35. The internal and external diameters of an inward flow reaction turbine are 0 6 metre and 1 metre respectively. The width of the wheel at inlet and outlet is 12 cms. is 9 metres and the hydraulic efficiency is 90%. The vane angle at outlet is 20°. 2.70 metres per second. Find (a) The guide blade angle. The head on the turbinc The final discharge at outlet is radial at a velocity of (6) The runner vane angle at inlet. (c) The speed of the turbine. (d) The discharge of the turbine. (e) The WHP. (14° 8' ; 164° 43'; 236 rpm; 66 hp)
35. The internal and external diameters of an inward flow reaction turbine are 0 6 metre and 1 metre respectively. The width of the wheel at inlet and outlet is 12 cms. is 9 metres and the hydraulic efficiency is 90%. The vane angle at outlet is 20°. 2.70 metres per second. Find (a) The guide blade angle. The head on the turbinc The final discharge at outlet is radial at a velocity of (6) The runner vane angle at inlet. (c) The speed of the turbine. (d) The discharge of the turbine. (e) The WHP. (14° 8' ; 164° 43'; 236 rpm; 66 hp)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Problem 1.1MA
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![35. The intcrnal and external diameters of an inward flow
reaction turbine are 0 6 metre and 1 metre respectively. The width
of the wheel at inlet and outlet is 12 cms.
is 9 metres and the hydraulic efficiency is 90%. The vane angle at
outlet is 20°. The final discharge at outlet is radial at a velocity of
2 70 metres per second.
Find (a) The guide blade angle.
The head on the turbinc
(6) The runner vane angle at inlet.
(c) The speed of the turbine.
(d) The discharge of the turbine.
(e) The WHP.
(14° 8' ; 164° 43'; 236 rpm; 66 hp)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd2ec78e2-2eac-46fc-b92b-cce6f13294f7%2Fc86fe9dc-8be6-4cc0-9d4d-19a2e146936f%2Ftuqj9u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:35. The intcrnal and external diameters of an inward flow
reaction turbine are 0 6 metre and 1 metre respectively. The width
of the wheel at inlet and outlet is 12 cms.
is 9 metres and the hydraulic efficiency is 90%. The vane angle at
outlet is 20°. The final discharge at outlet is radial at a velocity of
2 70 metres per second.
Find (a) The guide blade angle.
The head on the turbinc
(6) The runner vane angle at inlet.
(c) The speed of the turbine.
(d) The discharge of the turbine.
(e) The WHP.
(14° 8' ; 164° 43'; 236 rpm; 66 hp)
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