Systems for delivering explosives and methods related thereto
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42D-001/10
F42D-003/04
F42D-001/04
F42D-099/00
출원번호
US-0962770
(2015-12-08)
등록번호
US-9435625
(2016-09-06)
발명자
/ 주소
Halander, John B.
Kome, Cornelis L.
Nelson, Casey L.
Bruner, Jon
출원인 / 주소
Dyno Nobel Inc.
대리인 / 주소
Stoel Rives LLP
인용정보
피인용 횟수 :
5인용 특허 :
19
초록
Systems for delivering explosives with variable densities are disclosed herein. Methods of delivering explosives with variable densities and methods of varying the energy of explosives in a blasthole are disclosed herein.
대표청구항▼
1. An explosives delivery system comprising: a first reservoir configured to store a first gassing agent, wherein the first gassing agent comprises a pH control agent;a second reservoir configured to store a second gassing agent, wherein the second gassing agent comprises a chemical gassing agent;a
1. An explosives delivery system comprising: a first reservoir configured to store a first gassing agent, wherein the first gassing agent comprises a pH control agent;a second reservoir configured to store a second gassing agent, wherein the second gassing agent comprises a chemical gassing agent;a third reservoir configured to store an emulsion matrix;a homogenizer configured to mix the emulsion matrix and the first gassing agent into a homogenized product, the homogenizer operably connected to the first reservoir and the third reservoir;a delivery conduit operably connected to the homogenizer, wherein the delivery conduit is configured to convey the homogenized product, wherein the delivery conduit is configured for insertion into a blasthole, and wherein the second reservoir is operably connected to the delivery conduit proximal an outlet of the delivery conduit; anda mixer located proximal the outlet of the delivery conduit, wherein the mixer is configured to mix the homogenized product with at least the second gassing agent to form a sensitized explosive product. 2. The explosives delivery system of claim 1, wherein the first reservoir is further configured to store a gassing accelerator in mixture with the first gassing agent, and wherein the homogenizer is configured to mix the emulsion matrix and the mixture of the gassing accelerator and the first gassing agent into the homogenized product. 3. The explosives delivery system of claim 1, wherein a stream of the second gassing agent is configured to be conveyed at a volumetric flow rate of less than about 5% of a mass flow rate of a stream of the emulsion matrix. 4. The explosives delivery system of claim 1, further comprising a nozzle located at and operably connected to the outlet of the delivery conduit, wherein the nozzle is configured to convey the sensitized product to the blasthole, wherein the mixer is located within an inner surface of the nozzle. 5. The explosives delivery system of claim 4, wherein the nozzle comprises at least one port configured for introducing the second gassing agent to the homogenized product, wherein the at least one port connects an outer surface and the inner surface of the nozzle and the at least one port is located upstream from the mixer within the nozzle. 6. The explosives delivery system of claim 5, wherein the delivery conduit comprises a flexible tube, wherein the flexible tube comprises a first annulus comprising an inner surface and an outer surface, wherein the inner surface is separated from the outer surface by a first thickness, wherein the first annulus is configured to convey the homogenized product, wherein the first annulus is operably connected to the inner surface of the nozzle. 7. The explosives delivery system of claim 6, wherein the flexible tube further comprises a second annulus coextensive and parallel to the first annulus, wherein the second annulus is radially located between the first surface and the second surface of the first annulus, wherein the length of the diameter of the second annulus is equal to or less than the length of the first thickness, wherein the second annulus is configured to convey the second gassing agent. 8. The explosives delivery system of claim 7, wherein an outlet of the second annulus is operably connected to the outer surface of the nozzle and the at least one port. 9. The explosives delivery system of claim 1, further comprising a lubricant injector operably connected to the homogenizer and the delivery conduit, wherein the lubricant injector is configured to inject an annulus of lubricant to lubricate conveyance of the homogenized product along the delivery conduit. 10. The explosives delivery system of claim 9, wherein the mixer is configured to mix the lubricant with the homogenized product and the second gassing agent to form the sensitized product. 11. The explosives delivery system of claim 1, wherein the homogenizer is configured to introduce a shearing stress on the emulsion matrix and the first gassing agent. 12. The explosives delivery system of claim 1, wherein the emulsion matrix comprises a continuous fuel phase and a discontinuous oxidizer phase. 