A centrifugal pump impeller includes front and back shrouds and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner
A centrifugal pump impeller includes front and back shrouds and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face having a radius of curvature (Rs) in the range from 0.05 to 0.16 of the outer diameter of the impeller (D2) The back shroud includes an inner main face and a nose having a curved profile with a nose apex in the region of the central axis which extends towards the front shroud, there being a curved transition region between the inner main face and the nose. Fr is the radius of curvature of the transition region and the ratio Fr/D2 is from 0.32 to 0.65. Other ratios of various dimensions of the impeller are also described.
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1. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about
1. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face has a profile defined by the following: yn=−2.3890009903xn5+19.4786939775xn4−63.2754154980xn3+102.6199259524xn2−83.4315403428x+27.7322233171 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller front shroud arcuate inner face, and D2 (which is the impeller outside diameter) is 550 mm, and B2 (which is the impeller outlet width) is 72 mm. 2. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the back shroud further includes a nose having a curved profile with a nose apex in the region of the rotation axis which extends towards the front shroud wherein the curved profile is defined by the following: yn=−87.6924201323xn5+119.7707929717xn4−62.3921978066xn3+16.0543468684xn2−2.7669594052x+0.5250083657 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller back shroud further including a nose having a curved profile, and D2 (which is the impeller outside diameter) is 550 mm, and B2 (which is the impeller outlet width) is 72 mm. 3. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face has a profile defined by the following: yn=−7.0660920862xn5+56.8379443295xn4−181.1145997000xn3+285.9370452104xn2−223.9802206897x+70.2463717260 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller front shroud arcuate inner face, and D2 (which is the impeller outside diameter) is 1560 mm, and B2 (which is the impeller outlet width) is 190 mm. 4. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the back shroud further includes a nose having a curved profile with a nose apex in the region of the rotation which extends towards the front shroud wherein the curved profile is defined by the following: yn=−52.6890959578xn5+79.4531495101xn4−45.7492175031xn3+13.0713205894xn2−2.5389732284x+0.5439201928 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller back shroud further including a nose having a curved profile, and D2 (which is the impeller outside diameter) is 1560 mm, and B2 (which is the impeller outlet width) is 190 mm. 5. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face has a profile defined by the following: yn=−0.8710521204xn5+7.8018806610xn4−27.9106218350xn3+50.0122747105xn2−45.1312740213x+16.9014790579 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller front shroud arcuate inner face, and D2 (which is the impeller outside diameter) is 712 mm, and B2 (which is the impeller outlet width) is 82 mm. 6. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the back shroud further includes a nose having a curved profile with a nose apex in the region of the rotation which extends towards the front shroud wherein the curved profile is defined by the following: yn=−66.6742503139xn5+103.3169809752xn4−60.6233286019xn3+17.0989215719xn2−2.9560300900x+0.5424661895 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2 wherein x and y define the actual coordinates of an impeller back shroud further including a nose having a curved profile, and D2 (which is the impeller outside diameter) is 712 mm, and B2 (which is the impeller outlet width) is 82 mm. 7. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face has a profile defined by the following: yn=−0.2556639974xn5+2.6009971578xn4−10.5476726720xn3+21.4251116716xn2−21.9586498788x+9.5486465528 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller front shroud arcuate inner face, and D2 (which is the impeller outside diameter) is 776 mm, and B2 (which is the impeller outlet width) is 98 mm. 8. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud and a back shroud, each having a main inner face in a plane substantially at right angles to the rotation axis and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the back shroud further includes a nose having a curved profile with a nose apex in the region of the rotation which extends towards the front shroud wherein the curved profile is defined by the following: yn=−74.2097253182xn5+115.5559502836xn4−67.8953477381xn3+19.1100516593xn2−3.2725057764x+0.5878323997 where the yn axis is in the plane of the back shroud main inner face and the xn axis is coaxial with the rotation axis, and yn equals y/(0.5×D2) and xn equals x/B2, wherein x and y define the actual coordinates of an impeller back shroud further including a nose having a curved profile, and D2 (which is the impeller outside diameter) is 776 mm, and B2 (which is the impeller outlet width) is 98 mm. 9. A fluid inlet arrangement for use in a centrifugal pump, the pump including a pump casing defining a chamber therein for receiving an impeller for rotation within the chamber, and an outlet for discharging material from the chamber, the fluid inlet arrangement comprising: an impeller having a front shroud, a back shroud and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and having a trailing edge, the front shroud having an arcuate inner face in the region of the impeller inlet, the arcuate inner face having a radius of curvature (Rs) in a range from 0.05 to 0.16 of the outer diameter of the impeller (D2), and the back shroud including an inner main face and a nose having a curved profile with a nose apex in the region of a central axis of the impeller which extends towards the front shroud, there being a curved transition region between the inner main face and the nose, wherein Fr is the radius of curvature of the transition region, the ratio Fr/D2 being from 0.32 to 0.65; anda front liner having a raised lip which subtends an angle (A3) to the impeller central axis in a range from 10° to 80°. 10. The fluid inlet arrangement of claim 9, wherein the front liner has a cylindrically shaped fluid delivery section having an inner end and an outer end spaced from the inner end, wherein diameter D4 of the inner end is in the range of 0.55 to 1.1 of the diameter D3 of the outer end. 11. The fluid inlet arrangement of claim 9, wherein the front shroud has an outer face and the front liner has a side wall section positioned adjacent to and parallel with the outer face of the front shroud, and an angle A2 is defined between a plane of the outer face and a plane that is normal to the central axis of the impeller, the angle A2 being from zero degrees to twenty degrees. 12. A fluid inlet arrangement for use in a centrifugal pump, the pump including a pump casing defining a chamber therein for receiving an impeller for rotation within the chamber, and an outlet for discharging material from the chamber, the fluid inlet arrangement comprising: an impeller having a front shroud, a back shroud and a plurality of pumping vanes extending axially therebetween, each pumping vane having a leading edge in the region of the impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face having a radius of curvature (Rs) in the range from 0.05 to 0.16 of the outer diameter of the impeller (D2), said back shroud having an inner main face and a nose having a curved profile with a nose apex in the region of the central axis which extends towards the front shroud, there being a curved transition region between the inner main face and the nose, wherein Inr is the radius of curvature of the curved profile of the nose, the ratio Inr/D2 being from 0.10 to 0.33; anda front liner having a cylindrically shaped fluid delivery section with an inner end and an outer end spaced from the inner end. 13. The fluid inlet arrangement of claim 12, wherein the outer end of the fluid liner has a diameter D3 and the inner end has a diameter D4, and further wherein diameter D4 is in the range of 0.55 to 1.1 of the diameter D3. 14. The fluid inlet arrangement of claim 12, wherein the front shroud has an outer face and the front liner has a side wall section positioned adjacent to and parallel with the outer face of the front shroud, and an angle A2 is defined between a plane of the outer face and a plane that is normal to the central axis of the impeller, the angle A2 being from zero degrees to twenty degrees.
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Turkia Erkki (Inkeroinen FIX) Relander Matti (Anjala FIX), Blade wheel for a centrifugal pump.
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