 in which a descending section of conduit is in a hole drilled into a geological formation that is to be blasted and the Bingham solid transferred through the conduit is an explosive.
- 10. A method of claim 9 in which the explosive is in the form of a water-in-oil emulsion.
- 11. A method of claim 9 in which the explosive is of the water-gel type.
- 12. A method of claim 3 in which the Bingham solid is an explosive composition and has a yield stress in the range 1-3 kPa and where the ratio of the volumetric flow rates of lubricating fluid to explosive is less than twice the ratio of throat width to conduit diameter.
- 13. A method of claim 12 in which the conduit diameter is 20-60 mm, the explosive is an emulsion having an external phase of oil and an internal phase that is an aqueous solution of oxidizing salts, the lubricating fluid is water, and the explosive is pumped at a rate of 40-240 liters per minute, and the lubricating fluid is pumped at a rate of 0.2 to 1.2 liters per minute.
- 14. A method of claim 12 in which the throat width is 0.1-0.4 mm.
- 15. A method of claim 3 in which a descending section of conduit is in a hole drilled into a geological formation that is to be hydraulically fractured, and the Bingham solid transferred through the conduit contains solid particles of sufficient strength to prevent complete closure of a hydraulic fracture if distributed in the fracture.
- 16. A method of claim 9 wherein the hole is a well that is to be treated by detonating an explosive charge in it.
- 17. A method of claim 15 wherein the hole is an oil well that is to be treated by the hydraulic fracturing method.
- 18. A method of claim 9 in which the hole is in the bottom of a body of water and the conduit extends from a platform above the surface of the water, down through the water, and into the hole.
- 19. A method of claim 1 wherein the Bingham solid is transferred into a tank through a conduit.
- 20. A method of claim 1 wherein the Bingham solid is transferred into a package through a conduit.
- 21. A method of claim 2 in which the pressures required to force the Bingham solid into the upstream cylindrical chamber and to inject the lubricating fluid are provided by pumps.
- 22. A method of claim 2 in which the lubricating fluid is water.
- 23. A method of claim 2 in which the lubricating fluid is a mixture of ethylene glycol and water.
- 24. A method of claim 2 in which the lubricating fluid is seawater.
- 25. A method of claim 2 in which the lubricating fluid is an aqueous solution of a water-soluble polymer.
- 26. A method of claim 25 in which the water-soluble polymer is polyacrylamide.
- 27. A method of claim 21 in which the Bingham solid is an explosive composition and has a yield stress in the range of 1-3 kPa and where the ratio of the volumetric flow rates of lubricating fluid to explosive is less than twice the ratio of throat width to conduit diameter.
- 28. A method of claim 27 in which the conduit diameter is 20-60 mm, the explosive is an emulsion having an external phase of oil and an internal phase that is an aqueous solution of oxidizing salts, the lubricating fluid is water, and the explosive is pumped at a rate of 40-240 liters per minute, and the lubricating fluid is pumped at a rate of 0.2 to 1.2 liters per minute.
- 29. A method of claim 27 in which the throat width is 0.1-0.4 mm.
- 30. A method of claim 21 in which a descending section of conduit is in a hole drilled into a geological formation that is to be hydraulically fractured, and the Bingham solid transferred through the conduit contains solid particles of sufficient strength to prevent complete closure of a hydraulic fracture if distributed in the fracture.
- 31. A method of claim 30 in which the hole is an oil well that is to be treated by the hydraulic fracturing method.
- 32. A method of claim 15 in which the hole is in the bottom of a body of water and the conduit extends from a platform above the surface of the water, down through the water, and into the hole.
- 33. A method of claim 30 in which the hole is in the bottom of a body of water and the conduit extends from a platform above the surface of the water, down through the water, and into the hole.
- 34. A method of claim 2 in which the Bingham solid is transferred into a tank through a conduit.
- 35. A method of claim 2 in which the Bingham solid is transferred into a package through a conduit.
Parent Case Info
This is a division, of application Ser. No. 375,543, filed May 6, 1982 now U.S. Pat. No. 4,462,429 issued July 31, 1984.
US Referenced Citations (6)
Divisions (1)
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Number |
Date |
Country |
Parent |
375543 |
May 1982 |
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