13. The explosives delivery system of claim 1, wherein the emulsion matrix provides at least 95% of the oxygen content of the sensitized product. 14. The explosives delivery system of claim 1, wherein the homogenizer comprises a valve configured to introduce the shearing stress on the emulsion matrix. 15. The explosives delivery system of claim 1, further comprising a fourth reservoir configured to store a solid oxidizer. 16. The explosives delivery system of claim 15, further comprising a fifth reservoir configured to store a liquid fuel. 17. The explosives delivery system of claim 1, wherein the blasthole has a uniform diameter or a portion with an increased diameter. 18. An explosives delivery system comprising: a first reservoir configured to store a first gassing agent;a second reservoir configured to store a second gassing agent;a third reservoir configured to store an emulsion matrix;a homogenizer configured to mix the emulsion matrix and the first gassing agent into a homogenized product with increased viscosity and reduced oxidizer phase droplet size relative to the emulsion matrix, the homogenizer operably connected to the first reservoir and the third reservoir;a delivery conduit operably connected to the homogenizer, wherein the delivery conduit is configured to convey the homogenized product, wherein the delivery conduit is configured for insertion into a blasthole, and wherein the second reservoir is operably connected to the delivery conduit proximal an outlet of the delivery conduit; anda mixer located proximal the outlet of the delivery conduit, wherein the mixer is configured to mix the homogenized product with at least the second gassing agent to form a sensitized explosive product. 19. The explosives delivery system of claim 18, wherein the homogenizer comprises a valve configured to introduce a shearing stress on the emulsion matrix and the first gassing agent. 20. An explosives delivery system comprising: a first reservoir configured to store a first gassing agent;a second reservoir configured to store a second gassing agent;a third reservoir configured to store an emulsion matrix;a homogenizer configured to mix the emulsion matrix and the first gassing agent into a homogenized product, the homogenizer operably connected to the first reservoir and the third reservoir, the homogenizer configured to introduce a shearing stress on the emulsion matrix and the first gassing agent;a delivery conduit operably connected to the homogenizer, wherein the delivery conduit is configured to convey the homogenized product, wherein the delivery conduit is configured for insertion into a blasthole, and wherein the second reservoir is operably connected to the delivery conduit proximal an outlet of the delivery conduit; anda mixer located proximal the outlet of the delivery conduit, wherein the mixer is configured to mix the homogenized product with at least the second gassing agent to form a sensitized explosive product. 21. The explosives delivery system of claim 20, wherein the homogenizer comprises a valve.
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이 특허에 인용된 특허 (19)
da Silva, Gabriel; Dlugogorsk, Bogdan Z.; Kennedy, Eric M., Gassing of emulsion explosives with nitric oxide.
Halliday Pieter S. (Randburg ZAX) Tucker Gareth (Germiston ZAX) Lbbe Carl H. (Kempton Park ZAX) Harris Alan J. (Knoppieslaagte ZAX) Russell David G. (Johannesburg ZAX), Loading of boreholes with explosive.
Lbbe Carl H. (Kempton Park ZAX) Wilson Colin D. (Lonehill ZAX) Wilson Laurence J. P. (Modderfontein ZAX), Loading of boreholes with flowable explosives.
Ehrnstrm Hans (Gyttorp SEX) Ekman Gunnar (Nora SEX), Method for the preparation of a water-in-oil type emulsion explosive and an oxidizer composition for use in the method.
Bloess, Andreas; Bosma, Martin Gerard Rene; Cornelissen, Erik Kerst; Gunningham, Michael Caspar; Kenter, Cornelis Jan; Worrall, Robert Nicholas, Method of creating a zonal isolation in an underground wellbore.
Honeyman Gordon R. (North Bay MO CAX) Owen ; II James H. (Jefferson City MO), Method of producing high-density slurry/prill explosives in boreholes and product made thereby.
Tibbitts, Gordon A.; Galloway, Greg; Vuyk, Jr., Adrian; Terry, James, Methods of using a particle impact drilling system for removing near-borehole damage, milling objects in a wellbore, under reaming, coring, perforating, assisting annular flow, and associated methods.
Tibbitts, Gordon; Galloway, Greg; Vuyk, Jr., Adrian; Terry, James, Methods of using a particle impact drilling system for removing near-borehole damage, milling objects in a wellbore, under reaming, coring, perforating, assisting annular flow, and associated methods.
Lanza Rivas, Rafael; Quintana Angulo, Jose Ramon; Beitia Gomez De Segura, Fernando Maria, Procedure and installation for on-site manufacturing of explosives made from a water based oxidizing product.
Gomez De Segura, Fernando Beitia; Angulo, Jose Ramon Quintana; Rivas, Rafael Lanza, Process and mechanism for in situ sensitization of aqueous explosives.
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