The following particulars refer to a two-row velocity-compounded impulse wheel which forms the first stage of a combination turbine: : 630 m/s : 125 m/s : 16° : 18° : 22 Steam velocity at nozzle outlet Mean blade velocity Nozzle angle Outlet angle, first row of moving blades Outlet angle, fixed guide 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
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Publisher:Sadiku, Matthew N. O.
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‘The following particulars refer to a two-row velocity-compounded impulse wheel which forms the frst stage of a combination turb Steam velocity at nozzle outlet 1630 mis Mean blade velocity 1125 mls Nozzle angle 116° Outlet angle, first row of moving blades 18 Outlet angle, fixed guide blades 22 Outlet angle, second row of moving blades :36° Steam flow rate 26kg'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:
: 630 m/s
: 125 m/s
Steam velocity at nozzle outlet
Mean blade velocity
Nozzle angle
: 16°
Outlet angle, first row of moving blades
: 18°
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.
Transcribed Image Text:The following particulars refer to a two-row velocity-compounded impulse wheel which forms the first stage of a combination turbine: : 630 m/s : 125 m/s Steam velocity at nozzle outlet Mean blade velocity Nozzle angle : 16° Outlet angle, first row of moving blades : 18° 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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