RU2016138822A

RU2016138822A - HIGH VISCOUS FLOW PUMP

Info

Publication number: RU2016138822A
Application number: RU2016138822A
Authority: RU
Inventors: Барри ЛАЙТХАРТ
Original assignee: Зульцер Мэнэджмент Аг
Priority date: 2015-10-14
Filing date: 2016-10-03
Publication date: 2018-04-04
Also published as: SG10201607732RA; ES2764114T3; CN106989028A; KR20170044003A; CA2944035A1; EP3156654A1; EP3156654B1; AU2016231594A1; BR102016021270A2; RU2016138822A3; US20170107995A1; MX2016012592A

Claims

1. A pump for supplying a highly viscous fluid, comprising a housing (2) with at least a first inlet and an outlet (4) for the fluid, an impeller (5) for supplying fluid from the inlet (3) to the outlet hole (4), and the impeller (5) is located on a rotating shaft (6) for rotation around the axial direction (A) and contains a front casing (7) facing the first inlet (3) of the pump, and the housing (2) contains fixed hole (8) for the impeller to accommodate the front casing (7) wheel (5) and having a diameter (D), and the front casing (7) and the stationary hole (8) for the impeller wheel form a gap (9) having a length (L) in the axial direction (A), characterized in that the ratio the length (L) of the gap (9) to the diameter (D) of the hole (8) for the impeller is not more than 0,092.

2. A pump according to claim 1, in which the ratio of the length (L) of the gap (9) to the diameter (D) of the impeller (8) for the impeller is not more than 0.073 and preferably not more than 0.055.

3. A pump according to any one of the preceding claims, wherein the ratio of the length (L) of the gap (9) to the diameter (D) of the impeller (8) for the impeller is not more than 0.037 and preferably not more than 0.019.

4. A pump according to any one of the preceding paragraphs, in which the ratio of the length (L) of the gap (9) to the diameter (D) of the impeller (8) for the impeller is at least 0.0001.

5. A pump according to any one of the preceding paragraphs, having a radial clearance (R) between the front casing (7) and the impeller hole (8), which is not more than 0.0045 times the diameter (D) of the impeller hole (8) wheels.

6. The pump according to any one of the preceding paragraphs, in which the gap (9) contains a plurality of sections (12) sequentially located relative to the axial direction (A), and two adjacent sections (12), respectively, separated by a groove (13).

7. The pump according to any one of the preceding paragraphs, in which the fixed hole (8) for the impeller contains a wear ring (11) defining a clearance (9) relative to the radial direction, the wear ring (11) being stationary relative to the housing (2).

8. A pump according to any one of the preceding claims, wherein the impeller (5) comprises a wear ring (11 ’) defining a clearance (9) with respect to the radial direction, the wear ring (11’) being stationary relative to the impeller (5).

9. The pump according to any one of the preceding paragraphs, structurally made in the form of a pump with double suction, having a second inlet (3 ') for the fluid, located opposite the first inlet (3) of the pump, and the impeller (5) is structurally made in the form a double-suction impeller wheel (5) containing blades (51) for supplying fluid from both the first inlet (3) and the second inlet (3 ') to the outlet (4).

10. The pump according to claim 9, in which the impeller (5) contains a second front casing (7 ') facing the second inlet (3') of the pump, and the housing (2) contains a second stationary hole (8) for the impeller for receiving the second front casing (7 ') of the impeller and having a diameter (D'), the second front casing (7 ') and the second fixed hole (8') for the impeller form a second clearance (9 ') having a length (L ') in the axial direction (A), and the ratio of the length (L') of the second clearance (9 ') to the diameter (D') of the second hole (8 ') d For a paddle wheel is not more than 0,092.

11. The pump according to claim 9 or 10, in which the ratio of the length (L ’) of the second clearance (9’) to the diameter of the second hole (8 ’) for the impeller is not more than 0.073 and preferably not more than 0.055.

12. The pump according to any one of paragraphs. 9-11, in which the ratio of the length (L ’) of the second clearance (9’) to the diameter (D ’) of the second hole (8’) for the impeller is not more than 0.037 and preferably not more than 0.019.

13. The pump according to any one of paragraphs. 9-12 having a radial clearance between the second front casing (7 ’) and the second hole (8’) for the impeller, which is no more than 0.0045 times the diameter (D ’) of the second impeller hole (8).

14. The pump according to any one of paragraphs. 9-12, in which the gap (9) and the second gap (9 ’) are structurally made in essentially the same way.

15. A pump according to any one of the preceding paragraphs, intended for use in the oil and gas industry.