RU2016129473A - NOZZLE, BORE PIPE PRODUCT AND METHOD - Google Patents

Claims (25)

1. A downhole pipe product comprising: a base pipe including a wall; an opening passing through the wall providing access between the inner diameter of the base pipe and the outer surface of the base pipe; a nozzle in the hole, wherein the nozzle includes a calibrated hole including a bend therein. 2. The downhole pipe product according to claim 1, wherein the bend is approximately orthogonal. 3. The downhole pipe product according to claim 1, in which the calibrated hole includes a main section and a second section, the second section deviating approximately 90 ° from the main section. 4. The downhole pipe product according to claim 1, in which the calibrated hole is formed as a tee, including a section of the main calibrated hole and a pair of sections of the side calibrated holes extending from the portion of the main calibrated hole. 5. The borehole product of claim 4, wherein the portions of the pair of lateral calibrated holes are substantially diametrically opposed to each other across the portion of the main calibrated hole. 6. The downhole pipe product according to claim 4, in which the total cross-sectional area of a pair of sections of the side calibrated holes is smaller than the cross-sectional area of the portion of the main calibrated hole. 7. The downhole pipe product according to claim 4, wherein each in a pair of sections of the lateral calibrated holes each is configured as a water jet nozzle. 8. The downhole pipe product according to claim 1, wherein the main calibrated hole opens into the inner diameter, and a pair of portions of the side calibrated holes open on the outer surface. 9. The downhole tubular product according to claim 1, further comprising a protective shield mounted on top of the outer surface, the space between the protective shield and the outer surface with calibrated holes opening into the outer space and the bend deflecting the fluid adjacent to the calibrated hole for passage, essentially parallel to the outer surface. 10. The downhole pipe product according to claim 1, further comprising an installation fitting surrounding the nozzle, wherein the installation fitting includes a passage in which the nozzle is mounted and an outer diameter threaded. 11. A method of controlling fluid in a wellbore, wherein: a fluid is passed through a calibrated nozzle orifice between the inner diameter of the tubular and the outer surface of the tubular, the calibrated nozzle orifice deflecting the flow so that the flow is non-linear between the inner diameter and outer surface. 12. The method of claim 11, wherein the fluid stream, due to the action of the nozzle, extends on the outer surface substantially parallel to the outer surface. 13. The method according to claim 11, in which the passage of the fluid includes moving the fluid from the outer surface to the inner diameter through the nozzle and the creation of colliding flows in the nozzle, which create resistance to the flow passing through the nozzle. 14. The method of claim 11, wherein the wellbore is a wellbore of an operating production well in a heavy oil recovery operation using steam, the fluids including steam. 15. The method according to p. 14, in which additionally provide resistance to the passage of steam through a calibrated orifice of the nozzle to create a steam chamber outside the tubular. 16. The method according to p. 11, in which the nozzle includes a housing made of erosion resistant material; and a calibrated orifice passing through the housing, the calibrated orifice being non-linear and having a deflection bend to change the direction of fluid flow through the calibrated orifice. 17. A nozzle assembly comprising: a nozzle having a housing made of erosion resistant material; and a calibrated hole passing through the housing, and the calibrated hole is non-linear and has a longitudinal deflection bend. 18. The nozzle assembly of claim 17, wherein the deflection bend is approximately orthogonal. 19. The nozzle assembly according to claim 17, wherein the calibrated hole includes a main portion and a second portion, the second portion deviating approximately 90 ° from the main portion. 20. The nozzle assembly of claim 17, wherein the calibrated hole is formed as a tee including a portion of a main calibrated hole and a pair of portions of side calibrated holes extending from a portion of the main calibrated hole. 21. The nozzle assembly of claim 20, wherein the portions of the pair of lateral calibrated holes are substantially diametrically opposed to each other across the portion of the main calibrated hole. 22. The nozzle assembly of claim 20, wherein the pair of portions of the lateral calibrated holes has a total cross-sectional area smaller than the cross-sectional area of the portion of the main calibrated hole. 23. The nozzle assembly of claim 20, wherein in a pair of portions of the side calibrated holes, each is configured as a water jet nozzle. 24. The nozzle assembly of claim 17, wherein the nozzle is substantially cylindrical with ends and cylindrical side walls extending between the ends, and a portion of the main calibrated hole is opened at the end, and a pair of portions of the side calibrated holes are opened on the cylindrical side walls . 25. The nozzle assembly according to claim 17, further comprising an installation fitting surrounding the nozzle, the installation fitting including a passage in which the nozzle is mounted and a threaded outer diameter.