The following particulars refer to a two-row velocity-compounded impulse wheel which forms the first stage of a combination turbine: Steam velocity at nozzle outlet : 630 m/s Mean blade velocity : 125 m/s Nozzle angle : 16° : 18° : 22 Outlet angle, first row of moving blades Outlet angle, fixed gulde blades Outlet angle, second row of moving blades : 36° Steam flow rate :2.6 kg/s The ratio of the relative velocity at outlet to that at inlet is 0.84 for all the blade. Determine (a) The velocity of whirl.
The following particulars refer to a two-row velocity-compounded impulse wheel which forms the first stage of a combination turbine: Steam velocity at nozzle outlet : 630 m/s Mean blade velocity : 125 m/s Nozzle angle : 16° : 18° : 22 Outlet angle, first row of moving blades Outlet angle, fixed gulde blades Outlet angle, second row of moving blades : 36° Steam flow rate :2.6 kg/s The ratio of the relative velocity at outlet to that at inlet is 0.84 for all the blade. Determine (a) The velocity of whirl.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:The following particulars refer to a two-row velocity-compounded impulse wheel which
forms the first stage of a combination turbine:
Steam velocity at nozzle outlet
: 630 m/s
: 125 m/s
Mean blade velocity
Nozzle angle
: 16°
: 18°
Outlet angle, first row of moving blades
Outlet angle, fixed guide blades
: 22°
Outlet angle, second row of moving blades
: 36°
Steam flow rate
:2.6 kg/s
The ratio of the relative velocity at outlet to that at inlet is 0.84 for all the blade.
Determine
(a) The velocity of whirl.
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